巴西专利BR102013001542B1 ALQA FOR A PLASTIC BOTTLE

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专利摘要:
HANDLE FOR A PLASTIC BOTTLE. Problems: Providing a handle that can guarantee the storage capacity of a compartment, etc. of a refrigerator even in a state where it is attached to a bottle, and which in addition can provide stable support even for a bottle whose weight should be lightened. Solution Means: The handle (30) is provided with a bottom support part (32) that receives the bottom of the bottle (1) and supports the bottom part of the bottle (1), a neck support part (34) ) that fits with the neck (3) of the bottle (10 and supports it, and a grip part (36) that connects the bottom support part (32) and the neck support part (34). neck support (34) has a first engagement part (60) and a second engagement part (62) with which the neck (3) can engage and disengage. The grip part (36) exists as an extension in the direction vertical in such a way that it runs along the body (5) of the bottle (1) in the event that the neck (3) is engaged with the first engagement part (60), and exists as an extension that is inclined in relation to to the vertical direction in such a way (...).
公开号:BR102013001542B1
申请号:R102013001542-3
申请日:2013-01-21
公开日:2020-11-24
发明作者:Hiromasa Iwashita
申请人:The Coca-Cola Company；
IPC主号:

专利说明:

Technical Field
The present invention relates to a handle for a plastic bottle. Knowledge Technology
Conventionally, a handle like the one described, for example, in Patent Document 1 is known as this type of handle. This handle has a front head part for the neck part of the bottle, an insertion part for attachment to the groove at the bottom of the bottle body, and a connecting part that connects the front head part and the insertion part for attachment . A space where the hand can be inserted is provided between the connecting part and the body of the bottle, and this connecting part is configured such that it functions as the user's handle. Prior Art Documents Patent Documents
Patent Document: Patent Application No. 3754012 Summary of the Invention Problems the Invention Tries to Solve
However, in the case of the handle in Patent Document 1, the connecting part for the handle takes up a vast space in the state where it is attached to the bottle, and storage for the cooler pockets, etc. is poor.
In addition, as the insertion part for attachment of the handle is hung in the groove of the bottle body at the moment of the attachment, it is not possible to attach it well due to the design (shape, size) of this groove, and to support in a stable way the bottle is difficult.
In particular, such an attachment method is unsuitable for lightweight bottles. It has reached the point where a 10 lighter weight bottle body is flexed and readily deformed. Because of this, when the insertion part for attaching the handle is hung in the groove of the bottle body, there is a chance that the bottle body may be deformed. Not only that, but also when the bottle is tilted when the contents are being poured after attachment, the body of the bottle is subject to pressure from the insertion part for attachment only in the groove, so the body of the bottle is deformed with this is the starting point, and there is a chance that the bottle holder may become unstable.
The present invention was created in view of the knowledge above, and takes as its purpose the provision of a handle that can guarantee the storage capacity in a pocket, etc. of a refrigerator even in a state where it is attached to the bottle, and which in addition can provide stable support even for the bottle to which the weight must be reduced. Means to Solve Problems
In order to achieve the aforementioned purposes, the handle of the invention is provided with a neck support part that is composed in such a way that it corresponds with the neck of a bottle made of plastic and supports this, a bottom support part which is composed in such a way that it receives the bottom of the bottle and supports the bottom portion of said bottle, and an adherent part that connects the neck support part and the bottom support part. The neck support part has a first engagement part and a second engagement part with which the neck can engage and disengage. The adherent part exists as an extension in the vertical direction such that it runs along the body of the bottle in the event that the neck is engaged with the first engagement part, and exists as an extension that is inclined in relation to the vertical direction in such a way that it withdraws from the bottle in the event that the neck is engaged with the second coupling part mentioned above.
According to the present invention, if the neck of the bottle is engaged in the first engagement part when the bottle is to be stored in the refrigerator compartment, etc., it is possible to make the adherent part approach the body of the bottle. Because of this, the adherent part does not occupy a large space, so it is possible to guarantee the storage capacity in this type of bottle. On the other hand, if the neck of the bottle is engaged in the second coupling part when the bottle is handled, such as lifting the bottle and pouring the contents of the bottle, it is possible to form a larger space between the top of the inclined adherent part and the bottle than in the state engaged with the first coupling part. Because of this, the user can insert his hand in this space and hold the adherent part, and the easy handling of the bottle is allowed.
In addition, as the support position of the handle in relation to the bottle becomes the top to bottom position of the bottle, which is the neck part and the bottom part of the bottle, the movement when tilting the bottle and pouring its contents is stable . In addition, it is configured such that the support of the lower portion of the bottle can be realized by receiving the bottom of the bottle. Because of this, it is not very affected by the design of the bottle body, and it is possible to support the bottle in a stable manner, even in the case of a flexible light weight bottle.
Preferably, the bottom support part supports in such a way that it envelops the bottom portion of the bottle.
According to this configuration, as the ability to manipulate (control ability) the lower portion of the bottle is improved, it is possible to support the bottle in a more stable way. As the way to support the bottle in such a way that the bottom portion of the bottle is enveloped, one can cite a way in which the bottom support part faces the entire region of the bottom portion of the bottle, and in addition a mode in which it faces across the periphery in at least one region of the lower portion of the bottle.
More preferably, the bottom support part may have a first side plate part that receives the bottom of the bottle, a second side plate part that extends upwardly from the bottom plate part towards the adherent part, and a pair of third side plate parts that connect the first side plate part and the second side plate part in such a way that they envelop the bottom portion of the bottle in addition to the first side plate part and the second placal side part.
According to this configuration, it is possible to support the bottle in such a way that the bottom portion of the bottle is enveloped by the first to the third side plate parts. The pair of third side plate parts is formed such that they are opposite each other, but their positions in the top-down direction may be the same or may be different.
More preferably, the third side plate part is positioned upwardly from the bottom plate part.
According to this configuration, compared to a case in which the third side plate part is formed in such a way that it is slightly erect from the bottom plate part, when for example the bottle is tilted, the third plate part ends by supporting a point that is an upper part of the lower portion of the bottle. Therefore, it is possible to further improve the handling capacity of the lower portion of the bottle.
More preferably, projecting parts that fit into the groove of the bottle can be formed in at least one of the first side plate part and second side plate part.
According to this configuration, the bottom portion of the bottle can escape the force it receives from the
first or second side plate part when the bottle is for example tilted through projecting parts in the groove, which effect the reinforcement of the bottle, so that it is possible to inhibit the deformation of the lower portion of the bottle. In addition, the handling capacity of the bottle is also improved. It is even more preferable that the projecting parts are positioned higher than the third side plate part.
