CN215157980U - Container - Google Patents

Abstract

The embodiment of the application discloses a container, includes: the storage cabinet comprises a cabinet body, wherein a plurality of storage positions are arranged on the cabinet body, a plurality of through holes are formed in the cabinet body, and each through hole is communicated with each storage position; the pushing device is arranged on the back of the cabinet body, and when the pushing device corresponds to one goods storage position, the pushing device enters the goods storage position through a through hole communicated with the goods storage position to push out goods in the goods storage position; and the driving device is arranged on the cabinet body and connected with the push-out device, and the push-out device is driven by the push-out device to move left and right so as to selectively correspond to any one storage position. The embodiment of the application enables the cargo container to be discharged from any cargo storage position under the condition that only one pushing device is arranged in the cargo container through the arrangement of the pushing device and the driving device, and the cost of the cargo container is reduced. Through the setting of through-hole, reduced ejecting device's volume, practice thrift space and cost.

Description

Container

Technical Field

The application relates to goods access field, concretely relates to packing cupboard.

Background

In the prior art, a container generally has a plurality of channels for storing goods, a goods discharging device is arranged in each channel, and after a user selects goods in one channel, a control module controls the goods discharging device in the appointed channel to work, push out the goods in the channel, and take out the goods by the user.

In the process of research and practice on the prior art, the inventor of the application finds that the utilization rate of the delivery device is low, and the delivery device is arranged in each cargo channel, so that the cost of the container is high. The size of the delivery device generally corresponds to the size of the channel, and when pushing a large or long and narrow article such as a picture frame, the delivery device will have an excessively large size, which also causes a problem of high cost.

Disclosure of Invention

The embodiment of the application provides a container, which is only provided with one goods discharging device, and the goods discharging device realizes the pushing out of the goods at each goods discharging and storing position through switching the position; the problem of the large size of the goods delivery device facing large or long and narrow goods is solved.

The embodiment of the application provides a container, includes: the storage cabinet comprises a cabinet body, a plurality of goods storage positions are arranged on the cabinet body, a plurality of through holes are formed in the cabinet body, and each through hole is communicated with each goods storage position;

the pushing device is arranged on the back of the cabinet body, and when the pushing device corresponds to one goods storage position, the pushing device enters the goods storage position through a through hole communicated with the goods storage position to push out goods in the goods storage position; the driving device is arranged on the back of the cabinet body and connected with the push-out device, and the push-out device is driven by the driving device to move left and right so as to selectively correspond to any one storage position. Optionally, in some embodiments of the present application, the cabinet body has a panel and a back plate opposite to the panel, the push-out device and the driving device are both disposed on the back plate, the through hole is disposed on the back plate, and the through hole is located at the goods storage position near one side of the driving device.

Alternatively, in some embodiments of the present application, each of the cargo spaces is arranged along a first axis, and the driving device is configured to drive the pushing device to move in the direction of the first axis.

Optionally, in some embodiments of the present application, each of the storage spaces includes: the cargo storage device comprises a plurality of first cargo storage positions and a plurality of second cargo storage positions, wherein each first cargo storage position and each second cargo storage position are arranged along a first axis;

the ejector device includes: the pushing device comprises a first pushing part and a second pushing part, wherein when the first pushing part corresponds to a first goods storage position, the second pushing part corresponds to a second goods storage position; the first pushing-out piece is used for pushing out the goods in the corresponding first goods storage position, and the second pushing-out piece is used for pushing out the goods in the corresponding second goods storage position.

Optionally, in some embodiments of the present application, the driving device includes: the pushing device is connected to the conveying belt; the conveyor belt conveys the ejector in the direction of the first axis.

Optionally, in some embodiments of the present application, the pushing device further includes: the connecting piece is connected with the first pushing piece and the second pushing piece, the connecting piece is fixedly connected with the transmission belt, and the transmission belt drives the first pushing piece and the second pushing piece to move through the connecting piece.

Optionally, in some embodiments of the present application, at least one sliding rail is disposed on the cabinet body, the sliding rail is disposed along the direction of the first axis, and a sliding block fitted to the sliding rail is disposed on the connecting member.

