A form assemblage

专利摘要:
Formwork arrangement (1, 2, 3, 4) for laterally delimiting a surface (6) to be surface-mounted on a formwork surface, in particular a pallet (5) or a formwork table, with at least one main body (7, 8) detachably fastened to the formwork surface and at least an attachment element (9, 10, 11, 12, 13, 14, 15), wherein at least one fastening device (16, 17) is provided, with which the at least one attachment element (9, 10, 11, 12, 13, 14, 15 ), and in particular automatically, on at least one base body (7, 8) can be fastened, wherein at least one of the at least one fastening device (16, 17) separate centering device (18, 19) is provided, with which the at least one attachment element (9 , 10, 11, 12, 13, 14, 15) when fastening the at least one attachment element (9, 10, 11, 12, 13, 14, 15) to the at least one base body (7, 8) relative to the at least one base body ( 7, 8) is automatically aligned, and the least s a base body (7, 8) and the at least one attachment element (9, 10, 11, 12, 13, 14, 15) in the attached state together on the scarf surface can be arranged and removed from the scarf surface.
公开号:AT520739A4
申请号:T50184/2018
申请日:2018-03-06
公开日:2019-07-15
发明作者:
申请人:Progress Holding Ag；
IPC主号:

专利说明:

The invention relates to a formwork arrangement for the lateral limitation of a surface to be concreted on a formwork surface, in particular a pallet or a formwork table, with at least one base body which can be detachably fastened to the formwork surface and at least one attachment element, at least one fastening device being provided with which the at least one attachment element detachable, and in particular automatically, can be attached to at least one base body. The invention further relates to a storage device for such a formwork arrangement, an arrangement comprising at least one such formwork arrangement and at least one formwork robot, and a method for forming a formwork on a formwork surface, in particular a pallet or a formwork table, by means of such a formwork arrangement.
Formwork arrangements are used in concrete plants, in which precast concrete parts are manufactured, in pallet circulation systems for positioning the liquid, and later hardened, concrete. Formwork arrangements are also used in stationary systems in which e.g. Tilt tables are used.
1 shows a pallet 5 with formwork elements 60 arranged thereon, which laterally delimit surfaces 6 to be concreted on the pallet 5. The filling quantity of concrete results from the height of the precast concrete to be manufactured and the area minus other installed elements such as cans or iron bars. The thickness of the precast concrete element is limited by the formwork height. High formwork is used for full concrete elements. The geometry of the side surfaces of these solid concrete elements varies very widely. The formwork elements must be designed accordingly differently. In this context, it should be noted that the present invention is not limited to formwork arrangements for the production of solid concrete elements.
In addition to the diversity of the precast concrete parts to be manufactured, there are short ordering and delivery times, which overall require a high level of flexibility in production.
Formwork arrangements are known from the prior art, which formwork parts comprise for each element thickness and contour. The disadvantage of this system / 34 is that a very large amount of formwork parts is required. In addition, such a system is very expensive because each formwork element must be equipped with a device for releasably fastening the formwork element to the pallet. All formwork parts must also be dimensionally stable and very precisely manufactured.
There are also solutions in which steel profiles with the desired height and length of the formwork part are manually screwed onto a formwork that is already placed on the pallet. The disadvantage of these solutions is that access to the formwork already positioned on the pallet is difficult, since the pallets are up to 4m wide and access to the pallet must be avoided due to the necessary cleanliness of the pallet surface.
Furthermore, formwork systems are known from the prior art, in which an attachment profile is automatically applied to a formwork. A disadvantage of these systems is that the structural parts for the formwork must be dimensionally stable and make access to the device for releasably fastening the formwork to the pallet more difficult. Further disadvantages are that in the case of construction systems, there is always an impression of the construction parts on the concrete surface, and that in order to produce a concrete part with a modified contour, both the basic formwork and the construction parts must be replaced.
Finally, formwork systems are known from the prior art, in which special steel adapters are attached to a formwork already placed on the pallet. Then wooden plates are manually screwed onto the adapter. A disadvantage of these systems is that access to the formwork already positioned on the pallet is difficult because the pallets are up to 4m wide and access to the pallet must be avoided due to the necessary cleanliness of the pallet surface. In addition, the wooden panels must be prepared in a joinery and brought to the place for manual attachment on the adapter.
The object of the present invention is to provide a formwork arrangement which is improved compared to the prior art, in which the disadvantages mentioned are at least partially avoided and which is characterized in particular in that it can be assembled fully automatically and flexibly adapted to the prefabricated concrete part to be produced. Furthermore, a storage device for such an improved formwork arrangement, an arrangement comprising at least one such improved formwork arrangement and at least one formwork robot, and a method for forming formwork on a formwork surface, in particular a pallet or a formwork table, are to be specified by means of such an improved formwork arrangement.
This object is solved by the features of independent claims 1, 9, 13 and 15.
In the formwork arrangement it is therefore provided according to the invention that at least one centering device is provided with which the at least one attachment element can be automatically aligned relative to the at least one base body when the at least one attachment element is fastened with the at least one base body.
Due to the division into at least one base body, which can be detachably attached to the formwork surface, and at least one attachment element, which can be detachably attached to the at least one base body, the formwork arrangement is very flexible on the one hand, since the same universal base body can always be used. Depending on the prefabricated concrete part to be produced, this is combined with the corresponding facing element or elements.