Preferably, a leg for positioning said bottle horizontally can be formed on the outer surface of the first side plate part.
According to this configuration, as it is possible to position the handle and the bottle with a handle attached horizontally, it is possible to improve the ease with which they are handled. In addition, it is possible to efficiently use the first side plate part to support the lower portion of the bottle, and to provide a leg.
More preferably, in the event that the neck is engaged with the first engagement part, the leg can be formed in such a way that it is not protruding further outward than an adherent part.
According to this configuration, in the event that the bottle is stored in a state in which it is positioned
vertically in the compartment, etc. of a refrigerator, the leg for horizontal positioning does not become an impediment. Therefore, storage capacity is unaffected, and it can be provided for uses that involve both vertical and horizontal positioning.
According to another preferable mode of the present invention, the bottom support part may have the bottom plate part that receives the bottom of the bottle, a tubular peripheral wall part that extends upwardly from the bottom plate part , and an opening is intermittently formed in the peripheral direction towards the peripheral wall part.
According to this configuration, it is possible to support in such a way that the lower portion of the bottle is enveloped, even when providing a lighter weight of the bottom support part.
Preferably, the first engagement part is positioned on the side of the adhering part, and furthermore the second engagement part is positioned on the side opposite to an adherent part in such a way that it is opposite the first engagement part, and the supporting part neck can have an opening part in the space between the first engagement part and the second engagement part which can pass through in the horizontal direction when the neck engages with the first engagement part or engages the second engagement part.
According to this configuration, as the first engagement part 5 and second engagement part are positioned in such a way that they are opposite each other, movement when changing the engaged state is easier. In addition, it is possible to employ a common opening part and move to any of the engaged states.
Preferably, the adherent part may have an altered part in which the inner surface of the upper side has added changes compared to the inner surface of the lower side.
According to this configuration, it is possible to make the user aware of the adherence of the upper side portion of the adherent part. In addition to the degree to which changes are added, its stiffness can also be increased.
More preferably, the altered part can be formed by at least one of the step parts.
According to this configuration, as it becomes a device to avoid slipping when the user adheres to it, it is possible to improve the portability and ease of pouring.
Preferably, the lower end part of the adherent part may have a stiffness that is less than that of at least a part of the upper end part thereof, such that the adherent part bends with said lower end part of the said adherent part as a support when there is a change between a state in which the neck is engaged in the first engaging part and a state in which it is engaged in the second engaging part.
According to this configuration, the ability of the adherent part to move when the coupling state is changed can be smoothly realized. In addition, since the lower end part of the adherent part is used as the support of the fold, even if the angle of inclination of the adherent part when the neck is engaged in the second engagement part is small, it is possible to increase the space as much as possible. that is formed between the upper part of the adherent part and the bottle.
Preferably, the adherent part may have a pair of outwardly extending flange parts opposed to each other, between but not including the upper end part and the lower end part of said adherent part.
According to this configuration, as the secondary sectional moment becomes larger in the middle portion from top to bottom of the adherent part, it is possible to increase the stiffness of the intermediate portion from top to bottom of the adherent part, and the ease of manipulation of the handle as experienced. by the user (portability and ease of pouring) improves. On the other hand, as the stiffness of the lower end part of the adherent part becomes less, it is more easily bent with this lower end part as the support, and it is possible to smoothly achieve the movement capacity of the adherent part described above.
Preferably, the upper end part of the adherent part may have a curved wall part that is curved upwards.
According to this configuration, it is possible to form a finger rest between the curved wall part and the upper part of the bottle. Due to this, naturally in the event that the neck is engaged in the second coupling part, but even in the event that it is engaged in the first coupling part, it becomes possible to improve the portability of a handle that uses the space for a rest finger. Brief Description of the Figures
Figure 1 is a figure showing a state in which the handle for Mode 1 is attached to the bottle, and the figure in which the neck of the bottle is engaged with the first coupling part. Figure 2 is a figure showing a state in which the handle for Mode 1 is attached to the bottle, and the figure in which the neck of the bottle is engaged with the second coupling part. Figure 3 is an oblique view showing the handle for Mode 1. Figure4 is a right figure in Figure 1. Figure5 is a left figure in Figure 1. Figure 6 is a plane from Figure 1. Figure7 is a surface figure in Figure 3. Figure8 is a figure showing a state in which the handle for Mode 2 is attached to the bottle, and the figure in which the neck of the bottle is engaged with the first coupling part. Figure 9 is a figure showing a state in which the handle for Mode 2 is attached to the bottle, and the figure in which the neck of the bottle is engaged with the second engaging part. Figure 10 is an oblique view showing the handle for Mode 2. Description of the Invention
A description is provided for the handle of the plastic bottle for an optimal mode of the modality of this present invention, with reference to the attached figures. In the following description, the side on which the mouth of the bottle is present is the upper side, and the side on which the bottom of the bottle is present is the lower side. Height means the length along the direction (top to bottom direction) of the central axis of the bottle.
First of all, a description of the composition of the plastic bottle is provided.
As shown in Figure 5, plastic bottle 1 (hereinafter "bottle 1") has, in order from the top, a mouth 2, neck 3, shoulder 4, body 5 and bottom 6. Each of these parts 2 6 has as its own main material a thermoplastic resin such as polyethylene, polypropylene, polyethylene terephthalate, etc. They are formed from a preform in a monoblock by biaxial stretch blow molding or direct blow molding, and make up a tubular bottle wall with a bottom to hold various liquids, such as drinks, alcohol and liquids that contains oil in them. The mouth 2 is a cylindrical locus that opens the upper end, a threaded part to which a cap 7 is threaded is formed on the outer peripheral surface thereof, and a support ring is formed on the underside of the threaded part. The neck 3 has a support ring 8 that protrudes in a flange shape at the edge position in the mouth 2, and a tubular peripheral wall 5 on the bottom side of the support ring 8 is connected to the upper end of the shoulder 4. There are cases where the support ring and the support ring are called the flange and the neck ring. In addition, the support ring can be omitted depending on the end use of the bottle.
Here, even in the event that the bottle is made of a light weight and its skin is made thin, in general, the peripheral wall of the neck 3 is a portion that is not stretched by biaxial stretch blow molding, or is a portion 15 which is left as if with thick skin compared to shoulder 4 and body 5 even if it is stretched. Because of this, the stiffness (resistance) of the peripheral wall of the neck 3 is greater than that of the shoulder 4 and the body 5. As for the shoulder 4, the cross section gradually widens towards the bottom, and the shoulder 4 it is connected to the upper end of the body, which comprises the maximum width in the bottle 1. The body 5 is a tubular portion that extends along the length in the direction from top to bottom, and a plurality of reinforcement grooves 9 have been formed in the peripheral wall of the same. The sectional shape of the body 5 can be polygonal such as a square or rectangle, but here it has been made round. The bottom part 6 was composed of a bottom wall 11 and a peripheral wall 12. The peripheral wall 12 was made slightly narrower in the downward direction, and the bottom end of the body 5 is connected to the bottom wall 11. No there are particular restrictions on the shapes of mouth 2, neck 3, shoulder 4, body 5 and bottom 6, and they can be designed as required.
