西班牙专利ES2700660A2 Structure and stabilization device for carp (Machine-translation by Google Translate, not legally bi

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专利摘要:
Structure of a tent (1) with a roof having a pyramid shape, a support arrangement (4) with at least four supports (5), at least three external scissor structure segments (23) per exterior side of the structure (6), a device for fixing the roof (8) to the central post (7), central diagonal bars (47-50) that start from the central post (7), such that the central diagonal bars (47-50) they are connected to the outer scissor structure segments (23) by means of scissor structure segments (23') oriented towards the interior of the tent, and such that, to form the roof tip, the central post (7) it is extended by means of a driving rod (41), and such that the driving rod (41) or the central post (7) is connectable to the central diagonal bars (47-50). (Machine-translation by Google Translate, not legally binding)
公开号:ES2700660A2
申请号:ES201830744
申请日:2018-07-23
公开日:2019-02-18
发明作者:Georg Zingerle
申请人:Zingerle AG；
IPC主号:

专利说明:

[0001] Structure and stabilization device for carp
[0002] The present invention relates to a structure and a stabilization device for a tent according to the preamble of claim 1 and 10 as well as to a tent according to claim 15.
[0003] From DE 102011 054205 B4 it is known a carp having a liner and a skeleton which in the state in which the carp is constructed is at least partially covered by the liner. The coating is an adaptation of the fabric material of the roof of the tent.
[0004] The tent has a plurality of ridge elements that are connected to a common center piece and have a plurality of pole elements. In the state in which the tent is constructed, the pole elements are located in a plane.
[0005] The tents usually have four vertical corner supports that serve to support the structure, ie the static system of structural support elements that as a whole are relevant to the stability of the structure, and to support the roof of the tent with the structure .
[0006] For this purpose, the corner supports are connected to each other, the cross connection also extending. These connections include profile elements that are commercially available today, usually made of aluminum and designed as bar profiles.
[0007] The tents are usually designed as folding tents. In order to be able to be opened or closed for this purpose, from the corner supports there are profile elements that are designed as scissor profiles or profiles of scissor grille and that are part of the structure of the tent. Such scissor profiles are also used for tents that are not designed as folding tents. The scissor grille profile and scissor profile profile terms are used here as synonyms.
[0008] The pagoda tents are a special tent configuration that usually has a quadrangular design. The quadrangular design is usually 4 x 4, 5 x 5 m, 6 x 6 m, 7 x 7 m, etc.
[0009] In comparison with the classic tents, in particular, the folding tents, and kiosks, the pagoda tents are lighter and more elegant due to their high roofs and pointed finishes. Another advantage is that, because its roof is high and finished in tip, the rainwater runs homogeneously on all four sides and can not form waterlogging bags. On the other hand, the heat under the pointed roof does not accumulate as easily as under a flat roof.
[0010] In large tents, the profile elements or scissor profiles mentioned above are connected to at least one connection element arranged on the longitudinal and / or transverse side of the outer support construction.
[0011] Usually, a support of the connection element on the longitudinal sides of the tent is prevented by means of a support element or a support support such as, for example, with the corner supports mentioned above, because such support element or such support of support is visually unattractive and affects the accessibility to the interior of the tent.
[0012] In this case, the connection element normally has a T-shaped or cross-shaped longitudinal configuration, depending on the number of profile elements to be connected. It also serves to accommodate a scissor profile, which works in the direction of the roof of the tent - interior area.
[0013] From the utility model DE 202004016429 U1 of this applicant, it is known a carp structure comprising a fabric of a carp roof which is supported by a support arrangement. This arrangement comprises surrounding tube-shaped elements, which have an arrangement of supports in the form of a scissor grid, also of a folding type, and which supports the roof of the tent. The support construction extending in the interior, that is to say the construction representing the skeleton, has at least one support element, hereinafter referred to as a synonym of central post or central bar, which is oriented towards the fabric of the roof of the tent and supports it directly, so that the fabric is located mostly away from the provision of supports in the form of a scissor gate and forms a typical roof structure of the tent in the shape of a cone. With the central post or the central bar is connected a device that serves to connect the fabric of the roof of the tent fixedly to this central post or the central bar. In addition, the device serves to facilitate the connection of a bar, for example, for a banner, to the provision of supports. In the event that the fabric of the roof of the Carp has a plurality of central posts or central bars that are connected to the support arrangement, each central post provided with a device or each central bar can be connected to a bar. A mushroom-shaped waterproofing of the tip of the roof of the tent in connection with the bar which in this embodiment supports a banner is also described in this utility model. The present application provides a relevant specification by itself. By way of example - however without being limiting - a basic conceptual structure of a tent roof is provided, as shown, in particular, in Figure 5 of this utility model.
[0014] Carps that are not foldable should be folded or folded, which is an investment of time and therefore a considerable cost, in particular, as regards its structure. In particular, this is valid for tents that exceed a certain size in their flat design, for example, that exceed a size of 4 x 4 m, in a quadrangular flat design. This applies to tents regardless of whether they are pagoda type, have a cone shape or similar.
[0015] Larger tents of a certain size can not be transported in the folded state by means of a car or a family car or, for example, their corner supports must be divided into enough pieces to make it possible to transport the tent but , in this case, the structure of the tent requires a greater investment of time for its construction and, especially, stability is reduced. Next, this should be briefly explained with reference to a tent with a quadrangular layout of 5 x 5 m.
[0016] Such a tent with a quadrangular design of 5 x 5 m has a construction height or packing height of 2.50 m in the closed state, having two scissor profiles that open during the construction of the tent. That is, the scissors also have a length of 2.50 x 2.50 m. A height of 2.50 m involves a complex handling during the transport of the carp collected in a car or a family car.
[0017] In this case, it is impossible with the tent explained by way of example, which has a quadrangular design of 5 x 5 m, reconfigure the double provision of scissor profile of 2 x 2.50 m in a profile layout of scissors, which is composed of three section sections of scissor grid with a length of approximately 1.66 m (henceforth: apurismadamente 1.70 m). The structure of a tent does not only consist of such scissor grid profiles laterally surrounding the outer edge of the structure. In addition, these must also have a connection oriented towards the interior area of the structure that converges in a central bar that in turn supports the tip of the roof fabric of the tent. For such a division into three sections of the scissor bars, each approximately 1.70 m in length, there are in total nine partial quadrangular surfaces in a tent with a flat design of 5 x 5 m, in the case that additional profile elements start perpendicularly from the end points of the scissor grid profiles and from each of the four sides of the structure extending in the direction of the interior of the tent. Therefore, a center point or central node of the tent is missing, formed by the same segments of scissor structure, that is, they start from the segments of scissor structure, the profiles oriented towards the interior of the tent not extending to a pole central located in the center of the tent, which houses the tip of the roof of the tent.
[0018] From these drawbacks of the state of the art, the present invention raises the technical problem of developing a tent that has a lower construction height or packing height compared to those of the state of the art.