Because at least one centering device is provided at the same time, by means of which the at least one attachment element can be aligned relative to the at least one attachment body when the at least one attachment element is attached to the at least one attachment element, it is possible to simplify the at least one attachment element and the at least one attachment element How to put it together, as this automatically leads to a mutual alignment. This measure represents an essential prerequisite for fully automatic assembly, although the present invention is not limited to fully automatic applications. Even when the at least one base body is joined manually with the at least one attachment element, an automatic mutual / 34 proves itself
Alignment to each other as extremely helpful, as operator errors, which too
Can lead to inaccuracies.
The at least one base body is technically more complex than some solutions according to the prior art, since the at least one centering device and any components of the at least one fastening device must also be provided. However, due to the wide range of possible applications, there is a much higher level of use and applicability. In addition, the facing formwork is easy and inexpensive to manufacture at the same time.
According to an advantageous embodiment of the invention, it is provided that the at least one centering device comprises at least one centering pin, preferably arranged on the at least one attachment element, and at least one recess, preferably arranged on the at least one base body, for receiving the at least one centering pin. This creates a technically simple to implement and at the same time particularly reliable centering device.
Furthermore, it can be provided that the at least one facing element has a side facing the surface to be concreted and an opposite side facing the at least one base body, preferably the side facing the surface to be concreted has at least one contour part deviating from a plane to form a predetermined contour on one Has side surface of a precast concrete to be produced.
In addition, it can be provided that the at least one attachment element on the side facing the at least one base body has at least one concrete shielding device in order to prevent concrete from penetrating into a space in a state in which the at least one attachment element is detachably attached to the at least one base body to prevent between the at least one attachment element and the at least one base body.
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A further measure to prevent concrete from penetrating into the intermediate space between the at least one facing element and the at least one base body is that the at least one base body in one state in which the at least one base body is attached to the formwork surface Underside facing the shuttering surface and in a state in which the at least one attachment element is detachably fastened to the at least one base body, has a side face facing the at least one attachment element, the at least one base body in the area in which the underside meets the side surface, at least has a recess, so that the at least one base body in the state in which the at least one base body is fastened to the formwork surface is at a distance from the formwork surface in this area. Without the provision of this recess, there is a risk that concrete is “sucked” by capillary forces into the space between the at least one facing element and the at least one base body.
With regard to the mounting of the at least one attachment element, it has proven particularly favorable that the at least one attachment element is essentially plate-shaped. As a result, the space requirement of the at least one attachment element in a storage device is significantly less than that of the formwork parts known from the prior art, which are completely manufactured for each contour. The term “essentially plate-shaped” means that the at least one attachment element, apart from any contour parts, components of the at least one centering device and / or optionally provided concrete shielding devices, is plate-shaped. The plate shape is also advantageous with regard to the cleaning of the at least one attachment element.
Furthermore, it has proven to be advantageous that the at least one fastening device comprises at least one permanent magnet, preferably arranged on the at least one base body, and at least one magnetizable region arranged on the at least one attachment element. This not only provides a reliable solution for releasably attaching the at least one attachment element to the at least one base body.
The force of the at least one permanent magnet does not act only when it is fastened, but also when it is being assembled, so that the / 34 at least one base body and the at least one attachment element are not only automatically aligned relative to one another by the at least one centering device provided according to the invention, but rather can also be automatically moved towards one another and releasably attached.
Further advantageous developments of the formwork arrangement consist in that the at least one base body has at least one formwork surface fastening device for releasably fastening the base body to the formwork surface, and / or at least one attack means for a formwork robot. These measures are particularly advantageous in combination with the use of at least one attachment element - instead of attachment profiles as in some systems according to the prior art - since the accessibility of the at least one shutter surface fastening device and the manageability of the at least one base body due to the presence of the at least one attachment element in is not affected in any way. It is thus possible to move the at least one base body by means of a formwork robot and / or to detachably attach it to the form surface if at least one attachment element is already detachably attached to the at least one base body.
As stated at the beginning, protection is also sought for a bearing device for a formwork arrangement according to the invention, wherein the bearing device has at least one release device for releasing the fastening between the at least one base body and the at least one attachment element, preferably wherein the at least one release device comprises two spreading elements which can be displaced relative to one another , In this way it is possible to convert the formwork arrangement according to the invention very efficiently and to temporarily store the components of the formwork arrangement that are not required for use at a later time.