Optionally, in some embodiments of the present application, a sliding groove is formed in one of the sliding rail and the sliding block, a cylindrical guide rail embedded in the sliding groove is arranged on the other of the sliding rail and the sliding block, and an axis of the cylindrical guide rail is located in the sliding groove.

Optionally, in some embodiments of the present application, two sliding rails are formed on the sliding rail and are respectively disposed on two sides of the driving device, two sliding blocks on the connecting member are formed, and the two sliding blocks are respectively matched with the two sliding rails.

Optionally, in some embodiments of the present application, an interlayer is disposed in the cabinet, the interlayer separates the cabinet into an upper cabinet and a lower cabinet, the first storage location is disposed in the upper cabinet, the second storage location is disposed in the lower cabinet, two of the slide rails are disposed on the back plate, and one of the slide rails corresponds to the interlayer.

The embodiment of the application enables the cargo container to be discharged from any cargo storage position under the condition that only one pushing device is arranged in the cargo container through the arrangement of the pushing device and the driving device, and the cost of the cargo container is reduced. Through the setting of through-hole, reduced ejecting device's volume, practice thrift space and cost.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a front view of a container provided by an embodiment of the present application;

FIG. 2 is a schematic view of the back structure of a container provided by an embodiment of the present application;

FIG. 3 is a side view of a freight container provided by an embodiment of the present application;

fig. 4 is a schematic structural view of a connecting member, a transmission belt and a fixing plate according to an embodiment of the present disclosure;

fig. 5 is a half-sectional view of a slider and a slide rail provided in an embodiment of the present application.

Description of reference numerals:

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. Furthermore, it should be understood that the detailed description and specific examples, while indicating exemplary embodiments of the invention, are given by way of illustration and explanation only, and are not intended to limit the scope of the invention. In the present application, unless indicated to the contrary, the use of the directional terms "upper" and "lower" generally refer to the upper and lower positions of the device in actual use or operation, and more particularly to the orientation of the figures of the drawings; while "inner" and "outer" are with respect to the outline of the device.

The embodiment of the present application provides a container, where the container may be used to store and retrieve goods, typically, the goods stored in the container in this embodiment are picture frames, and in other embodiments, the goods stored in the container may also be other types of goods.

As shown in fig. 1 and 2, the container in the present embodiment comprises: the cabinet 100, the push-out device 200 and the driving device 300 are arranged on the back of the cabinet 100, wherein the cabinet 100 is provided with a plurality of storage positions 120, and the storage positions 120 are used for storing picture frames. The frame is the rectangle flat frame, and storage position 120 is long and narrow setting, makes the frame get into, makes occupation space as little as possible simultaneously, and the packing cupboard can be as many as storage frame. The container has intelligent access system, has host system wherein, and the user selects the stock when the storage frame, and host system can select an empty storage position 120, and generate one and get the goods sign indicating number, will get the goods sign indicating number output and give the customer to open and get the storage position 120 that the goods sign indicating number corresponds. After the user puts the picture frame into the storage space 120, the storage space 120 is closed, and the storage of the picture frame is completed. When the picture frame is taken, the user brushes the goods code, the main control module receives the goods code, the position of the goods storage position 120 corresponding to the goods code is obtained, the driving device 300 and the pushing device 200 are controlled to work, and goods in the goods storage position 120 are pushed out for the user to take away.

As shown in fig. 1, the cabinet 100 has an upper plate 170 and a lower plate 180 therein, and a plurality of partitions 190, the partitions 190 dividing the space inside the cabinet 100 into a plurality of cargo spaces 120. Specifically, each partition 190 includes: an upper partition portion 191 provided on the upper plate 170, and a lower partition portion 192 provided on the lower plate 180, the upper partition portion 191 and the lower partition portion 192 corresponding to each other and being spaced apart from each other by a certain distance. The arrangement of the partition 190 into the upper partition portion 191 and the lower partition portion 192 saves the consumption of the material of the partition 190 and the cost. The upper partition part 191 and the lower partition part 192 can fix the top and the bottom of the picture frame, and the complete fixation of the picture frame can be realized.