[0019] In this connection, the additional objective of developing a structure of a tent having more than two segments of surrounding scissor structure on each exterior side of the structure and in which, however, the profile elements of the structure are directed to a point central or nodal point in a configuration of a central post disposed in the center of the tent and housing the tip of the roof.
[0020] In addition, a tent structure must be provided which avoids a considerable investment of time or cost in collecting or folding its individual profile elements in the construction of the tent.
[0021] In addition, a structure must be provided which, despite the reduction in its construction or packaging height in the folded state, makes it possible to construct the roof having a high and relatively pointed roof, that is to say a roof which is generally referred to as a roof. pagoda.
[0022] A further sub-objective is to provide improved stability of a carcass structure construction with a larger plant design, ie floor plans with square designs greater than 4 x 4 m or quadrangular of 3 x 4 m.
[0023] This objective is achieved by a structure with the features of claim 1. Advantageous embodiments are specified in the dependent claims. A tent according to the invention is specified in claim 12.
[0024] Summary description:
[0025] Consequently, the structure of a tent has a roof having a pyramid shape, with a support arrangement with at least four supports, at least three exterior scissor structure segments on each exterior side of the structure, at least two segments of scissor structure, each of which starts from the three segments of scissor structure on each outer side of the structure at an angle in the direction of the interior of the tent, at least four segments of internal scissor structure that are connected to the ends of the respective at least two segments of scissor structure and extending parallel to the at least three segments of scissor structure surrounding the outer side, with a device for fixing the roof to a central post, with diagonal bars plants that start from the central post, such that the central post is extended by means of a driving bar to form the tip of the weave The central bar is connected to the central diagonal bars.
[0026] For a tent it is understood here a temporary, simple and preferably transportable construction.
[0027] A tent in the context of the invention comprises among other configurations of "classic" tent, collapsible tents, emergency tents, fairground tents, kiosks, storage tents, event tents, tents, market stalls, pagoda tents , stores for "camp cities", etc. They may have, for example, quadrangular, rectangular, hexagonal, octagonal planar surfaces. They can be assembled and / or disassembled with or without tools in practically any location. They can also be provided for permanent use.
[0028] A tent is characterized by the fact that it consists, among other things, of a skeleton of profile elements and a cover disposed thereon. The skeleton of profile elements is part of the structure. A scissor structure segment has two profile elements that intersect each other in the extended state.
[0029] A structure in the context of this invention is a specification of the general static system of the construction of the roof of a tent. The support system for the roof of the tent comprises, among others, profile elements and profile supports, connection elements for connection between the profile supports and profile elements, screw connections, flanges.
[0030] Predominantly, aluminum is used for profile elements and profile supports, but other metals and plastics or wood can also be used.
[0031] Carp fabric, in particular, of the roof of the tent, can be understood as any material in use for tents, for example, reinforced vinyl, cloth, polyester, PVC, nylon, polyurethane, impregnated cloth, plastic sheets or mixed fabrics.
[0032] More recently, so-called folding tents, also known as fast-building tents, have become increasingly important. Their advantage lies in the fact that they can already be supplied with the roof mounted, it is not necessary to dismantle the roof during the assembly and disassembly of the folding tent, it being possible to carry out assembly and disassembly without tools. The present invention fits this type of folding tent.
[0033] Such folding tents are folded and picked up in the delivery state. When the carp is constructed, a structure is opened by pulling the tent outwards by means of scissor grid profiles arranged on the outer sides of the structure surrounding it. The pre-assembled roof is automatically extended. For this purpose the corner supports of the tent are therefore connected to a roof construction of the type of scissor grid that makes possible the extension between them when forming the tent. Regardless of the particular configuration of a tent, the roof of the tent is usually at the upper ends of the supports, in particular, the supports arranged at the corners of the roof of the tent, covering them. Other supports may be provided, for example, in the center of the tent or on the longitudinal or frontal sides of the tent.
[0034] Through a rectangular or quadrangular design of the tent, it has at least four profile supports. A polygonal tent has a corresponding plurality of supports.
[0035] For the term used here of profile support, the terms of corner support, pillar, corner post or the like can be used synonymously.
[0036] The profile supports on their part can be arranged on the underside on separate bases, which is especially suitable when the tent is raised on grass, soil, sand or the like.
[0037] The geometric design of the respective profile supports in this case is conceptually indifferent. In the context of the present invention, an octagonal hollow profile design is simply used as an example.
[0038] The outer wall of the support can be smooth, corrugated, corrugated or have any required configuration.
[0039] In the constructed state of the tent the construction of the roof of the tent rests on the upper ends of the supports. Therefore, in a quadrangular tent construction, the four respective corner areas of the roof of the tent are arranged in supports correspondingly arranged in a quadrilateral. Between the supports and the corner areas of the roof of the tent a connection is made, in the design, preferably articulated. However, this is not the object of the present invention.
[0040] The supports are connected to one another by externally surrounding, preferably, by segments of scissor structure by means of connecting elements connecting these segments of scissor structure. On the outer sides of a quadrangular tent construction according to the invention referred to by way of example, at least three segments of scissor structure are provided for each one. The scissor structure segments can also be referred to as synonymous with profile elements. The supports are therefore connected to each other by means of profile elements. The profile elements, ie the segments of scissor structure surrounding the outer sides of the structure, can in turn be connected to each other by means of one or more connection elements. In the arrangement of three segments of scissor structure on one side there are thus provided at least two connection elements for connecting the scissor structure segments to each other.
[0041] For the design of materials, constructive and geometric, of the profile elements, the relevant embodiments of the profile supports are valid analogously, with the requirement that the profile elements serve for the roof portions of the structure's tent.
[0042] Observing one side of the structure according to the present invention, it has at each of its outer corners a corner support. The corner supports are connected to each other by means of at least three segments of scissor structure. In this case, first the connection of the left corner support in front view to the segment of the scissor structure adjacent to it is made by means of a connection element. This connection element preferably has an L shape, since it also serves for connection to the other adjacent corner support. Then, a second segment of scissor structure is attached to the aforementioned scissor structure segment, the connection between both sections being made on its part by means of a connecting element preferably designed in a T-shape. The third segment of scissor structure is it disposes adjacent to it, being connected on its part to the second segment of the scissor structure by means of a connection element preferably designed in a T-shape. Then, the third segment of the scissor structure is itself connected to the right corner support. in frontal view by means of a connecting element designed preferably in the form of an L.
[0043] These at least three scissor structure segments that surround the exterior onwards are also referred to as outer scissor structure segments.
[0044] Therefore, each side of the structure has at least four upper connecting elements.
[0045] Since it is a scissor grid construction, a corresponding number of lower connecting elements is added, since the connecting elements are arranged where the scissor profile has its maximum spacing of the profile elements in height and next to the profile of adjacent scissors, with which in its connection zone this scissor profile also has its maximum distance. This maximum distance is abbreviated below with "d". These connection elements are necessary, inter alia, when the profile elements must cover greater distances or greater distances to the supports.