An advantageous development of the bearing device is that the
Storage device comprises at least one gripping device for transporting the at least one base body and / or the at least one attachment element.
It can be provided that the at least one gripping device is designed as a magnetic gripper and / or at least one in the position of use in / 34
Has essentially horizontal axis pivotable head, and / or is designed to be adjustable in three mutually perpendicular spatial directions, preferably wherein linear guides are provided to realize the adjustability.
Further advantageous embodiments of the storage device consist in the fact that the storage device has at least one transport device for transporting the at least one base body and / or the at least one attachment element from and to at least one formwork robot and / or an operator, preferably wherein the at least one transport device comprises a roller conveyor, and / or comprises at least one deposit for the at least one base body and / or the at least one attachment element, preferably with the at least one deposit being designed to be movable, particularly preferably with the at least one deposit being designed as a movable drawer.
Protection is also sought for an arrangement comprising at least one formwork arrangement according to the invention and at least one formwork robot with which the at least one base body together with the at least one attachment element can be automatically arranged at a predetermined position on the formwork surface, preferably by CAD data, and the at least one base body is automatically detachably attachable to the formwork surface, preferably with the arrangement comprising at least one bearing device according to the invention.
According to a preferred embodiment, the fastening of the at least one base body to the formwork surface can be automatically released by means of the at least one formwork robot and the at least one base body can be automatically removed from the formwork surface together with the at least one attachment element.
Finally, protection is sought for a method for forming a formwork on a formwork surface, in particular a pallet or a formwork table, by means of a formwork arrangement according to the invention, the method comprising the following steps:
i. at least one base body and at least one attachment element are provided, / 34 ii. the at least one attachment element is automatically aligned relative to the at least one base body by means of the at least one centering device, iii. the at least one attachment element is detachably, and preferably automatically, attached to the at least one base body by means of the at least one fastening device, iv. the at least one base body is arranged together with the at least one facing element, preferably automatically by means of at least one formwork robot, at a predetermined position on the formwork surface, preferably using CAD data,
v. the at least one base body is detachably attached to the formwork surface, preferably automatically by means of at least one formwork robot.
Advantageously, steps i. to v. as long as repeated with further base bodies and facing elements until a predetermined area to be concreted is completely limited laterally, preferably with the area subsequently being concreted.
To dismantle the formwork, it can be provided that vi. the fastening of the at least one base body to the formwork surface, preferably automatically, by means of at least one formwork robot, and vii. the at least one base body is removed together with the at least one facing element from the formwork surface, preferably automatically by means of at least one formwork robot, viii. preferably wherein the at least one base body and the at least one attachment element are subsequently detached from one another, cleaned and / or positioned in at least one deposit.
The at least one base body and the at least one attachment element are stored or cleaned separately or in the assembled state.
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Further details and advantages of the invention will become apparent from the
Description of the figures is explained in more detail below with reference to the drawings. In it show:
Fig. 1 in a perspective view of a pallet arranged thereon
Formwork elements according to the state of the art,
2 shows a first preferred embodiment of a non-assembled formwork arrangement in a schematic representation from the side,
Fig. 3 shows a second preferred embodiment of a composite
Formwork arrangement in a schematic cross-sectional representation,
Fig. 4 shows a third preferred embodiment of a composite
Formwork arrangement in a schematic representation from the side,
5 shows a schematically illustrated first preferred exemplary embodiment of a bearing device in a perspective view,
6 shows a transport device with a formwork arrangement according to the second preferred exemplary embodiment and a release device in a schematic cross-sectional illustration,
7 shows a schematically illustrated second preferred exemplary embodiment of a bearing device in a perspective view,
8 shows a part of a formwork robot with a formwork arrangement according to the third preferred embodiment in a schematic representation from the side,
9 shows a schematically illustrated fourth preferred exemplary embodiment of a composite formwork arrangement in a perspective view, and
10 is a flowchart illustrating a preferred one
Embodiment of the method according to the invention.
FIG. 1 has already been described in the introduction to the description.
FIG. 2 shows a first preferred exemplary embodiment of a non-assembled formwork arrangement 1 for the lateral limitation of an area to be concreted on a pallet, with a / 34 that can be releasably attached to the pallet
Base body 7 and an attachment element 9, 10 and / or 11, wherein at least one fastening device 16, 17 is provided, with which the attachment element 9, 10 and / or 11 can be detachably attached to the base body 7. Several attachment elements 9, 10, 11 can also be fastened next to one another on the base body 7 in the longitudinal direction of the base body 7.
In the case shown, the at least one fastening device 16, 17 comprises a permanent magnet 16 arranged on the base body 7 and a magnetizable region 17 arranged on the attachment element 9, 10, 11. The magnetizable region 17 can extend over the entire thickness 69 or part of the thickness 69 Extension elements 9, 10, 11 extend. The permanent magnet can, for example, be arranged on a front plate 62 of the base body 7 or be integrated in this front plate 62.