Next, a description is provided around the composition of loop 30 for Mode 1.
As shown in Figure 1 to Figure 3, which broadly categorizes, the handle 30 is equipped with a bottom support part 32 that receives the bottom of the bottle 1 and supports the bottom portion of the bottle, a neck support part 34 which corresponds with the neck 3 of the bottle 1 and supports it, and an adherent part 36 that connects the bottom support part 32 and the neck support part 34. The lower portion of the bottle 1 means the portion that includes at least the bottom part 6 of bottle 1, and it may or may not include the lower body part 5 of bottle
For the handle 30, the bottom support part 32, the neck support part 34 and the adherent part 36 are formed in a monoblock, and the bottom support part 32, the neck support part 34 and the part adherent 36 5 respectively have a thickness similar to thin plate. The handle is made of a deformable and elastic hard material, and has a rigidity that can support bottle 1 to be lifted. It is preferable that an acrylic resin is used as such material, but it is not limited to 10 east, and another hard plastic can be used, for example, recyclable PET resin, etc. can be employed. In addition, it is possible to use various materials such as metal, wood, bamboo, etc. It is possible to compose bottle 1 by forming as a separate body in at least 15 one of the bottom support part 32, the neck support part 34 and the adherent part 36, and joining these with an adhesive agent, etc.
The bottom support part 32 has been globally composed in such a way that it provides support such that it envelops the lower portion of bottle 1 (see Figures 1, 2, 4 and 5). As shown in Figures 3 to 5 and Figure 7, this type of bottom support part 32 is equipped with the bottom plate part 40 that receives the bottom wall 11 of the bottle 1, and the peripheral wall part 42 that is upright from bottom plate part 40.
The bottom plate part 40 can be something that receives the entire surface or a part of the bottom wall 11 of the bottle 1 when the last one is loaded, and here it is formed in a cross-section in a flat view. In addition, the bottom plate part 40 can be formed in such a way that only the reverse surface of the bottom plate part 40 is formed as an installation surface when the bottle 1 to which the handle 30 is attached is positioned vertically. , or it can be formed in such a way that a part of the bottom wall 11 of the bottle 1 serves as the installation surface together with the reverse surface of the bottom plate part 40. As the last way, one can imagine a case in which the bottom plate part 40 corresponds to a pre-formed depression of the bottom wall 11, and here it has been formed in such a way.
The peripheral wall part 42 has a first side wall part 44, which extends upwards 20 from the bottom plate part 40 towards the adherent part 36, a second side wall part 46, which extends upwards from the bottom plate part 40 towards the opposite side to the adherent part 36, and a pair of third side wall parts 48, 48, which connect the first side wall part 44 and the second side wall part 46 respectively with the front side and the back side of the bottle 1. The third side wall parts 48, 48 support in such a way that they envelop the peripheral surface of the bottom portion of the bottle 1 together with the first side wall part 44 and the second part side wall 46.
As shown in Figure 4, the first side wall part 44 is a point that exhibits a rough U shape in the right side section view, and the roughly shaped U-shaped apex is connected to the lower end part 70 of the adherent part 36, and, in addition, the skirt part of both ends roughly shaped in U are connected to the bottom plate part 40. As shown in Figure 7, the inner surface of the first side plate part 44 is composed as a curved surface, in such a way that it corresponds to the curved shape of the lower portion of the bottle 1. A projection part shaped in a line 50 extending in the peripheral direction was formed 20 on the internal surface of the apex of the first side plate part 44. A the projecting part 50 is formed in such a way that it fits into the groove 9 of the lower portion of the bottle, in a state in which the handle 30 is attached to the bottle 1 (see Figure 4).
The second side plate part 46 was formed in opposition to the first side plate part 44. As in the case of the first side plate part 44, as shown in Figure 5 and Figure 7, the second side plate part 46 5 is formed as a point that exhibits the raw U shape in the left side section view, and serves as the inner surface that corresponds to the curved shape of the lower portion of the bottle 1. While the skirt part of both ends is roughly U shaped of the second side plate part 10 46 is connected to bottom plate part 40, the roughly U-shaped apex is in a free state, and the projecting part 52 has been formed on the inner surface thereof. The projecting part 52 has the same shape as the projecting part 50, and, in addition, it was formed 15 in opposition to the projecting part 50, and is configured such that it fits in the groove 9 of the lower portion of the bottle, in a state in the which handle 30 is attached to bottle 1 (see Figure 5).
As shown in Figure 4 and Figure 5, the third 20 side plate parts 48, 48 were composed as belt-like points that cover only approximately 1/4 of an arc in the peripheral direction, downward from the projecting parts 50, 52, and the lower ends of the same are positioned at the same height level as the upper surface of the bottom plate part 40. In addition, as shown in Figure 7, the third side plate parts 48, 48 have an internal surface that corresponds to curved shape of the lower portion of the bottle 51. Here, the first to third side plate parts 44, 46, 48, 48 can be composed in such a way that they face the lower portion of the bottle 1, in a state in which the handle 30 is attached to bottle 1, and they 10 come into contact with the bottom portion of bottle 1 in the event that bottle 1 is tilted and supports it such that they envelop it. In other words, in a state in which the bottle 1 is not tilted, there is no need for the first to third side plate parts 44, 46, 48, 48 15 that are in close contact with the inner surface of the bottom of the bottle 1. The mode of the first to third side plate parts 44, 46, 48, 48 is not limited to the mode mentioned above. For example, the position or size in the direction from top to bottom one towards the other 20 of the third side plate parts 48, 48 may be different.
As shown in Figure 3 and Figure 6, the neck support part 34 has, in such a way that they are connected in the horizontal direction, the first engaging part 60 and a second engaging part 62 which engages such that the neck 3 of the bottle 1 can engage and disengage. The first hitch part 60 is positioned on the side of the sticky part 36, and the second hitch part 62 is positioned on the side opposite to the sticky part 36. Both the first hitch part 60 and the second hitch part 62 are similar points to plate formed roughly in C on which an annular part was notched, and was formed in opposition to each other, in such a way that the respective notched portions face slightly towards the front side.
While a location on the rear sides of the first engagement part 60 and a second engagement part 62 is connected by a connecting part 64, the front sides face each other with an opening part 66 present there. In other words, a connecting part 64 and an opening part 66 are positioned between the first engaging part 60 and a second engaging part 62. The inner surface of the connecting part 64 is formed in an arc shape, and is configured such that it can receive the peripheral wall of the neck 3 of the bottle 1. The opening part 66 has an opening width through which the neck 3 can pass in the horizontal direction. This opening width is formed in such a way that it becomes tighter from the front side towards the rear side, in such a way that it facilitates the entry of the neck 3 in the opening part 66, and, in addition, it is difficult for it emerges from the opening part 66 in a free state, and it is preferable that the minimum opening width is slightly less than the diameter of the neck 3.