[0046] The connecting elements used in the context of the invention preferably have, on the one hand, a T-shaped receiving structure for the connection of preferably two profile elements such that the profile elements of the scissor grid type extend substantially parallel to the respective side of the tent, while at least one additional profile element starts from this scissor gate arrangement in the direction towards the inner side of the tent. The connection elements are therefore not aligned in a two-dimensional trajectory, which would be sufficient for a connection of the scissor structure segments with each other, but preferably have a housing structure that departs from it at a right angle and that houses the profile element that extends towards the interior of the tent. This described connector is henceforth referred to as a three-way connector. The structure according to the invention preferably has at least two segments of scissor structure of the at least three segments of scissor structure that extend on the respective outer sides of the structure, each of the two segments of scissor structure starting from at a preferably straight angle in the inward direction of the tent adjacent to each other on the outer side of the structure. Preferably, they extend parallel to each other. These scissor structure segments also consist of profile elements.
[0047] Since these at least two segments of scissor structure directed in the direction of the interior of the tent depart from all four outer sides of the structure, they extend inside the tent one on top of the other. Reference is now made to them also as extending or facing the interior of the tent.
[0048] Where these segments of scissor structure oriented towards the interior of the tent extend one over the other, that is to say at their ends located in the tents, connection elements are fixed on their part. Preferably they are four-way connectors.
[0049] These four-way connectors connect, on the one hand, the scissor structure segments oriented towards the interior of the tent, specifically where each of the scissor structure segments disposed adjacent to each other extend one on top of the other in the form of a cross . On the other hand, these connectors also house a set of four segments of internal scissor structure that encircle quadrangularly - in a tent with a quadrangular or rectangular plan design - as if they were nodal points. These interior scissor structure segments hereinafter referred to as so are connected to each other at their corresponding ends by means of the four-way connectors.
[0050] By means of this arrangement of the interior scissor structure segments, therefore, a type of square results. In the center of the square is arranged the central post of the tent, which in turn is connected to the part of the structure belonging to the roof of the tent and which comprises the segments of scissor structure described above by means of profile elements that they extend diagonally from the central post. The connection is made by means of the four-way connectors described above or by means of another articulation or fixation at the described nodal points of the inner scissor structure segments and those oriented towards the interior of the tent. In the following, diagonally extending profile elements are also referred to as central diagonal bars.
[0051] From the construction of the support structure described, which will be explained in more detail below, a segmentation of the structure corresponding to the roof of the tent is obtained in nine parts of the described tent configuration, at the center of which the central pole of the tent. By means of the described construction of the connection of the central post to the structure, a stable general construction is made which perfectly fits the mentioned tent roof types.
[0052] Since the scissor structure segments described above are connected to each other at their respective ends by means of the connecting elements, respective upper and lower connecting elements are preferably provided in the three-way or four-way connector designs described above. . The upper connection element accommodates the profile element facing upward and the lower connection element the profile element facing downwards from the respective scissor structure segment.
[0053] Instead of a separate upper and lower connection element, it is also possible to provide a one-piece connecting element that combines the function of the two elements.
[0054] The respective profile element used can therefore have a housing structure for two profile elements, that is to say an L-shaped accommodation structure, Z-shaped or, for example, in a long form. In addition, the connection element can also have a housing structure for four elements of profile comparable to a so-called "hash key" of a telephone keypad, for example, for use inside the tent; such a connecting element is usually referred to as a four-way connector.
[0055] Other accommodation structures are possible and are available to the person skilled in the art, depending on each specific application.
[0056] The scissor profile comprises profile elements which extend at an angle and are articulated to each other and which in a folded state are in contact forming a right angle to each other.
[0057] In the extended state, in which the roof of the tent reaches the maximum height on the supports of the structure of the tent, the profile elements extend in the form of scissors below the roof of the tent.
[0058] The structure disposed inside the tent, and therefore the skeleton of the tent, has at least one central post which - as shown - indirectly has a support in the roof skeleton. The roof of the tent may have a plurality of this type of central posts, which are part of the structure. The central post is preferably hollow, at least partially hollow.
[0059] The central post is oriented towards the fabric of the roof of the tent and supports it directly, so that the tip of the roof fabric of the tent is located as far as possible from the rest of the construction of the structure. This results in the typical roof structure of a conical or pagoda tent.
[0060] A device is connected with the central post to connect the roof fabric of the tent to this central post.
[0061] This device preferably has a closing mechanism on the upper front side of the roof tip of the tent to waterproof this area.
[0062] The device comprises a first body that serves to be connected to the central post as well as a second body that serves to be connected to the first body. This directly supports the fabric of the roof of the tent, which is inserted between the two bodies. For the connection between the two bodies the roof fabric of the tent has an opening which is preferably surrounded by a rigid ring delimiting the edge of this opening. Therefore, this ring is inserted between the aforementioned bodies, allowing a connection between them. Other related constructions are directly accessible to the expert in the field.
[0063] In particular, the first body has a substantially mushroom-shaped design and comprises a vertically extending wall, preferably, with a tube-like configuration surrounding a cavity. This first body serves to fit the central post and through the wall of the tube to be inserted in this cavity. A reverse configuration is also possible. The first body can be extracted again from the central post.
[0064] After inserting the first body in the central post, the ring of the roof fabric of the tent pushes on the head of this body. In particular, the ring rests on the flat part of the head.
[0065] The first body is connected to the second body, which likewise is designed substantially in the form of a mushroom. Also this second body comprises a wall of a tube, which extends vertically and delimits a cavity.
[0066] At the lateral end of the head of the tube of the second body is arranged a cylindrical hood which serves to be placed on the ring of the fabric of the roof of the tent, cooperating with a cover in a manner known per se, for the purpose of closing the cavity inside the second body. This cap thus also indirectly serves to close the cavity of the central post, when the same, for example, is not being used, so that rain, dust and others can not enter the cavity.
[0067] If necessary, in this cavity can be inserted, in particular, inserted, some other component, for example, a bar, which houses a rotating object or a banner.
[0068] The connection between the first body and the second body is effected by inserting it into the cavity thereof, as described in detail in the aforementioned German utility model DE 202004016429 U1. The connection between the bodies is reversible, so that they can be separated by pulling outwards.
[0069] As shown, the device can also serve to facilitate the connection of the additional component, for example, the bar, which houses the rotating object with the structure, in particular, the central post. In the event that the roof skeleton has a plurality of support elements that have the function of the central post and are connected to the structure, each support element or a plurality thereof may also be provided with a device, each one by connecting an additional component that houses the rotating object to the central post.
[0070] The essence of a folding tent is that the roof can be traversed from above through the construction described above with the additional component that houses the rotating object. In any case, the configuration remains waterproof.