As shown in fig. 1 and fig. 2, the storage locations 120 in the embodiment are arranged along the first axis OO ', in some embodiments, the storage locations may also be arranged in an array or randomly, and in this embodiment, the arrangement of the storage locations 120 along the first axis OO' is only used for illustration and is not limited in particular. In the present embodiment, the first axis OO ' is horizontally disposed, and in other embodiments, the first axis OO ' may also be vertically disposed or disposed along other directions, and in the present embodiment, only the first axis OO ' is horizontally disposed, for example, the length direction of the storage positions 120 is vertically disposed, and the storage positions 120 are stacked along the width direction, so that the space of the cabinet 100 is maximally utilized. The pushing-out device 200 is used for pushing out the goods in the storage spaces 120, and the driving device 300 is connected with the pushing-out device 200 and is used for driving the pushing-out device 200 to move in the direction of the first axis OO', so that the pushing-out device 200 can correspond to any one of the storage spaces 120. When the user takes the picture frame, the main control module determines the target storage location 120 by recognizing the pickup code, and then controls the driving device 300 to drive the pushing device 200 to move left and right, in this embodiment, to move along the first axis OO', so that the pushing device 200 corresponds to the target storage location 120. After the pushing device 200 corresponds to the target goods storage space 120, the main control module controls the pushing device 200 to push the goods in the goods storage space 120 out. The arrangement of the pushing-out device 200 and the driving device 300 can lead the goods to be delivered to any one goods storage space 120 under the condition that only one pushing-out device 200 is arranged in the container, thereby reducing the cost of the container. On the other hand, the storage position 120 is long and narrow, the cross section of the pushing-out device 200 does not need to coincide with the cross section of the storage position 120, and the whole side of the picture frame in the storage position 120 is pushed, in this embodiment, the cabinet body 100 is provided with a plurality of through holes 111, the through holes 111 are located on one side of the cabinet body 100 close to the pushing-out device 200, each through hole 111 is respectively communicated with each storage position 120, so that only part of one side of the storage position 120 close to the pushing-out device 200 is exposed through the through holes 111, and the pushing-out device 200 corresponding to the storage position 120 can push the goods in the storage position 120 through the through holes 111. The overall movement of the picture frame can be realized by pushing a part of the picture frame, and when the picture frame moves in the storage position 120, the picture frame is limited by the upper partition plate portion 191 and the lower partition plate portion 192, so that the situation of deviation or overturning and the like cannot occur, and the picture frame is pushed by the push-out device 200. The arrangement of the through hole 111 enables the volume of the ejector 200 to be designed smaller, further reducing the cost of the ejector 200.

As shown in fig. 1 to 3, the cabinet 100 has a front panel 102 and a back panel 101, the back panel 101 is located on the back of the cabinet 100, the front panel 102 is opposite to the back panel 101, the front panel 102 is used for a user to access a picture frame, and the back panel 101 is located on the back of the cabinet 100 and can be disposed against a wall without being observed by the user. The pushing-out device 200 and the driving device 300 are both arranged on the back plate 101, and when pushing the goods in the goods storage space 120, the pushing-out device 200 pushes the picture frame towards the panel 102 from the direction of the back plate 101, so that part of the picture frame is pushed out of the goods storage space 120 for a user to take out. The through hole 111 is opened on the back plate 101, so that the pushing device 200 on the back plate 101 can push the picture frame toward the panel 102 through the through hole 111. Further, the through hole 111 is opened at a side of the cargo space 120 close to the driving device 300, and the through hole 111 is close to the driving device 300, which means that the distance between the pushing-out device 200 corresponding to the through hole 111 and the driving device 300 is relatively small, so that the moving stability and the connection stability of the pushing-out device 200 can be ensured.