When the neck 3 is matched with the first engagement part 60 or second engagement part 62, first of all, the neck 3 is inserted into the opening part 66 from the horizontal direction. When the diameter of the neck 3 is less than the opening width of the opening part 66, it causes flexible deformation in such a way that the opening rim of the opening part 66 is expanded. Next, it is configured such that the neck 3 is inserted into the notched portion of the first engagement part 60 or the second engagement part 62, and it causes flexible deformation in such a way that the engagement part is expanded, and pressed into it. When this happens, it is configured such that the final hitch part that is pressed (in the first hitch part 60 or in the second hitch part 62) reverts elastically to its original state, and it emerges over a region larger than the region semicircular of the peripheral wall of the neck 3, and the neck 3 is not loose in the horizontal direction easily or in a free state. Because of this, the neck 3 engages with the neck support part 34 and is supported. At this time, the neck 3 is prevented from loosening upwards from the neck support part 34 by the support ring 8 of the bottle 1.
In the event that the neck 3 which is engaged with the first engagement part 60 is engaged with the second engagement part 62, the notched portion of the first engagement part 60 is expanded and the neck 3 is removed, and it can be pressed into the second engagement part 62 as described above. In addition, in the event that the neck 3 is removed from the neck support part 34, the opening ring of the opening part 66 can be expanded and the neck part can be removed from the horizontal direction.
As shown in Figure 1, the adherent part 36 exists as an extension in the vertical direction in such a way that it runs along the body 5 of the bottle 1 in the event that the neck 3 is engaged in the first engagement part 60. On the other hand , as shown in Figure 2, the adherent part 36 exists as an extension that is inclined in relation to the vertical direction in such a way that the upper part of the adherent part 36 withdraws from the bottle in the event that the neck 3 is engaged in the second part of engagement 62. The lower end part 70 of the adherent part 36 is composed with stiffness that is less than the upper side portion of the same, such that the ability of movement of such adherent part 36 becomes smoother.
Specifically, the adherent part 36 has a pair of flange parts 74, 74 which extend towards the outside 5 in opposition to each other, between, but not including the lower end part 70 and the upper end part 72. The flange parts 74, 74 are separated from each other only by the width of the adherent part 36. To cite an example of that width, an adult's finger is approximately the size of what is housed between the flange parts 74, 74. As the sectional secondary moment of the top to bottom intermediate portion of the adherent part 36 becomes greater due to such flange parts 74, 74, the stiffness of the top to bottom intermediate portion of the adherent part 36 is high. Since at the same time the stiffness of the lower end part 70 of the adherent part becomes lower, the adherent part 36 tends to become bent, with the lower end part 70 as the support, when it changes between the engagement state shown in Figure 201 and the engagement state shown in Figure 2. The upper end portion 72 of the adherent part 36 was formed at an arc shaped point that connects the upper side portion of the adherent part 36 and the side of the first engagement part 60 of the neck support part 34, but is not limited to, and it can be formed in any way that connects at a right angle to the upper side portion of the adherent part 36 and the side of the first engagement part 60 of the support part neck 34.
In the engaged state shown in Figure 1, in what refers to the handle 30 composed in this way, the adherent part exists as an extension in the vertical direction without any gap or almost no gap between it and the body of the bottle 1. At this moment, as shown in Figure 6, it is configured such that the second engagement part 62 does not protrude much more than the second side plate part 46 of the bottom support part 32, and preferably it is no longer protruding outwardly than the second side portion of plate 46. The maximum width of bottle 1 with a handle 30 in the engaged state shown in Figure 1 is the size by which it fits into a refrigerator compartment, and is defined by example, 109 mm. In addition, when bottle 1 with a handle 30 in the engaged state shown in Figure 1 is positioned horizontally in such a way that the adherent part 36 becomes the bottom side, it is configured such that it is supported along the top direction down through the flange parts 74, 74.
On the other hand, in the engaged state shown in Figure 2, as an adherent part 36 faces upwards, it gradually withdraws from bottle 1, and a large space is formed between and the upper part of bottle 1. The width 5 of this space ( the distance between the adhesive part 36 and the bottle 1) is a maximum of about 30 mm between the adhesive part 36 and the shoulder 4, and the user can insert his hand in this space and take the adhesive part 36. Based on the design , the width of said space can be adjusted as necessary by the position of the second engagement part on a neck support part 34. However, based on the storage capacity point of view, as noted above, the position of the second engagement part 62 is defined in the position where it is not protruding much more than the outer 15 of the second side plate part 46 of the bottom support part 32, at least.
A description is now provided of the action effects of loop 30 in this mode of the mode as described above.
First of all, in order to attach the handle 30 to the bottle 1, in order to attach the handle 30 to the bottle 1, the bottom of the bottle 1 is positioned on a bottom support part 32, the neck 3 of the bottle 1 is inserted into the opening part 66 from the horizontal direction, and the neck 3 is engaged with the first engagement part 60 or the second engagement part 62. It is configured such that the handle 30 which is attached in this way supports the top to bottom portions of the bottle 1, and the user can undergo an operation such as holding the adherent part 36 and loading the bottle 1, or pouring the contents of the bottle 1.
In the event that the operation of loading the bottle 1 is performed, if the neck 3 is engaged in the second engagement part 62 as shown in Figure 2, a large space in which the hand can be inserted is formed between the upper part of the part inclined grip 36 and the bottle 1. Because of this, the user can easily operate the handle 30. In addition, it can be operated by positioning the finger between the flange parts 74, 74, or positioning the finger at the upper end part 72 shaped in an arc of the adherent part 36, so that it is easy to operate.
On the other hand, in the event that it is stored in the compartment, etc. of a refrigerator, if the neck 3 is engaged in the first engagement part 62 as shown in Figure 1, the adherent part 36 is positioned in such a way that it approaches the body 5 of the bottle 1 and runs along it. If the adherent part 36 is folded up in this way, the adherent part 36 does not occupy a large space, and in the event that the bottle 1 with a handle 30 is positioned vertically, someone can guarantee the storage capacity for the compartment. To guarantee, even in the event that the bottle 1 with a handle 30 is positioned horizontally, the adherent part 36 does not occupy such a vast space. In addition, as it is possible to position it 5 horizontally with the flange parts 74, 74, even a rounded bottle 1 can be positioned horizontally on a shelf or table, in a state that prevents it from falling.
In addition, as the first engagement part 60 and the second engagement part 62 are positions such that they are opposite each other, the change between the engaged state shown in Figure 1 and the engaged state shown in Figure 2 involves only pulling or pushing the adherent part 36 in one direction. Because of this, it is an easily movable handle.
Furthermore, as the support position of the handle 30 relative to the bottle 1 becomes the top-down position of the bottle 1, the movement when holding the handle 30, tilting the bottle 1 and pouring the contents is stable.
In addition, the support of the lower portion of the bottle is performed by receiving the bottom of the bottle 1. Because of this, it is not very affected by the design of the bottle body, and it is possible to support the bottle in a stable manner, even in the case of the lightweight lightweight bottle.