[0071] In the non-extended state of the carp, the central post is first connected only at its upper end -in the extended state of the carp- to the device while its lower end - in the extended state of the carp It is left loose. However, independently of this, the central post connects to the four-way connector and therefore to a part of the structure.
[0072] In the present invention, the hollow central post, which is part of the preferable collapsible roof construction and which opens at the tip of the roof, is shaped as an octagonal aluminum tube. Likewise, other basic geometric shapes and materials can be used.
[0073] In particular, the central post can be a corner support of the structure cut to the required dimensions. The explanations made above for the structure also apply to the central post analogously.
[0074] The diameter of the central post in folding tents is typically 30-100 mm, preferably 50 mm. Also, to provide even greater carp stability, the octagonal profile of the center post and a wall thickness of 1-5 mm, preferably 2 mm, is provided.
[0075] These data are provided simply by way of example and depend on the particular application of the tent. For example, an emergency store requires other dimensions and strength than a garden tent.
[0076] As indicated above with reference to the example of a 5 x 5 m carp, having three segments of scissor structure of the surrounding roof skeleton on each side, in such constructions a central point or nodal point of the carp is required. part of the same segments of scissor structure, ie these segments of scissor structure are not the starting point of profiles that depart from these in the direction of the interior of the tent and that run in a central post disposed in the center of the tent and that lodges the tip of the roof.
[0077] Accordingly, the invention provides the aforementioned configuration of four central bars disposed diagonally. These diagonal bars are automatically positioned by the extension of the tent and therefore also make possible the positioning of the central post, as described in more detail below. These diagonal bars are articulated to the four-way connectors already explained that form a quadrangular arrangement of four diagonals spaced apart.
[0078] Instead of the preferable, diagonal bars can also be used ropes, straps or chains.
[0079] By means of each of these connectors - as has been explained - other segments of scissor structure that extend towards the interior of the tent are articulated, being aligned directly with the segments of external scissor structure that extend on the outer side of the structure and being connected to these segments of scissor structure. The scissor structure segments are disposed between the connectors. Therefore, the structural connection between the central post and the outer scissor structure segments that surround the exterior is effected by means of the central diagonal bars and by means of the scissor structure segments oriented towards the interior of the tent. In this case, the connection between the central diagonal bars and the scissor structure segments oriented towards the interior of the tent is made by means of connectors having a cross-shaped configuration. By means of this construction, in a tent with a quadrangular plan design, the aforementioned division into nine partial quadrangular designs is achieved in a quadrangular flat design of a tent.
[0080] The four central diagonal bars are connected to the central post by means of a central connector. The four central diagonal bars are articulated to this central connector. This connector is provided in its center with a cavity in which the lower part of the central post is introduced. In the manner explained below in greater detail, the connector has a guide or slide for the central post. With the extension of the tent, together with the central post the central diagonal bars move upwards, so that the tip of the roof of the tent is finally formed and the tent takes the form of a pyramidal or pagoda roof.
[0081] A difference with respect to classic folding tents, in which the central post is acted upwards by the extension of the tent or by the extension of a guiding device or of a slide, so that together with it also the tip of the The roof of the tent also moves up, it rests on the following:
[0082] As stated, the central post is fixed at the tip of the roof of the tent by means of a device. In this case, the central post has a length that makes it easily transportable in motorized, family vehicles, or the like.
[0083] When extending the tent, the central post hangs still loose down on this device.
[0084] In order to extend the tent additionally and in order to reach the pyramidal or pagoda shape of the roof tent structure, according to the invention a drive bar is provided which is inserted into the cavity of the pole and centers from below by means of the connector aforementioned.
[0085] This general connection structure resulting in this way from the central post and the actuator bar is then manually or mechanically pressed upwards, for example by means of a cable, a crank, a rack mechanism, a gear or by means of an engine.
[0086] Then, by means of a corresponding opening in the central post or the driving rod, a bolt inserted there and subjected to the action of a spring, hereinafter referred to as a spring bolt, which provides an insertion click in a recess, is pressed. corresponding to the connector guide by providing a local coverage of this area. By means of the push button, this lock can be released again. To facilitate the drive, the drive rod has a handle.
[0087] This combination makes possible a configuration with a much greater height of the tip of the roof.
[0088] By means of this construction it is also possible to design such tents as folding tents, since it is not necessary to invest so much time in folding or collecting them, especially the pagoda tents, as is the case so far.
[0089] The actuator bar thus represents an essential aspect of the invention that goes beyond the simple extension of the central post.
[0090] Additionally, this allows a significant reduction in the construction height or packaging height in the state of delivery of the tent. In addition, a point is achieved above the height of the roof constructions of normal tents designed in the shape of a cone, providing a great height to the roof of the tent, in particular, on the roof of tents with the configuration in the shape of a pagoda. .
[0091] In a further embodiment of the structure according to the invention for a tent, stabilization devices are additionally provided, which are described below:
[0092] As already explained above, the scissor structure segments of the structure, surrounding on the outer side of the tent, are connected to each other by means of connectors, arranged in the profile elements of the scissor structure segments, above and below, so that the tent has a scissor fence arrangement surrounding on all sides.
[0093] As discussed, the scissor structure segments that face the interior of the tent starting from the connectors of the central diagonal bars are also arranged in the upper and lower connectors. Therefore, these connection elements have a T-shaped design as a three-way connector. They are disposed at the respective upper and lower ends of the profile elements, which intersect each other, of the external scissor grille profile and house the corresponding upper and lower end of the profile elements, which intersect each other, of the adjacent external scissor structure segment. The housing can be, for example, a joint. At the same time, the upper and lower three-way connectors accommodate the upper and lower ends that start from the inside of the scissor structure segments oriented towards the interior of the tent, for example, also by means of a joint.
[0094] In the area of these upper and lower connectors the scissor grid profiles of the scissor structure segments of the structure, surrounding on the outside and facing the interior of the tent, reach their maximum spacing at distance "d".
[0095] This zone of maximum spacing serves to provide stabilization devices. These stabilization devices serve to improve the stability of the tent when the scissor bars are connected to each other by means of these stabilization devices at their maximum distance "d". In a conventional tent the scissor bars do not connect to each other by themselves. However, in the present type of tents the forces would be so great that the profile elements of the scissor gate arrangement extending below would be pushed outwardly during the extension of the tent.
[0096] Therefore, the stabilization devices are advantageous because the forces acting downward on the roof of the tent are directed outwardly by means of the central diagonal bars described above, thereby acquiring the appropriate force. The application of force would push the inner scissors of the scissor gate downwards.
[0097] For this purpose, the scissor profile elements extending above and extending below the scissor structure segments are connected together in the area of their maximum distance "d". For this, two connection tubes are provided, namely an upper connection tube as well as a lower connection tube.