The formwork arrangement further comprises a centering device 18, 19 with which the attachment elements 9, 10, 11 can be aligned with the base body 7, 8 relative to the base body 7, 8 when the attachment elements 9, 10, 11 are fastened.
In the case shown, the centering device 18, 19 comprises an am
Attachment element 9, 10, 11 arranged centering pin 18 and a recess 19 arranged on the base body 7 for receiving the centering pin 18 (see also FIG. 3). The centering pin 18 has inclined surfaces 68, which facilitate insertion into the recess 19.
The attachment elements 9, 10, 11 shown as examples have a side 20 facing the surface to be concreted and an opposite side 21 facing the base body 7.
In the facing elements 10 and 11, the side 20 facing the surface to be concreted has contour parts 23, 24 deviating from a plane 22 to form a predetermined contour on a side surface of a prefabricated concrete part. In the case of the attachment element 10, the contour part is essentially trapezoidal in cross section. In the case of the front element 11, two contour parts 24 are arranged at the end on the front element 11, the contour parts 24 in / 34
Cross-section are essentially triangular. Im to be manufactured
A corresponding counter contour will be created for the precast concrete part.
The attachment elements 9, 10, 11 are essentially plate-shaped.
The base body 7 also has a pallet fastening device 31 for releasably fastening the base body 7 to the pallet. 1 shows an attack means of the pallet fastening device 31, via which a magnet means can be actuated, the magnet means for attaching the base body 7 can be brought into contact with the pallet, and for releasing the attachment via the attack means 31 again Pallet can be lifted off. The
Pallet fastening device 31 prevents the base body 7 and the attachment element or attachment elements or attachment elements 9, 10, 11 from slipping when concreting.
And finally, in a state in which the base body 7 is fastened to the pallet, the base body 7 has an underside 27 facing the pallet and in a state in which the attachment element 9, 10, 11 is detachably fastened to the base body 7, one Attachment element 9, 10, 11 facing side surface 28.
Figure 3 shows a second preferred embodiment of a composite formwork arrangement 2 in a schematic
Cross-sectional view. The pallet 5 is indicated by dashed lines in this figure and in FIG.
It can be seen that the base body 7 has a recess 29 in the area in which the underside 27 meets the side surface 28, so that the base body 7 in the state in which the base body 7 is fastened to the pallet 5 Area has a distance 30 to the pallet 5. This recess 29 serves to ensure that the base body 7 does not come into contact with the pallet 5 in the region of the attachment element 9. This prevents concrete or concrete slurry from penetrating into the intermediate space 26 between the base body 7 and the attachment element 9 from below by means of capillary action.
/ 34
Specifically, the recess 29 can be achieved via a front plate 62 shortened downwards.
In the state arranged on the pallet 5, the formwork arrangement 2 is thus supported on the pallet 5, on the one hand, by the attachment element 9 and, on the other hand, by a support element 61 spaced therefrom.
FIG. 4 shows a third preferred exemplary embodiment of a composite formwork arrangement 3. In this exemplary embodiment, the facing element 12 has a further measure to prevent concrete from penetrating into the intermediate space 26 between the basic body 8 and the facing element 12 —on the side facing the basic body 8 Page 21 a concrete shielding device 25.
In the illustrated case, the concrete shielding device 25 is designed as an angled plate.
The base body 8 used in this exemplary embodiment has, in addition to the pallet fastening device 31 for the releasable attachment of the base body 8 to the pallet 5, also an attack means 32 for a formwork robot 33 (see also FIG. 8).
FIG. 5 shows a first preferred exemplary embodiment of a bearing device 34 for a formwork arrangement, which comprises, for example, base body 7 and attachment elements 9, 10.
The storage device 34 comprises a transport device 52 for transporting the base body 7 and / or the attachment elements 9, 10 from and to at least one formwork robot, the transport device 52 in the case shown being a roller conveyor with rollers 65 which are rotatably mounted about axes of rotation 66 (cf. also Figure 6).
Furthermore, the bearing device 34 comprises a plurality of bearings 56 for the base body 7 and the attachment elements 9, 10, the bearings 56 being designed as movable drawers in the case shown. Pull-out guides 64 are provided for guiding the drawers relative to a fixed housing 70.
/ 34
The drawers are essentially plate-shaped, at least some of the plates having openings 63 in which the centering pins 18 of the attachment elements 9, 10 can be positioned. This ensures that the attachment elements 9, 10 are held in a stable position on the drawers.
The bearing device 34 further comprises a gripping device 39 for transporting the base body 7 and the attachment elements 9, 10. The gripping device 39 is designed as a magnetic gripper, has a head 42 which can be pivoted about an axis 41 which is essentially horizontal in the position of use and is in three mutually perpendicular positions Spatial directions 43, 44, 45 are adjustable, which is indicated by double arrows. Linear guides 46, 47, 48 are provided for realizing this adjustability.
And finally, the bearing device 34 comprises a plurality of release devices 36 for releasing the fastening between the base bodies 7 and the attachment elements 9, 10.
In concrete terms, this storage device 34 can be used as follows: An assembled formwork, which was previously removed from the pallet by a demoulding robot, is transported on the rollers 65 of the roller conveyor of the transport device 52 in the vicinity of the deposits 56. The release devices 36 are arranged at the end of the roller conveyor. With these, the attachment between the attachment element 9, 10 and the base body 7 is released. The functioning of the release devices 36 is described in detail with reference to FIG. 6. The released attachment element 9, 10 is removed via the gripping device 39. The head 42 of the gripping device 39 moves upwards, i.e. in the direction 45 and a drawer 56 opens. The head 42 pivots about the horizontal axis 41 and transfers the attachment element 9, 10 to the opened drawer 56. The drawer 56 retracts. Now the base body 7 is removed and stowed in the same way. In order to be able to operate all the positions of the drawers 56, the head 42 is mounted longitudinally and transversely, i.e. in the spatial directions 43 and 44.
/ 34