In particular, as the bottom support part 32 supports in such a way that it envelops the lower portion of the bottle 1, the handling capacity (control capacity) is improved. In addition, as outside the peripheral wall 5 of the bottom support part, the second side plate part 46 on the side opposite the adherent part 36 extends upwards to a certain height from the bottom plate part 40, even if the bottle is tilted to pour from it, it is possible to support the bottle 1 in such a way that it is not free of the handle 30.
In addition, in the event that the bottle 1 is tilted, the bottom portion of the bottle 1 can escape the force it receives from the first side plate part 44 or the second side plate part 46 through the projecting part 15 50 or projecting part 52 in groove 8, which achieves the reinforcing effect for bottle 1. Because of this, it is possible to inhibit even more optimally the deformation of the lower portion of bottle 1 while improving the handling capacity of bottle 1 in the part Bottom support part 32. In addition, as the first side plate part 44 and the second side plate part 46 are roughly U-shaped, the peripheral wall part 42 of the bottom support part 32 becomes something in which an opening is formed intermittently in the peripheral direction, so it is possible to aim to make the weight of the bottom support part 32 lighter.
Next, a description is provided around handle 100 for Mode 2, with a focus on differences between it and handle 5 for Mode 1, with reference to Figures 8 to 10. The main differences are a change in position the third side plate 480 and the addition of the leg 110 for the bottom support part 320, and the addition of a curved wall part 120 and step part 140, 142 for the adherent part 10 360. From the composition of the handle 100, the same key reference numbers were used for these parts with an identical or similar composition as those in handle 30 for Mode 1, and a description of it was omitted.
The bottom support part 320 is formed in a global gross bowl shape 15, so as to support it in such a way that it is enveloped from the bottom portion of the bottle 1 than the bottom support part 32 of Mode 1. More specifically, the bottom plate portion 40 becomes roughly rounded in planar view, and the area receiving the bottom of bottle 1 increases. In addition, the pair of third side plate parts 480, 480 is positioned upwardly from the bottom plate part 40, and because of this a flap-shaped opening is composed between it and the bottom plate part 40. The pair of side plate parts 480,480 connects the first side plate part 44 and the second side plate part 46 by a pair of intermediate parts towards the height of the same.
Based on such a configuration, the third side plate parts 480, 480 support a point above the lower portion of the bottle compared to the case in Mode 1, when the bottle is tilted. Therefore, it is possible to further improve the handling capacity of the lower portion of the bottle 1. The position or size of the third side plate parts 480, 480 in the top-down direction towards each other may be different.
The leg 110 of the bottom support part 320 is protruded from the outer surface in the vicinity of the apex of the first side plate part 44, and it has a pair of installation parts 112, 112 gap which is wider than than that between the pair of flange parts 74, 74. The installation parts 112, 112 were composed of a curved surface that is protruding in a mountain shape towards the side. In addition, the installation parts 112, 112 are in the same lateral position as the flange parts 74, 74, in the engaged state shown in Figure 8. Due to this, in the event that the bottle 1 with a handle 100 is positioned horizontally such that the adherent part 36 becomes the lower side, it is supported by the installation parts 112, 112 and the flange parts 74, 74. At this time, the width (gap) of the installation parts 112, 112 is wider than the width (gap) of the flange parts 74, 74, then it is possible to position the bottle horizontally even more evenly. In addition, in the engaged state shown in Figure 8, as leg 110 is not protruding outwardly more than an adherent part 360, the storage capacity is not transmitted, and it can be provided for uses involving both positioning vertical and horizontal positioning. In addition, when bottle 1 with a handle 100 is stored in the compartment, etc. of a refrigerator, it is possible to use the curved surface of the installation parts 112, 112 as a guide for the compartment.
The curved wall part 120 of the adherent part 360 is formed by the upward curve of a part of the upper end part. The curved wall part 120 is curved in such a way that a part of it is positioned more to the upper side than the neck support part 34. Due to this type of curved wall part 120, a space 130 for a rest is formed between the upper end part 72 of the adherent part 360 and the shoulder 4 of bottle 1. To quote an example of this space130, it is almost the size of a space in which an adult's finger can fit (diameter 1 cm or more). Because of this, even in any of the engaged states shown in Figure 8 or Figure 9, it is configured such that the user can insert his finger in the space 130 of the finger rest, and hold the handle 100. Because of this, it is possible , for example, use the finger rest space 130 when the bottle 1 is pulled up from the state stored in the refrigerator compartment, and in addition, it is possible to use the finger rest space 130 when the bottle 1 is moved while it is being loaded. Therefore, the portability of the handle using the finger rest space 130 and the ease of changing the engaged state are improved.
The step parts 140, 142 of the adherent part 360 are formed on the inner surface below the upper end part 72. The step part 140 is in a position that corresponds to the shoulder 4 of the bottle 1, and the step part 142 is in a position that is lowered only by the width of 4 fingers (about 6 to 8 cm) from the step part 140, in a position that corresponds to the upper part of the body 5. Through the provision of such step parts 140, 142 when the user takes the upper side portion of the adherent part 360, the user's fingers are positioned on one or both of the step parts 140, 142, then it becomes a device for preventing slipping. In particular, when the remaining amount of liquid in the bottle 1 decreases, there is a tendency that the position in which the user holds the adherent part 360 to become inferior, but as an adherent part 360 has not only the step part 140 on the upper side, but also the step part 241 on the lower side of it, it is possible to provide a device to prevent slipping which adequately responds to such a tendency on the user side. In addition, due to the fact that the step parts 140, 142 have been provided, it is possible to make the user aware that the upper side portion of the adherent part 360, and in addition to increase the rigidity thereof.
In another mode of modification, altered parts other than those step parts 140, 142 can be provided on the inner surface of the upper side portion of the adherent part 360. For example, it can be configured in such a way that changes are made to the inner surfaces of the lower side portion, making non-slip processing to the inner surface of the upper side portion of the adherent part 360.
As described above, according to handle 100 for Mode 2, in addition to the action effects achieved by handle 30 for Mode 1, it can achieve action effects that can improve grip property, stability during horizontal positioning and portability, etc.
Regarding both the first and second modes of the modality, despite the description here treated with the round bottle as bottle 1, it goes without saying that someone can apply the handles 30, 100 for bottles shaped like a polygon, such as a square or rectangle. In this case, the bottom support part 32, 320 can be configured in a shape that corresponds to the polygonal shape of bottle 1. In addition, in the case of bottle 1 whose body 5 has an hourglass shape, it is possible to guarantee a large space due to the space between the inclined adherent part 36, 360 and the body 5, so adherent part 36, 360 becomes even easier to hold. List of Elements 1: Bottle 2: Mouth 3: Neck 4: Shoulder 5: Body 6: Bottom 8: Support ring 9: Slot 11: Bottom wall 512: Peripheral wall 30: Handle 32: Bottom support part 34: Neck support part 36: Adhesive part 1040: Bottom plate 42: Wall peripheral 44: First side plate part 46: Second side plate part 48: Third side plate part 1550, 52: Projecting part 60: First hitch part 62: Second hitch part 64: Connecting part 66: Opening part 2070: Lower end 72: Upper end 74: Flange 100: Handle 110: Leg 112: Installation part 120: P curved edge 130: Space 140, 142: Step part 5320: Bottom support part 480: Third side plate