[0098] Therefore, each of these stabilization devices in the case of the example of a tent of 5 x 5 m are arranged between the connectors configured as corner connectors and enclosed between the upper connectors and the lower connectors and have, each one, the upper connecting tubes and lower connecting tubes, as described further below.
[0099] The stabilization devices are designed as described above and described below but can also be designed according to other technical configurations, for example, as a chain, tie rods or other means of connection which are synonymous with the term stabilization device in the context of the present invention
[0100] Therefore, the stabilization devices are indirectly connected by means of segments of scissor structure oriented towards the inside of the tent, indirectly connecting the central diagonal bars to the central post or to the driving rod with the central post.
[0101] This causes a force application structured to a certain extent that part of the central pole or of the drive rod inside the tent to the outside of the tent.
[0102] Therefore, the two connecting tubes cooperate with the upper connectors and the lower connectors mentioned above, which not only represent connectors for the surrounding outer scissor structure segments on the outer sides of the tent but are (indirectly) connectors for the central post or the activation bar.
[0103] The (corresponding) lower connection tube is movable in a lower connector. The lower connector is designed in the form of a tube, thus forming a guide or slider for the lower connection tube. By means of the tube-shaped cavity of the lower connector, it is preferably designed as a cylinder-shaped cavity, the connection tube can be guided in a displaceable manner.
[0104] By means of a handle disposed at the lower end of the lower connection tube it is pressed upwards through the connector cavity and connected to the upper connection tube by means of a connection part, on which a spring pin is supported. as a protrusion, and preferably by means of an opening provided therein, wherein the spring pin provides an insertion crack when it reaches the opening due to the thrust of the lower connection pipe.
[0105] In the connecting tubes for releasing this connection that enters through the cavity, a pressing button can be provided with which the spring pin can be pressed back to the lower connecting tube so that, for example, the it can itself be extracted from the outer connection tube having a larger diameter or be pressed to release the connection of the spring pin with the thumb through the opening.
[0106] Once the tent is raised in its basic form, which is the case when the central pole drive rod has brought it to its final position, the stabilization devices are operated, as described above, being connected to each other. therefore the tubes.
[0107] As described above, the drive rod is a separate component from the center post. However, it can also be designed as a telescopic device that is disposed at least partially in the cavity of the central post. In this case, the central post has a diameter greater than that of the actuating rod in its configuration as a telescopic device, that is to say, the central post engages outside the telescopic component which in turn is fixed to the connector in the extended state. .
[0108] In the design of a telescopic device, the actuator bar also serves to adjust the height of the central post, for which it is pressed outward to the desired extent. The relative axial fixation of the central post and the operating rod as a telescopic device as well as the mobility of this telescopic device can be effected in numerous ways according to the state of the art. By using such a bar design as a telescopic device it becomes possible to shorten the central post to a manageable length, for example, for transport or storage purposes, while in the use state of the central post it can be easily extended for that the fabric of the roof of the tent is arranged at a sufficient height with respect to the ground. For a better understanding of the present invention, reference is made by way of example and without limitation to the following figures, which show:
[0109] Figure 1 is a schematic representation of a tent with a tent roof in a diagonal view;
[0110] Figure 2 is a schematic representation of the arrangement of the connectors, the central diagonal bars and the inner profile elements as well as the segments of scissor structure surrounding views from above;
[0111] Figure 3 is a schematic representation of the arrangement of the stabilization devices seen from above;
[0112] Figure 4 is a schematic representation of the central post, the driving bar and the connection of both as well as the two central diagonal bars;
[0113] Figure 5 is a detailed representation of Figure 4;
[0114] Figure 6 is a schematic representation of the connection of the driving rod and the central post in detail;
[0115] Figure 7 is a schematic representation of a stabilization device;
[0116] Figure 8 is a detailed representation of the connection of the stabilization device;
[0117] Figure 9 is a schematic representation of the device for fixing the roof fabric of the tent in the central post;
[0118] The construction of the tent roof rests on the upper end of the support 5, in the constructed state of the tent, as shown in figure 1. Consequently, in a quadrangular tent construction the four respective corners of the roof of the tent are arranged in the supports 5 arranged correspondingly in a quadrilateral.
[0119] The supports 5 are connected to one another by means of L-shaped connecting elements. On the outer sides of a quadrangular carp construction example according to the invention segments of scissor structure 23 extend at least three in number. , as shown in Figure 1.Consequently, the supports 5 are connected to each other by means of segments of scissor structure 23.
[0120] The outer scissor structure segments 23 surrounding the outer sides of the structure 6 as well as the scissor grid segments 23 'oriented towards the interior of the tent are in turn connected by a plurality of connecting elements 34, 34'. ; 35, 35 'above and below (the reference numbers 28, 28', 29, 29 'given in the text are not shown in Figure 1), being shown by way of example in Figure 1. Consequently, in the arrangement of three scissor structure segments on one side are provided one below the other with at least two upper and lower connecting elements for connecting the outer scissor structure segments 23 as well as the scissor structure segments 23 'facing the inside of the tent.
[0121] In figure 1 one side of the structure according to the present invention according to section AA 'of figure 2 is observed, this has on each of its outer sides a corner support 5, figure 1. The corner supports 5 they are connected to each other by means of three segments of scissor structure 23. In this case, the connection of the left support 5 in front view with the segment of scissor structure 23 connected thereto is first made by means of a connecting element 36. , 36 'higher and lower. Then a second segment of scissor structure 23 is connected in said segment of scissor structure 23, the connection 35, 35 'of these two sections being made by means of an upper and lower connecting element and preferably configured in the form of T. Next, the third segment of scissor structure 23 is arranged, which in turn is connected to the second segment of scissor structure 23 by means of a connection element 34, 34 'preferably configured in the form of T. Then, the third The scissor structure segment 23 is in turn connected to the right corner support 5 in front view by means of an additional upper and lower connection element 33, 33 '.
[0122] Accordingly, each of the sides of the structure has four upper connecting elements and four lower connecting elements.
[0123] Since it is a scissor grid construction, a corresponding number of lower connecting elements is added because the connecting elements are arranged at the points where a scissor profile has the maximum spacing of its profile elements and is connected to the adjacent scissor profile, which in the contact with it also has the maximum distance. This maximum distance in the extended state of the scissor grid is hereinafter abbreviated to "d", see figure 1.
[0124] The connecting elements used in the context of the invention have in this case a T-shaped housing structure for connecting the external scissor structure segments 23 to each other. This is indicated in Figure 2 with the pairs of reference numbers 28, 28 '; 29, 29 '; 31, 31 '; 32, 32 '; 34, 34 '; 35, 35 '; 37, 37 '; 38, 38 ', where the profile elements of the scissor grid type extend substantially parallel to the corresponding side of the tent. The apostrophe reference numbers 28 ', 29', 31 ', 32', 34 ', 35', 37 ', 38' indicate the lower connection elements. The reference numbers 28, 29, 31, 32, 34, 35, 37, 38 indicate the upper connection elements. From these connection elements also known as three-way connectors, segments of scissor structure 23 'face the interior of the tent in the direction of the inner side of the former. Therefore, the connecting elements are not aligned in a two-dimensional path, which would be sufficient for a connection of the scissor structure segments to each other, but instead have a housing structure that starts at a right angle and that houses the profile elements of the scissor structure segments 23 ', which extend in the direction of the interior of the tent.