In one embodiment, each storage bay 120 includes: a plurality of first cargo storage spaces 121 and a plurality of second cargo storage spaces 122, wherein each first cargo storage space 121 is arranged along a first axis OO ', each second cargo storage space 122 is also arranged along the first axis OO', and the first cargo storage spaces 121 and the second cargo storage spaces 122 are arranged in parallel side by side; the first goods storage space 121 and the second goods storage space 122 can be the same in number or different in number, the first goods storage space 121 and the second goods storage space 122 are used for storing picture frames, and the first goods storage space 121 and the second goods storage space 122 can be the same in shape and store the same type of picture frames; the first storage space 121 and the second storage space 122 may also have different shapes for storing frames with different sizes, and both the first storage space 121 and the second storage space 122 are communicated with the corresponding through holes 111. The first cargo storage space 121 and the second cargo storage space 122 may be disposed vertically, or disposed horizontally, or disposed in parallel in an oblique direction.

Correspondingly, the ejector 200 comprises: the first ejector 210 and the second ejector 220, and the first ejector 210 and the second ejector 220 are both connected to the driving device 300, and when the driving device 300 works, the first ejector 210 and the second ejector 220 move together. When the driving device 300 operates to drive the pushing device 200 to move, the first pushing element 210 may correspond to any one of the first storage locations 121, and when the first storage location 121 corresponds to the first storage location 121, the second pushing element 220 also corresponds to one of the second storage locations 122. That is, the pushing device 200 may correspond to any one of the storage spaces 120, and push out the picture frame in any one of the storage spaces 120. Specifically, the first pushing-out element 210 and the second pushing-out element 220 are electromagnetic pushing-out elements and are electrically connected to the main control module, and the main control module can control the first pushing-out element 210 and the second pushing-out element 220 to work respectively to push out a picture frame in the first storage space 121 or a picture frame in the second storage space 122. The arrangement of the two rows of storage positions 120 and the two pushing pieces improves the working efficiency of the pushing pieces reaching the positions of the designated storage positions 120, improves the utilization rate of the space of the cabinet body 100, and avoids the problems of overlong size of the cabinet body 100 and the like.

The driving device 300 includes: a motor 310 and a conveyor belt 320 driven by the electrodes, wherein the conveying direction of the conveyor belt 320 is the direction of the first axis OO ', and the push-out device 200 is conveyed along the direction of the first axis OO'. The pushing device 200 is connected to the conveyor 320, and can move in the direction of the first axis OO' by the conveyor 320, so as to correspond to any one of the storage spaces 120. In addition, the ejector 200 further includes: a connecting member 230 connected to the first and second ejectors 210 and 220, the connecting member 230 being connected between the first and second ejectors 210 and 220, in particular, the first ejector 210 being located above the connecting member 230 and the second ejector 220 being located below the connecting member 230. The transmission belt 320 is located between the first ejection member 210 and the second ejection member 220, the connection member 230 is fixedly connected to the transmission belt 320, and when the transmission belt 320 moves, the connection member 230 can drive the first ejection member 210 and the second ejection member 220 to move together. Specifically, as shown in fig. 4, the connecting member 230 is a plate body, the width of the connecting member 230 is greater than or equal to the width of the transmission belt 320, the fixing plate 240 is disposed on the connecting member 230, and the fixing plate 240 presses the transmission belt 320 onto the connecting member 230 and fixes the transmission belt 320 and the connecting member 230, so as to fix the transmission belt 320 and the connecting member 230. In this embodiment, the transmission belt 320 has a plurality of teeth, and the fixing plate 240 has a plurality of engaging teeth 241 on a side facing the connecting member 230, so that when the fixing plate 240 presses the transmission belt 320 onto the connecting member 230, the engaging teeth 241 on the fixing plate 240 engage with the teeth on the transmission belt 320, thereby further enhancing the engaging stability with the transmission belt 320 and avoiding the slipping of the transmission belt 320.

The motor 310 is a stepping motor, and the stepping motor can control the moving distance of the conveying belt 320 and the conveying direction of the conveying belt 320. The stepping motor can stably correspond the push-out device 200 to the designated storage location 120 by controlling the moving distance of the conveyor belt 320. The push-out device 200 can be returned to the original position by controlling the forward and backward movement of the conveyor 320, and the designated storage location 120 is selected again and moved to the corresponding position when the next goods is taken.