权利要求:
Claims (13)
[0001]
1. Handle (30; 100) for a bottle (1) comprising: a neck support part (34) which is arranged to join and support the neck (3) of a plastic bottle, a support part for bottom (32; 320) which is arranged to receive the bottom of the bottle and support the bottom portion of said bottle (1), and an adhesion part (36; 360) that connects the neck support part (34) and the bottom support part (32; 320), characterized by the fact that the neck support part (34) has a first engaging part (60) and a second engaging part (62) with which the neck ( 3) can engage and disengage, and the grip part (36; 360) extends in the vertical direction in such a way that it runs close to the body (5) of the bottle (1) in the event that the neck (3) mentioned above is engaged with the first coupling part (60), and extends in a direction that is inclined in relation to the vertical direction in such a way that it creeps from the bottle (1) in the event that the neck (3) is engaged with the second coupling part (62).
[0002]
2. Handle (30; 100), according to claim 1, characterized by the fact that the bottom support part (32; 320) envelops the bottom portion of the bottle (1).
[0003]
3. Handle (30; 100), according to claim 2, characterized by the fact that the bottom support part (32; 320) has: a bottom plate part (40) that holds the bottom (6) of the bottle (1), a first side plate part (44) that receives the bottom (6) of the bottle (1), a second side plate part (46) that extends upwards from the bottom plate part (40) towards the adhesion part (36; 360), and a pair of third side plate parts (48) that connect the first side plate part (44) and the second side plate part (46) of a such that they envelop the lower portion of the bottle (1) and in addition the first side plate part (44) and the second side plate part (46).
[0004]
4. Handle (100) according to claim 3, characterized in that the third side plate parts (48) are positioned upwards from the bottom plate part (40).
[0005]
5. Handle (30; 100), according to claim 3 or 4, characterized by the fact that projecting parts (50, 52) that notch in the groove (9) of said bottle (1) have formed in the first plate part side (44) and / or the second side plate part (46).
[0006]
The handle (100) according to any one of claims 3 to 5, characterized by the fact that a leg (110) for depositing said horizontal bottle (1) is formed on the external surface of the first side plate part (44) ).
[0007]
7. Handle (30; 100), according to claim 1 or 2, characterized by the fact that the bottom support part (34) has: a bottom plate part (40) that receives the bottom (6) of the bottle (1), a tubular peripheral wall part extending upwardly from the bottom plate part (40), and an opening is formed intermittently in the peripheral direction towards the peripheral wall part.
[0008]
Handle (30; 100) according to any one of claims 1 to 7, characterized by the fact that the first hitch part (60) is positioned on the side of the grip part (36; 360) and, in addition , the second hitch part (62) is positioned on the side opposite the grip part (36; 360) in such a way that it is opposite the first hitch part (62), and the neck support part (34) has an opening part (66) in the space between the first engagement part (60) and the second engagement part (62), which the neck (3) can pass through in the horizontal direction when the neck (3) engages with the first coupling part (60) or engaging with the second coupling part (62).
[0009]
9. Handle (100) according to any one of claims 1 to 8, characterized by the fact that the grip part (360) has an altered part in which the inner surface of the upper side has added changes compared to inner surface of the bottom side.
[0010]
10. Handle (100) according to claim 9, characterized by the fact that the altered part is formed by at least one of the step parts (140, 142).
[0011]
11. Handle (30; 100) according to any one of claims 1 to 10, characterized in that the lower end part (70) of the grip part (36; 360) has a stiffness that is less than that of at least a part of the upper end part (72) thereof, in such a way that the adhesion part (36; 360) curves with said lower end part (70) of said adhesion part (36 ; 360) as the fulcrum when there is a change between a state in which the neck (3) is engaged in the first engagement part (60) and a state in which it is engaged in the second engagement part (62).
[0012]
Handle (30; 100) according to any one of claims 1 to 11, characterized in that the grip part (36; 360) has a pair of flange parts (74, 74) that extend in outwardly opposed to each other, between, but not including the upper end part (72) and lower end part (70) of said adhesion part (36; 360).
[0013]
Handle (100) according to any one of claims 1 to 12, characterized in that the upper end part (72) of said adhesion part (360) has a curved wall part (120) which is curved upwards.