To assemble a new formwork, a base body 7 is first placed on the roller conveyor and then the desired attachment element 9, 10 is removed from the drawer by means of the gripping device 39 and attached to the base body 7.
Alternatively, the base body 7 can also remain on the roller conveyor and only the attachment element 9, 10 can be replaced if the base body 7 of the old formwork can be used for the new formwork.
As can be seen from the exemplary embodiment shown in FIG. 6, the release devices 36 comprise two spreading elements 37, 38 which can be displaced relative to one another. The release devices 36 are integrated in the roller conveyor. The expansion elements 37, 38 can be moved into the base body 7 from below. By moving the expansion elements 37, 38, in which the distance 71 of the expansion elements 37, 38 increases, the attachment element 9 is pressed away from the base body 7 via the centering bolts 18 and the fastening between the attachment element 9 and the base body 7 is released in this way. The gripping device 39 can remove the attachment element 9.
When assembling, the base body 7 is first placed on the roller conveyor. The spreading elements 37, 38 extend. The attachment element 9 is removed from the drawer shelf by means of the gripping device 39. The at least one centering device guarantees correct placement and centers the attachment element 9 on the base body 7. The expansion elements 37, 38 now move together, the distance 71 of the expansion elements 37, 38 decreasing. The gripping device 39 simultaneously moves the attachment element 9 in the direction of the base body 7. The interaction of the movement of the expansion elements 37, 38 and the gripping device 39, which holds the attachment element 9, is synchronous. This prevents the attachment element 9 from jumping onto the base body 7 under the influence of the magnetic force.
FIG. 7 shows a second preferred exemplary embodiment of a storage device 35. The storage device 35 comprises a first transport device 54 with which composite formwork arrangements can be transported to and from a formwork robot. As an example, formwork arrangements / 34 are shown in this figure. The storage device 35 further comprises a deposit 58 for the formwork arrangements. With a gripping device 40, which is adjustable in three mutually perpendicular spatial directions 43, 44, 45 (for this purpose linear guides 49, 50, 51 are provided), the formwork arrangements can be stored in the deposit 58 and removed from the deposit 58.
The formwork arrangements 3 can be transported to an assembly station 67 via a second transport device 53. Here, an operator can fit different base bodies with attachment elements. Front elements 12 are shown as examples. A bearing 57 which can be moved via rails is provided for mounting the front elements 12.
The bearing device 35 thus serves for the manual assembly of base bodies and attachment elements, e.g. of base bodies 8 and attachment elements 12. For this purpose, the gripping device 40 places an already assembled formwork arrangement 3 on the roller conveyor of the transport device 53. The formwork arrangement 3 is transported to the position of the assembly station 67 by means of the driven rollers 65 of the roller conveyor. There, the attachment element is manually released from the base body with the help of one or more release devices 36. The operator 55 places the attachment element in the movable magazine 57 of the attachment elements. The operator 55 then takes the new attachment element, which is required for the next production unit, from the bearing 57 and assembles it with the base body 8 using the expansion elements 37, 38 of the release device (s) 36. The assembled formwork arrangement 3 is then fed back into the automatic area by the operator 55 via the roller conveyor.
The process of preparing the formwork is therefore completely separate from the automatic process of laying the formwork. One advantage of this system is that the formwork parts can be completely prepared for automatic positioning on the pallet. Special front end parts can also be attached. This means that no rework is necessary for the switched pallet.
FIG. 9 shows a fourth preferred exemplary embodiment of a composite formwork arrangement 4 on a pallet 5. The surface 6 to be concreted on the pallet / 34 is, in the illustrated case, laterally by a total of six attachment elements 13, 14, 15, which are detachably fastened to four base bodies 8 limited. In this case, two cross dividers, which are each constructed from two attachment elements 13, 14 and a base body 8, and a longitudinal divider, which is composed of two units arranged next to one another, each composed of an attachment element 15 and a base body 8, are provided.
FIG. 10 shows a flow diagram to illustrate a preferred one
Embodiment of the method 59 according to the invention. In a first step i. at least one base body 7, 8 and at least one attachment element 9, 10, 11,
12, 13, 14, 15 provided. In a second step ii. the at least one attachment element 9, 10, 11, 12, 13, 14, 15 is automatically aligned relative to the at least one base body 7, 8 by means of the at least one centering device 18, 19. In a third step iii. the at least one attachment element 9, 10, 11, 12, 13, 14, 15 is detachably and automatically fastened to the at least one base body 7, 8 by means of the at least one fastening device 16, 17. In a fourth step iv. the at least one base body 7, 8 together with the at least one attachment element 9, 10, 11, 12,
13, 14, 15 automatically arranged on a pallet 5 by means of a formwork robot at a position predetermined by CAD data. In a fifth step v. the at least one base body 7, 8 is automatically detachably fastened to the pallet 5 by means of the formwork robot.
Depending on the formwork arrangement to be produced, steps i. to v. as long as repeated with further base bodies 7, 8 and attachment elements 9, 10, 11, 12, 13, 14, 15 until a predetermined surface 6 to be concreted is completely limited laterally. This process is indicated by the dashed arrow.
The surface 6 is then concreted in order to produce a predetermined precast concrete part.
To dismantle the formwork, vi. the fastening of the at least one base body 7, 8 to the pallet 5 is automatically released by means of the formwork robot and in a seventh step vii. the at least / 34 a base body 7, 8 together with the at least one attachment element 9, 10, 11, 12, 13, 14, 15 are automatically removed from the pallet 5 by means of the formwork robot. Subsequently, the at least one base body 7, 8 and the at least one attachment element 9, 10, 11, 12, 13, 14, 15 can be carried out in an optional eighth step viii. detached from one another, cleaned and / or positioned in at least one deposit 56, 57, 58.