It should be noted that, as shown in fig. 1 to 3, the cabinet 100 is further provided with a slide rail 130, the slide rail 130 is disposed along the first axis OO' and has the same moving direction as the pushing-out device 200, the connecting member 230 is provided with a slider 231 engaged with the slide rail 130, so that the pushing-out device 200 is slidably connected with the slide rail 130, and the slide rail 130 is disposed to limit the sliding direction of the pushing-out device 200, thereby ensuring the moving stability of the pushing-out device 200 and avoiding the situation that the pushing member and the storage location 120 are staggered from each other. In this embodiment, two slide rails 130 are formed and are respectively disposed on the upper and lower sides of the driving device 300, and two sliding blocks 231 are disposed on the connecting member 230 and respectively engaged with the two sliding grooves 2311.

As shown in fig. 5, one of the slide rail 130 and the slide block 231 is provided with a slide groove 2311, and the other is provided with a cylindrical guide rail 131 embedded in the slide groove 2311, wherein the axis of the cylindrical guide rail 131 is located in the slide groove 2311. In this embodiment, the sliding groove 2311 is formed in the sliding block 231, the cylindrical guide rail 131 is arranged on the sliding rail 130, the cross section of the sliding groove 2311 is a circular shape with an opening, the cylindrical guide rail 131 is embedded into the sliding groove 2311, the axis of the cylindrical guide rail 131 is located in the sliding groove 2311, most of the cylindrical guide rail 131 enters the sliding groove 2311, the outer wall of the cylindrical guide rail 131 is clamped with the inner wall of the sliding groove 2311, the cylindrical guide rail 131 cannot be separated from the sliding groove 2311 in the radial direction, and the stability of sliding connection is ensured. The axis of the cylindrical rail 131 is parallel to or coincident with the axis of the sliding slot 2311, and both are parallel to the first axis OO ', so that the sliding slot 2311 and the cylindrical rail 131 can slide along the direction of the first axis OO ', the sliding between the sliding rail 130 and the sliding block 231 is completed, and the connecting member 230 and the sliding rail 130 can slide relatively in the direction of the first axis OO '. Of course, the positions of the sliding groove 2311 and the cylindrical rail 131 can be interchanged, and the embodiment is not particularly limited.

Referring to fig. 1 and 3, a partition 140 is further disposed in the cabinet 100, the partition 140 divides the cabinet 100 into an upper cabinet 150 and a lower cabinet 160, wherein the first cargo storage space 121 is disposed in the upper cabinet 150, and the second cargo storage space 122 is disposed in the lower cabinet 160. The user may also choose to store the picture frame in the upper cabinet 150 or the lower cabinet 160 for easy access. The upper cabinet 150 and the lower cabinet 160 each have therein: an upper plate 170, a lower plate 180, and a plurality of spacers 190. The upper storage space 120 is formed between the adjacent partitions 190 of the upper cabinet 150, and the lower storage space 120 is formed between the adjacent partitions 190 of the lower cabinet 160. The solid arrangement of the cabinet body 100 is avoided by the arrangement of the interlayer 140, so that the cost of the cabinet body 100 is reduced on the one hand, and the wiring of an internal circuit is facilitated on the other hand. Two slide rails 130 are disposed on the back plate 101, wherein one slide rail 130 is disposed corresponding to the partition 140.

The following describes an example of the container pickup process, where the number of upper storage positions 120 is 45 and the number of lower storage positions 120 is 55, and the numbers are 1-100 if shown in fig. 1 and 2. When a customer takes goods, the main control module identifies the goods taking code and determines the number of the target goods storage position 120, if the number of the target goods storage position 120 is 40, the main control module drives the motor 310, the motor 310 drives the push-out device 200 to move through the transmission belt 320, the upper push part is opposite to the upper goods storage position 120 with the number of 40, and the lower push part is opposite to the lower goods storage position 120 with the number of 95. The main control module controls the upper pushing piece to work, and the upper pushing piece pushes out the picture frame in the upper storage position 120 with the serial number of 40 through the through hole 111. After the user takes the picture frame, the main control module controls the motor 310 to operate, and drives the pushing device 200 to return to the initial position. If the number of the target storage location 120 is 62, the main control module drives the motor 310, the motor 310 drives the push-out device 200 to move through the transmission belt 320, until the lower push member is opposite to the lower storage location 120 with the number of 62, and at this time, the upper push member is opposite to the upper storage location 120 with the number of 17, the main control module controls the lower push member to work, the lower push member pushes out the picture frame in the lower storage location 120 with the number of 62, and after the user takes the picture frame away, the main control module controls the motor 310 to work, and drives the push-out device 200 to return to the initial position.