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同族专利:

公开号 | 公开日

PH12013000024A1|2014-08-04|

MX2013000882A|2013-11-05|

US9771180B2|2017-09-26|

ZA201300550B|2016-07-27|

RU2013103451A|2014-07-27|

CN103213737A|2013-07-24|

TW201402412A|2014-01-16|

CA2802267C|2020-04-14|

TWI585010B|2017-06-01|

BR102013001542A2|2014-12-02|

EP2617656A1|2013-07-24|

KR20130085394A|2013-07-29|

EP2617656B1|2014-10-01|

CN103213737B|2016-10-05|

AU2013200334B2|2015-08-13|

CA2802267A1|2013-07-19|

JP2013147271A|2013-08-01|

JP6037618B2|2016-12-07|

KR102014432B1|2019-08-26|

RU2618463C2|2017-05-03|

AR089773A1|2014-09-17|

US20130186849A1|2013-07-25|

PH12013000024B1|2014-08-04|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US622862A|1899-04-11|Handle attachment for jars or bottles |

US395504A|1889-01-01|Bottle-tilting device |

US1464789A|1922-08-02|1923-08-14|Ward Henry Albert William|Holder for bottles|

US1825897A|1930-07-17|1931-10-06|Gale E Brooke|Service bottle|

US2075217A|1935-06-13|1937-03-30|Frank S Milburn|Bottle holder|

US2088387A|1936-04-27|1937-07-27|Jr Hudson Doniphan Rice|Bottle holder|

US2928570A|1958-06-16|1960-03-15|Leonard W Fitch|Gripper with plastic housing for liquid containing cartons|