[0125] In positions 28, 28 ', 29, 29', 31, 31 ', 32, 32', 34, 34 ', 35, 35', 37, 37 'as well as 38, 38' are arranged, as has been stated , also the scissor structure segments 23 'oriented towards the interior of the tent starting from the connections 51-54, 51'-54' of the central diagonal bars 47-50. These connection elements 28, 28 ', 29, 29', 31, 31 ', 32, 32', 34, 34 ', 35, 35', 37, 37 'and 38, 38' therefore have a configuration in the form of T as a three-way connector. They are located where the respective scissor grid profile 23 reaches its highest position, Fig. 1. The configured scissor profile also reaches its lowest position in the respective position disposed below vertically.
[0126] The lower scissor grille elements 26, 27 of the outer scissors 23, which in FIG. 1 extend from the left, from bottom to top, are articulated in the upper connections 35 and 34, as shown in FIG. 7 for the pair of connectors 28, 28 '. The scissor grid elements 24, 25 extending from the top to the left downwards are articulated to the lower connections 35 'and 34', also configured in T-shape, analogously to the connections 35, 34 arranged above. From these T-shaped connections the scissor structure segments 23 'also start in the direction towards the connections 51-54 which also constitute a connection of these scissor structure segments 23' to the central diagonal bars 47-50, FIG. , figure 4, figure 5. The scissor grid profile 23 comprises profile elements 24, 26, 25, 27 (by way of example, in figure 1) that extend at an angle to each other, crossing and being articulated between yes and that in a folded state they contact each other forming substantially a right angle.
[0127] The connectors of the corner supports 5 to the scissor structure segments 23, namely, the connectors 30, 30 '; 33, 33 '; 36, 36 '; 39, 39 'have a so-called L shape, as shown in FIG. 2. These connectors serve for connecting the scissor structure segments 23 "over the corner". The reference numbers 30 ', 33', 36 ', 39' provided with an apostrophe also represent in this case the lower connection elements, while the reference numbers 30, 33, 36, 39 refer to the connection elements superiors
[0128] The inner upper connection elements 51, 52, 53, 54 and the inner lower connecting elements 51 ', 52', 53 ', 54' are configured as four-way connectors or cross-connectors, since they connect by a therein there are the profile elements of the scissor structure segments 23 'oriented towards the interior of the tent, where they run one above the other crosswise from the respective adjacent external sides. On the other hand, they house the four inner scissor structure segments 23 "that are aligned at right angles to each other, see Figure 2.
[0129] The four inner scissor structure segments 23 '' are of a square type, in the center of which the central post 7 is located. The central post 7 is itself connected to the four-way connectors described above by means of four bars diagonal 47, 48, 49, 50 central, figure 2, figure 4, thus offering a connection to the upper connectors 51, 52, 53, 54.
[0130] In the unfolded state, in which the roof of the tent rises to its highest height on the supports of the structure of the tent, the profile elements extend in the form of a scissor under the roof of the tent, as shown in figure 1 and figure 7. In this case, the segments of scissor structure 23 can not be seen due to panel 3 of the fabric 2 of the roof of the tent.
[0131] The structure 6 arranged inside the tent, and therefore the skeleton of the roof of the tent, has at least one central post 7, which indirectly has a support in the roof skeleton, figure 1 and figure 4.
[0132] The central post 7 is oriented towards the fabric 2 of the roof of the tent and holds it directly, so that the tip 22 of the roof fabric of the tent is as far as possible from the rest of the construction of the structure. In this way the typical structure of a tent in the shape of a pyramid or a pagoda is generated, figure 1.
[0133] With the central post 7 is connected - as shown in figure 9 - a device 8 which serves to connect the roof fabric of the tent 2 fixedly to this central post.
[0134] This device preferably has a closing mechanism on the upper front side of the roof tip of the tent to waterproof this area.
[0135] The device 8 comprises a first body 11, which serves to be connected to the central post, as well as a second body 12, which serves to be connected to the first body 11. This directly supports the roof fabric of the tent 2, which is inserted between the two bodies 11 and 12. For the connection between the two bodies the roof fabric of the tent 2 has an opening, which is surrounded by a rigid ring (not shown) delimiting the edge of this opening. Therefore, this ring is inserted between the aforementioned bodies 11 and 12 making possible a connection between them. However, in this sense other constructions are directly accessible to the expert in the field.
[0136] In particular, the first body 11 has a substantially mushroom-shaped design and comprises a vertically extending wall, preferably, with a tube-like configuration 13 surrounding a cavity 14. This first body 11 serves to be placed in the central post 7 and inserted in this cavity by means of the wall of the tube 13. The first body 11 can be withdrawn again from the central post.
[0137] After inserting the first body 11 in the central post 7, the ring of the roof fabric of the tent 2 pushes this body by means of the head. In particular, the ring is arranged on the flat part 16 of the head 15 which on the other hand has a curved configuration 17.
[0138] The first body 11 is connected to the second body 12, which likewise is designed substantially in the form of a mushroom. Also this second body 12 comprises a wall of a tube 19, which extends vertically, surrounding a cavity.
[0139] At the lateral end of the head of the tube 19 of the second body 12 is arranged a cylindrical hood which serves to be placed on the ring of the roof fabric of the tent 2, cooperating with a lid in a manner known per se, with the purpose of closing the cavity from inside the second body 12. This cap thus also serves indirectly to close the cavity of the central post 7, when the same, for example, is not being used, bringing rainwater, dust or others can not penetrate the cavity.
[0140] If necessary, in this cavity can be inserted, in particular, inserted, some other component, for example, a bar 9, which houses a rotating object or a banner, as indicated in Figure 1.
[0141] The essence of a folding tent is that the roof can be traversed from above through the construction described above with the additional component 9 housing the rotating object 10. In any case the configuration remains waterproof.
[0142] In the not extended state of the tent, the central post 7 is first connected only at its upper end -in the extended state- to the device 8 while its lower end - in the extended state of the tent - is left loose, figure 4 However, independently of this, the central post connects to the four-way connector and therefore to a part of the structure.
[0143] As can be seen in figures 2 and 3 with reference to the example of a 5 x 5 m tent having three scissor structure segments 23 of the surrounding roof skeleton 6 on each side, in such constructions a central point or point is required nodal of the tent that starts from the same segments of scissor structure, that is to say these segments of scissor structure are not the starting point of profiles that start from these in the direction of the interior of the tent and that they run in a central post arranged in the center of the tent and that houses the tip of the roof.