According to the container, due to the arrangement of the pushing-out device 200 and the driving device 300, goods can be delivered to any one goods storage space 120 under the condition that only one pushing-out device 200 is arranged in the container, so that the cost of the container is reduced; through the arrangement of the through hole 111, the volume of the push-out device 200 is reduced, and the space and the cost are saved; by arranging the two rows of the goods storage positions 120, the goods storage positions 120 with different sizes and types can be stored, so that the space and the storage diversity are saved; the movement of the push-out device 200 is more stable by the arrangement of the slide rail 130.

The above detailed description is provided for a container provided in the embodiments of the present application, and the principle and the implementation of the present application are explained in the present application by applying specific examples, and the description of the above embodiments is only used to help understanding the method and the core idea of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. A freight container, comprising:

the storage cabinet comprises a cabinet body, a plurality of goods storage positions are arranged on the cabinet body, a plurality of through holes are formed in the cabinet body, and each through hole is communicated with each goods storage position;

the pushing device is arranged on the back of the cabinet body, and when the pushing device corresponds to one goods storage position, the pushing device enters the goods storage position through a through hole communicated with the goods storage position to push out goods in the goods storage position;

the driving device is arranged on the back of the cabinet body and connected with the push-out device, and the push-out device is driven by the driving device to move left and right so as to selectively correspond to any one storage position.

2. The freight container of claim 1, where the cabinet body has a face plate and a back plate opposite to the face plate, the pushing device and the driving device are both disposed on the back plate, the through hole is disposed on the back plate, and the through hole is located on a side of the storage location near the driving device.

3. A tank as claimed in claim 1, in which each of the storage spaces is arranged in a first axis, the drive means being arranged to drive the push-out means in the direction of the first axis.

4. The freight container of claim 2, where each of the storage bays comprises: the cargo storage device comprises a plurality of first cargo storage positions and a plurality of second cargo storage positions, wherein each first cargo storage position and each second cargo storage position are arranged along a first axis;

the ejector device includes: the pushing device comprises a first pushing part and a second pushing part, wherein when the first pushing part corresponds to a first goods storage position, the second pushing part corresponds to a second goods storage position; the first pushing-out piece is used for pushing out the goods in the corresponding first goods storage position, and the second pushing-out piece is used for pushing out the goods in the corresponding second goods storage position.

5. A tank as claimed in claim 4, in which the drive means comprises: the pushing device is connected to the conveying belt; the conveyor belt conveys the ejector in the direction of the first axis.

6. The freight container of claim 5, where the push-out apparatus further comprises: the connecting piece is connected with the first pushing piece and the second pushing piece, the connecting piece is fixedly connected with the transmission belt, and the transmission belt drives the first pushing piece and the second pushing piece to move through the connecting piece.

7. The freight container of claim 6, where the body of the freight container has at least one rail disposed thereon, the rail being disposed along the direction of the first axis, and the connection member has a slider engaged with the rail.

8. The freight container of claim 7, wherein one of the slide rail and the slide block is provided with a slide groove, and the other is provided with a cylindrical guide rail embedded in the slide groove, and the axis of the cylindrical guide rail is located in the slide groove.

9. The freight container of claim 7, where the two slide rails are formed on two sides of the driving device, and the two slide blocks on the connecting member are formed on two sides of the driving device, and the two slide blocks are engaged with the two slide rails.

10. The freight container of claim 9, where an interlayer is disposed in the cabinet body, the interlayer separates the cabinet body into an upper cabinet body and a lower cabinet body, the first storage location is disposed in the upper cabinet body, the second storage location is disposed in the lower cabinet body, two of the slide rails are disposed on the back plate, and one of the slide rails is disposed corresponding to the interlayer.

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