US3202309A|1964-03-23|1965-08-24|Walter M Simpson|Carrying device|

US3427064A|1967-07-10|1969-02-11|Harry H Hanschar|Container holder|

US3458164A|1967-11-15|1969-07-29|Edward J Massey|Can holder|

US3717288A|1971-03-22|1973-02-20|Cory Corp|Decanter handle structure|

US3979011A|1974-12-23|1976-09-07|Schleicher Roger W|Auxiliary handle for a beverage can|

US4379578A|1980-03-03|1983-04-12|Heriberto Schuler|Reusable bottle holder|

JPS57154640U|1981-03-25|1982-09-28|

GB2128878A|1982-09-28|1984-05-10|Merrick Ind Inc|Improvements in or relating to a handle|

US4511167A|1983-03-25|1985-04-16|Taiyo Sanso Kabushiki Kaisha|Detachable holder for containers|

JPS6330685Y2|1983-06-06|1988-08-16|

US4486043A|1984-01-20|1984-12-04|Rais John M|Reusable plastic bottle handle|

US4552396A|1984-10-29|1985-11-12|Rais John M|Bottle handle for plastic prong bottle|

IT1184960B|1985-01-15|1987-10-28|Enzo Polotti|UNIVERSAL POURER STRUCTURE APPLICABLE TO BOTTLES IN GENERAL|

US4724971A|1986-01-13|1988-02-16|Henline Jerry W|Wrap-around handle for bottles|

US4660876A|1986-01-15|1987-04-28|Beverage Mate Corp.|Reusable bottle handle|

US4666197A|1986-04-16|1987-05-19|Watson Wayne R|Bottle holder|

FR2634562B1|1988-07-22|1990-09-07|Thomson Csf|METHOD FOR MANUFACTURING A SCINTILLATOR AND SCINTILLATOR THUS OBTAINED|

US4896913A|1988-09-19|1990-01-30|Kennedy Steve J|Releasable self locking handle for wide body, narrow neck containers|

US4982869A|1989-11-07|1991-01-08|Robbins Edward S Iii|Pivoting handle type pitcher for thin walled container|

JPH0547048Y2|1989-12-15|1993-12-10|

US5025940A|1990-04-02|1991-06-25|Cesar Akly|Bottle holder|

US5176280A|1991-04-04|1993-01-05|Robbins Edward S Iii|Basket and frame assembly for supporting a thin walled container|

US5183169A|1991-06-14|1993-02-02|Grzych Stephen D|Reusable bottle handle|

JP2570937Y2|1992-01-27|1998-05-13|株式会社吉野工業所|Bottle with handle|

US5413231A|1993-04-15|1995-05-09|Carroll; David W.|Bottle handle|

JP2002179069A|2000-12-08|2002-06-26|Imotani:Kk|Handle for liquid container|

US6651838B2|2002-03-26|2003-11-25|Frederick J. Bissell|Bottle retaining device to aid pouring|

JP3754012B2|2002-09-09|2006-03-08|株式会社染井|handle|

DE10310281A1|2003-02-18|2004-08-26|Matthias Singer|Preformed part has grip-form first section, and second section constructed so that preformed part is used with objects and preferably drink bottles, with preformed part detachably connected to objects by means of snap-in connector|

US6979031B2|2003-04-02|2005-12-27|Benedict Coppotelli|Portable device for holding a liquid container|

DE20318107U1|2003-11-21|2004-04-01|Otto, Stefan|Removable handle for bottles comprises curved wire with ring at its upper end which fits over neck, second ring fitting around base and having cross-bar which supports bottle|

JP2007314206A|2006-05-25|2007-12-06|Somei:Kk|Handle|

US7909202B1|2008-09-10|2011-03-22|Melvin Gordon|Liter holder|

USD643289S1|2010-03-11|2011-08-16|Jeff Harlan|Bottle grip|US9499315B1|2014-07-03|2016-11-22|Tot Years LLC|Bottle with storable flexible spout|

US9469439B1|2014-12-15|2016-10-18|Francesco Polsinelli|Beverage bottle holder|

USD839676S1|2015-08-31|2019-02-05|Yeti Coolers, Llc|Cup|

USD839677S1|2015-08-31|2019-02-05|Yeti Coolers, Llc|Cup|

US10034580B2|2015-10-05|2018-07-31|Yeti Coolers, Llc|Container and handle and method of forming a container and handle|

WO2017209764A1|2016-06-03|2017-12-07|Shock Doctor, Inc.|Hand-carried hydration bladder|

USD839049S1|2016-06-22|2019-01-29|Yeti Coolers, Llc|Cup|

USD842038S1|2016-06-22|2019-03-05|Yeti Coolers, Llc|Cup|

USD882343S1|2017-03-17|2020-04-28|Yeti Coolers, Llc|Cup|

USD899862S1|2017-12-08|2020-10-27|Yeti Coolers, Llc|Cup|

USD909818S1|2018-08-03|2021-02-09|Yeti Coolers, Llc|Mug|

USD911779S1|2018-08-03|2021-03-02|Yeti Coolers, Llc|Mug|

USD934633S1|2018-11-08|2021-11-02|Yeti Coolers, Llc|Cup|

USD935278S1|2018-11-09|2021-11-09|Yeti Coolers, Llc|Cup|

US10870515B2|2019-04-26|2020-12-22|Joseph Pearce|Container sleeve system|

法律状态:
2014-12-02| B03A| Publication of a patent application or of a certificate of addition of invention [chapter 3.1 patent gazette]|

2018-12-04| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2019-10-22| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2020-07-07| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2020-11-24| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 21/01/2013, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

JP2012009259A|JP6037618B2|2012-01-19|2012-01-19|Handle for plastic bottle|

JP2012-009259|2012-01-19|

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