权利要求:
Claims (17)
[1]
claims:
1. Formwork arrangement (1, 2, 3, 4) for laterally delimiting a surface (6) to be concreted on a formwork surface, in particular a pallet (5) or a formwork table, with at least one base body (7, 8) which can be detachably fastened to the formwork surface and at least one attachment element (9, 10, 11, 12, 13, 14, 15), at least one fastening device (16, 17) being provided with which the at least one attachment element (9, 10, 11, 12, 13, 14 , 15) can be detachably, and in particular automatically, fastened to the at least one base body (7, 8), characterized in that at least one centering device (18, 19) is provided with which the at least one attachment element (9, 10, 11, 12 , 13, 14, 15) when fastening the at least one attachment element (9, 10, 11, 12, 13, 14, 15) with the at least one base body (7, 8) can be automatically aligned relative to the at least one base body (7, 8) is.
[2]
2. Formwork arrangement (1, 2, 3, 4) according to claim 1, wherein the at least one centering device (18, 19) arranged at least one, preferably on at least one attachment element (9, 10, 11, 12, 13, 14, 15) , Centering bolt (18) and at least one, preferably on at least one base body (7,
8) arranged, recess (19) for receiving the at least one centering pin (18).
[3]
3. Formwork arrangement (1, 2, 3, 4) according to claim 1 or 2, wherein the at least one attachment element (9, 10, 11, 12, 13, 14, 15) one side (20) facing the surface to be concreted (6) and has an opposite side (21) facing the at least one base body (7, 8), preferably the side (20) facing the surface to be concreted (6) has at least one contour part (23, 24) deviating from a plane (22) for formation has a predetermined contour on a side surface of a prefabricated concrete part.
19/34
[4]
4. Formwork arrangement (3, 4) according to claim 3, wherein the at least one attachment element (12, 13, 14, 15) on the at least one base body (8) facing side (21) has at least one concrete shielding device (25) to in in a state in which the at least one attachment element (12, 13, 14, 15) is detachably attached to the at least one base body (8), penetration of concrete into an intermediate space (26) between the at least one attachment element (12, 13, 14 , 15) and the at least one base body (8).
[5]
5. Formwork arrangement (1, 2, 3, 4) according to one of claims 1 to 4, wherein the at least one attachment element (9, 10, 11, 12, 13, 14, 15) is substantially plate-shaped.
[6]
6. Formwork arrangement (1, 2, 3, 4) according to one of claims 1 to 5, wherein the at least one fastening device (16, 17) arranged at least one, preferably on at least one base body (7, 8), permanent magnets (16) and comprises at least one magnetizable region (17) arranged on the at least one attachment element (9, 10, 11, 12, 13, 14, 15).
[7]
7. Formwork arrangement (1, 2, 3, 4) according to one of claims 1 to 6, wherein the at least one base body (7, 8) in a state in which the at least one base body (7, 8) is attached to the formwork surface , an underside (27) facing the formwork surface and in a state in which the at least one attachment element (9, 10, 11, 12, 13, 14, 15) is detachably attached to the at least one base body (7, 8), one of which Has at least one attachment element (9, 10, 11, 12, 13, 14, 15) facing side surface (28), the at least one base body (7, 8) in the area in which the underside (27) with the side surface ( 28), has at least one recess (29) so that the at least one base body (7, 8) in the state in which the at least one base body (7, 8) is attached to the formwork surface has a distance (30 ) to the formwork surface.
20/34
[8]
8. formwork arrangement (1, 2, 3, 4) according to one of claims 1 to 7, wherein the at least one base body (7, 8) at least one formwork surface fastening device (31) for releasably fastening the base body (7, 8) to the formwork surface, and / or at least one attack means (32) for a formwork robot (33).
[9]
9. Storage device (34, 35) for a formwork arrangement (1, 2, 3, 4) according to one of the preceding claims, wherein the storage device (34, 35) has at least one release device (36) for releasing the fastening between the at least one base body ( 7, 8) and the at least one attachment element (9, 10, 11, 12, 13, 14, 15), preferably wherein the at least one
Release device (36) comprises two spreading elements (37, 38) which can be displaced relative to one another.
[10]