[0144] Therefore, according to this the invention provides the configuration of four central bars 47-50 arranged diagonally, figure 2. These diagonal bars are automatically positioned by the extension of the tent and thus also make possible the positioning of the central post 7. , as described in more detail below. As already explained above, these diagonal bars are articulated in four connectors 51 - 54, 51 '- 54' diagonally spaced from each other forming a quadrangular arrangement, figure 2.
[0145] As mentioned, each of these upper connectors 51-54 and these lower connectors 51 '- 54' are connected to the scissor structure segments 23 'facing the cell interior by means of the four-way connectors 51. , 51 ', 52, 52', 53, 53 ', 54, 54', which in turn are articulated to the outer scissor structure segments 23.
[0146] Consequently, the structural connection between the central post 7 and the external scissor structure segments 23 surrounding externally is effected by means of the central diagonal bars 47-51 and by means of the scissor structure segments 23 'oriented towards the interior of the carp. By means of this construction, in a tent with a quadrangular plan design, the aforementioned division into nine partial quadrangular plan designs is achieved in a quadrangular plan design of a tent, figure 2, figure 3.
[0147] The four central diagonal bars 47-50 are connected to the central post 7 by means of a central connector 42, figure 1, figure 4, figure 6. The four central diagonal bars are articulated to this central connector 42. This connector is provided at its center with a cavity in which the lower part of the central post 7 is inserted. The connector 42 has a guide or slide for the central post 7. With the extension of the tent, together with the central post 7 the central diagonal bars 47-50 move upwards, so that the tip of the roof of the tent is finally formed and the tent takes the form of a pyramidal or pagoda roof.
[0148] When extending the tent, the central post 7 still hangs downward in this device 8, see figure 4. To extend the tent additionally and in order to reach the pyramidal or pagoda shape of the roof structure of the roof, according to With the invention, an actuator bar 41 is provided which is inserted into the cavity 40 of the central post 7 from below by means of the aforementioned connector 42, FIG. 1, FIG. 4.
[0149] This general connection structure which results in this way from the central post 7 and the actuator bar 41, is then pressed up manually or mechanically, for example, by means of a cable, a crank, a rack mechanism, a gear or by means of a motor.
[0150] Then, by means of a corresponding opening 44 in the central post 7 or the operating rod 41, a pin 43 (not shown) inserted therein and subjected to the action of a spring, hereinafter referred to as a spring pin, is provided. an insertion crack in a corresponding recess of the connector guide 42 by providing a local coverage of this area. By means of the press button 45, this lock can be released again, FIG. 6. To facilitate the actuation, the actuator bar 41 has a handle 46, FIG. 4.
[0151] This combination makes possible a configuration with a much greater height of the tip of the roof.
[0152] As already explained above, the scissor structure segments 23 of the structure 6, surrounding on the outer side of the tent, are connected to each other by means of connectors, arranged in the profile elements of the segments of scissor structure. 23, above 28-39 and below 28 '- 39', so that the tent has a surrounding scissor gate arrangement on all sides, Figure 1, Figure 2.
[0153] It has also already been established that in the area of the upper and lower connectors 28, 28 '; 29, 29 '; 31, 31 '; 32, 32 '; 34, 34 '; 35, 35 '; 37, 37 'as well as 38, 38' the scissor grid profiles of the scissor structure segments 23 surrounding the structure 6 reach their maximum spacing at distance "d", when and to the extent that they are in the extended state, figure 1.
[0154] This area of maximum spacing serves to provide the stabilization devices 68-75, figure 3. These stabilization devices serve to improve the stability of the tent when the scissor bars are connected to each other by means of these stabilization devices at their maximum distance "d".
[0155] For this purpose, the scissor profile elements extending above and extending below the scissor frame segments 23 are connected to each other in the area of their maximum distance "d". For this purpose, two connection tubes are provided, namely an upper connection tube 76 as well as a lower connection tube 77, see generally figure 1, figure 7.
[0156] Therefore, each of these stabilization devices 68-75 in the case of the example of a tent of 5 x 5 m are arranged between the connectors 30, 30 ', 33, 33', 36, 36 ', 39, 39' configured as corner connectors and enclosed between the upper connectors 28, 29, 31, 32, 34, 35, 37 and 38 and the lower connectors 28 ', 29', 31 ', 32', 34 ', 35', 37 ' as well as 38 'and each have upper connecting tubes 76 and lower connecting tubes 77, as described further below, Figure 2, Figure 3.
[0157] In addition, the stabilization devices 68-75 are connected to the central post 7 or to the drive rod 41 for the central post 7 by means of the scissor grid profile sections 23 'and the central diagonal bars 47-50
[0158] This causes a force application structured to a certain extent starting from the central post 7 or from the drive rod inside the tent towards the outside of the tent.
[0159] Therefore, the two connecting tubes 76 and 77 cooperate with the upper connectors and the lower connectors mentioned above, which not only represent connectors for the surrounding outer scissor structure segments 23 on the outer sides of the tent but are connectors ( indirectly) for the central post 7 or the drive rod 41, figure 2, figure 3, figure 7.
[0160] The (corresponding) lower connecting tube 77 is displaceable in a lower connector 28 ', 29', 31 ', 32', 34 ', 35', 37 ', 38'. The lower connector is designed in the form of a tube, thereby forming a guide or slider for the lower connecting tube 77. By means of the tube-shaped cavity of the lower connector, it is preferably designed as a cavity in the form of a cylinder, the connecting tube 77 being movably guided, FIG. 7, FIG. 8.
[0161] By means of a handle 82 disposed at the lower end of the lower connecting tube 77 it is pressed upwards through the connector cavity 28 ', 29', 31 ', 32', 34 ', 35', 37 ', 38 and connected to the upper connecting tube 76 by means of a connection part 78, in which a spring bolt 79 is supported as a protrusion, and preferably by means of an opening 80 provided therein, in which the bolt spring 79 provides an insertion click when it reaches opening 80 due to the thrust of lower connecting tube 77.
[0162] In connection pipes 76, 77, to release this connection entering through the cavity, a pressing button 81 can be provided with which the spring pin 79 can be pressed back to the lower connection tube as much as for that, for example, it can be extracted from the outer connecting tube 76 having a larger diameter or being pressed to release the connection of the spring pin 79 with the thumb through the opening 80.
[0163] Once the tent is raised in its basic form, which is the case when the driving rod 41 of the central post 7 has brought it to its final position, the stabilization devices 68-75 are operated, as described above, therefore tubes 76, 77 are connected together.
[0164] List of reference numbers
[0165]
[0166] 1. Carp, pagoda tent
[0167] 2. Carp roof fabric
[0168] 3. Roof cover of the tent
[0169] 4. Arrangement of supports
[0170] 5. Supports, corner supports
[0171] 6. Structure, skeleton of the roof of the tent
[0172] 7. Central post
[0173] 8. Fixing device of the roof fabric of the tent on central posts 9. Bar
[0174] 10. Rotating object, banner
[0175] 11. First body
[0176] 12. Second body
[0177] 13. First body tube
[0178] 14 Tube cavity 13
[0179] 15. First body head
[0180] 16. Head 15 flat
[0181] 17. Head 15 curved
[0182] 18. Tube opening 13
[0183] 19. Second body tube
[0184] 20. Second body head
[0185] 21. Press button for housing in 18
[0186] 22. Roof tip
[0187] 23. Scissor structure segment exterior
[0188] 2. 3'. Segments of scissor structure oriented towards the inside of tent 23 ''. Interior scissor structure segments
[0189] 24. Upper outer scissors
[0190] 25. Upper outer scissors
[0191] 26. Lower outer scissors
[0192] 27. Lower outer scissors
[0193] 28. Upper outer scissor connector
[0194] 28 '. Lower outer scissor connector
[0195] 29. Upper outer scissor connector
[0196] 29 '. Lower outer scissor connector
[0197] 30. Upper outer scissor connector
[0198] 30 '. Lower outer scissor connector
[0199] 31. Upper outer scissor connector
[0200] 31 '. Lower outer scissor connector
[0201] 32. Upper outer scissor connector
[0202] 32 '. Lower outer scissor connector
[0203] 33. Upper outer scissor connector
[0204] 33 '. Lower outer scissor connector
[0205] 34. Upper outer scissor connector
[0206] 3. 4'. Lower outer scissor connector
[0207] 35. Upper outer scissor connector
[0208] 35 '. Lower outer scissor connector
[0209] 36 Upper outer scissor connector
[0210] 36 '. Lower outer scissor connector
[0211] 37. Upper external scissor connector
[0212] 37 '. Lower outer scissor connector
[0213] 38. Upper external scissor connector
[0214] 38 '. Lower outer scissor connector
[0215] 39. Upper external scissor connector
[0216] 39 '. Lower outer scissor connector
[0217] 40. Central post cavity 7
[0218] 41. Drive bar for 7
[0219] 42. Connector for 7, 41
[0220] 43. Spring bolt for 42
[0221] 44. Opening for spring pin 43 in central post 7
[0222] 45. Pressed button
[0223] 46. Handle for 41
[0224] 47. Central diagonal bar
[0225] . Central diagonal bar
[0226] . Central diagonal bar
[0227] . Central diagonal bar
[0228] . Central diagonal bar connector
[0229] ' Lower diagonal bar connector. Central diagonal bar connector
[0230] ' Lower diagonal bar connector. Central diagonal bar connector
[0231] ' Lower diagonal bar connector. Central diagonal bar connector
[0232] ' Lower diagonal bar connector. Its free
[0233] . Its free
[0234] . Its free
[0235] . Its free
[0236] . Its free
[0237] . Its free
[0238] . Its free
[0239] . Its free
[0240] . Its free
[0241] . Its free
[0242] . Its free
[0243] . Its free
[0244] . Its free
[0245] . Stabilization device
[0246] . Stabilization device
[0247] . Stabilization device
[0248] . Stabilization device
[0249] . Stabilization device
[0250] . Stabilization device
[0251] . Stabilization device
[0252] . Stabilization device
[0253] . Upper connection tube for 68 - 75. Lower connection tube for 68 - 75. Connection area for 76, 77
[0254] . Spring bolts for 78
[0255] . Opening at 76 for 80
[0256] . Pressed button for 80 in 76
[0257] . Handle for 77

权利要求:
Claims (12)
[1]
1. Structure of a tent (1) with
a roof that has a pyramid shape,
a support arrangement (4) with at least four supports (5),
at least three outer scissor structure segments (23) on each outer side of the structure (6), a device for fixing the roof (8) to the central post (7),
central diagonal bars (47 - 50) that start from the central post (7),
characterized by that
the central diagonal bars (47-50) are connected to the outer scissor structure segments (23) by means of scissor structure segments (23 ') oriented towards the inside of the tent, and because,
to form the tip of the roof, the central post (7) is extended by means of a drive rod (41), and because
the driving bar (41) or the central post (7) is connectable to the central diagonal bars (47-50).
[2]
Structure according to claim 1, characterized in that the fixing of the diagonal bars (47-50) central to the central post (7) or to the actuating bar (41) is effected by means of a connector (42), the connector (42) having a guide or slider through which the central post (7) or the actuator bar (41) is guided.
[3]
Structure according to claim 1 or 2, characterized in that the tent (1) is a folding tent.
[4]
Structure according to one or more of the preceding claims, characterized in that the carp (1) is a pagoda tent.
[5]
Structure according to one or more of the preceding claims, characterized in that the central diagonal bars (47-50) are connected to the scissor structure segments (23 ') oriented towards the interior of the tent by means of connectors (51). - 54, 51 '- 54') which in turn are connected to the outer scissor structure segments (23) surrounding the outer sides of the structure (6).
[6]
Structure according to one or more of the preceding claims, characterized in that the ends oriented towards the inside of the tent, the segments of scissor structure (23 ') oriented towards the interior of the tent are connected to each other by means of interior scissor structure segments (23 '').
[7]
Structure according to one or more of the preceding claims, characterized in that the scissor structure segments (23) have upper scissor profiles (24, 25) and lower scissor profiles (26, 27) and that the elements of scissors (24, 25) upper and lower scissor elements (26, 27) are in the area where a distance "d" is spaced from each other by means of at least one stabilization device (68-75).
[8]
Structure according to claim 7, characterized in that the at least one stabilization device (68-75) has an upper connecting tube (76) and a lower connecting tube (77) which are connectable with each other.
[9]
Structure according to claim 8, characterized in that the connection of the upper connecting tube (76) and the lower connecting tube (77) is a plug-in connection.
[10]
Structure according to claim 9, characterized in that the plug-in connection has a pin subjected to the action of a spring (79) and a device (81) to release this pin (79).
[11]
11. Tent with a structure, characterized in that the structure (6) is configured according to one or more of claims 1 to 10.
[12]
12. Carp with a structure (6) and a stabilization device (68-75), characterized in that the structure (6) is configured according to one or more of claims 1 to 7 as well as the stabilization device according to one or more of the preceding claims 8 to 10.

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ES2700660R1|2019-03-20|

US10995515B2|2021-05-04|

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法律状态:
2019-02-06| PC2A| Transfer of patent|Owner name: ZINGERLE AG Effective date: 20190206 |

2019-02-18| BA2A| Patent application published|Ref document number: 2700660 Country of ref document: ES Kind code of ref document: A2 Effective date: 20190218 |

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优先权:

申请号 | 申请日 | 专利标题

DE102017116674.2A|DE102017116674A1|2017-07-24|2017-07-24|Structure and stabilizer device for tent|

DE202017104407.6U|DE202017104407U1|2017-07-24|2017-07-24|Structure and stabilizer device for tent|

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