10. Storage device (34, 35) according to claim 9, wherein the storage device (34, 35) at least one gripping device (39, 40) for transporting the at least one base body (7, 8) and / or the at least one attachment element (9, 10 , 11, 12, 13, 14, 15).
[11]
11. Storage device (34, 35) according to claim 10, wherein the at least one gripping device (39, 40) is designed as a magnetic gripper, and / or has at least one head (42) which can be pivoted about an axis (41) which is essentially horizontal in the position of use, and / or is designed to be adjustable in three mutually perpendicular spatial directions (43, 44, 45), preferably linear guides (46, 47, 48, 49, 50, 51) being provided for realizing the adjustability.
[12]
12. Bearing device (34, 35) according to one of claims 9 to 11, wherein the bearing device (34, 35)
- At least one transport device (52, 53, 54) for transporting the at least one base body (7, 8) and / or the at least one attachment element (9, 10, 11, 12, 13, 14, 15) from and to at least one formwork robot (33) and / or an operator (55), preferably
21/34, wherein the at least one transport device (52, 53, 54) comprises a roller conveyor, and / or
- At least one deposit (56, 57, 58) for the at least one
Basic body (7, 8) and / or the at least one attachment element (9, 10, 11, 12, 13, 14, 15), preferably with the at least one bearing (56, 58) being designed to be movable, particularly preferably with the at least one a deposit (56) is designed as a movable drawer.
[13]
13. Arrangement of at least one formwork arrangement (1, 2, 3, 4) according to one of claims 1 to 8 and at least one formwork robot (33) with which the at least one base body (7, 8) together with the at least one attachment element (9 , 10, 11, 12, 13, 14, 15) can be automatically arranged at a predetermined position on the formwork surface, preferably by CAD data, and the at least one base body (7, 8) can be automatically and releasably attached to the formwork surface, preferably with the Arrangement comprising at least one bearing device (34, 35) according to one of Claims 9 to 12.
[14]
14. The arrangement according to claim 13, wherein by means of the at least one formwork robot (33) the fastening of the at least one base body (7, 8) to the formwork surface is automatically detachable and the at least one base body (7, 8) together with the at least one attachment element (9 , 10, 11, 12, 13, 14, 15) is automatically removable from the formwork surface.
[15]
15. The method (59) for forming a formwork on a formwork surface, in particular a pallet (5) or a formwork table, by means of a formwork arrangement (1, 2, 3, 4) according to one of claims 1 to 8, characterized by the following steps:
i. at least one base body (7, 8) and at least one attachment element (9, 10, 11, 12, 13, 14, 15) are provided, ii. the at least one attachment element (9, 10, 11, 12, 13, 14, 15) is automatically aligned by means of the at least one centering device (18, 19) relative to the at least one base body (7, 8),
22/34 iii. the at least one attachment element (9, 10, 11, 12, 13, 14, 15) is detachably, and preferably automatically, attached to the at least one base body (7, 8) by means of the at least one fastening device (iv). the at least one base body (7, 8) is, together with the at least one attachment element (9, 10, 11, 12, 13, 14, 15), preferably automatically by means of at least one formwork robot (33), on one, preferably by CAD data , predetermined position on the formwork surface,
v. the at least one base body (7, 8) is detachably attached to the formwork surface, preferably automatically by means of at least one formwork robot (33).
[16]
16. The method (59) according to claim 15, wherein the steps i. to v. as long as repeated with further base bodies (7, 8) and facing elements (9, 10, 11, 12, 13, 14, 15) until a predetermined area (6) to be concreted is completely limited laterally, preferably with the area (6) subsequently is concreted.
[17]
17. The method (59) according to claim 15 or 16, wherein for dismantling the formwork vi. the at least one base body (7, 8) is fastened to the formwork surface, preferably automatically by means of at least one formwork robot (33), and vii. the at least one base body (7, 8) together with the at least one attachment element (9, 10, 11, 12, 13, 14, 15) is removed from the formwork surface, preferably automatically by means of at least one formwork robot (33), viii. Preferably, the at least one base body (7, 8) and the at least one attachment element (9, 10, 11, 12, 13, 14, 15) subsequently detached from one another, cleaned and / or in at least one deposit (56, 57, 58) be positioned.

类似技术:

---

公开号 | 公开日 | 专利标题

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DE2344469A1|1974-04-04|CONCRETE SLAB, IN PARTICULAR BALCONY SLAB, AND METHOD FOR MANUFACTURING IT

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DE4420849C2|1997-05-22|Formwork for the substructure of a concrete staircase

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EP2397624A2|2011-12-21|System and method for forming a floor covering from standard panels and at least one exchange panel

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DE102007019383B4|2009-01-08|Battery mold for the vertical production of flat precast concrete elements

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EP3424662B1|2021-06-09|Method for producing prestressed concrete parts

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EP1840288A2|2007-10-03|Assembly for storing objects with installation elements in a dry wall and attaching method therefor

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AT510233B1|2012-07-15|METHOD FOR PRODUCING FINISHED COMPONENTS

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DE2119362A1|1972-11-02|Fixing device for connecting formwork panels

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DE202011004223U1|2011-06-09|Reinforcement frame for a concrete slab

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EP3939759A1|2022-01-19|Holding device for fixing concrete components in a mould

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DE2824106A1|1978-12-14|SUPPORTING FRAME FOR CROSS BEAM

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DE2819665C3|1980-10-16|Holding device for connecting plates

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EP3403797A1|2018-11-21|Method and system for creating a concrete formwork

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AT213026B|1961-01-25|Suspension device for suspended ceilings in buildings

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DE3242419A1|1983-05-26|Method for the production of a reinforcing body for steel-reinforced concrete and an apparatus for carrying out the method

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DE816149C|1951-10-08|Device for laying wall panels

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DE3249641C2|1986-07-31|Device for inserting threaded dowels into a building wall

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DE1784094A1|1971-02-11|Device and method for laying tiles or the like.

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DE2302172C3|1977-12-15|Device for the production of concrete elements, which consist of two spaced apart concrete slabs connected to one another by reinforcement

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DE19527087A1|1997-01-30|System for two-side shuttering of elongated concrete element - has two shuttering elements formed by handling unit, contg. parallel, spaced, top-linked elements

同族专利:

---

公开号 | 公开日

---

AT520739B1|2019-07-15|

---

CA3093182A1|2019-09-12|

---

RU2761949C1|2021-12-14|

---

WO2019170477A3|2019-10-31|

---

KR20200125949A|2020-11-05|

---

CN111819056B|2022-02-01|

---

WO2019170477A2|2019-09-12|

---

CN111819056A|2020-10-23|

---

EP3765253A2|2021-01-20|

---

US20210008759A1|2021-01-14|

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CN105881716B|2016-05-25|2018-02-02|中国水利水电第八工程局有限公司|A kind of prefabricated components mould|

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CN106079043A|2016-07-29|2016-11-09|中民筑友科技投资有限公司|A kind of gang form|US10947746B2|2018-09-06|2021-03-16|MW Panel Tech, LLC|Configurable steel form system for fabricating precast panels|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

---

ATA50184/2018A|AT520739B1|2018-03-06|2018-03-06|A form assemblage|ATA50184/2018A| AT520739B1|2018-03-06|2018-03-06|A form assemblage|

---

CA3093182A| CA3093182A1|2018-03-06|2019-02-26|Formwork assembly|

---

EP19707382.8A| EP3765253A2|2018-03-06|2019-02-26|Formwork assembly|

---

KR1020207026799A| KR20200125949A|2018-03-06|2019-02-26|Mold assembly|

---

CN201980017129.4A| CN111819056B|2018-03-06|2019-02-26|Formwork apparatus|

---

RU2020129155A| RU2761949C1|2018-03-06|2019-02-26|Formwork system|

---

PCT/EP2019/054746| WO2019170477A2|2018-03-06|2019-02-26|Formwork assembly|

---

US17/003,343| US20210008759A1|2018-03-06|2020-08-26|Formwork assembly|