CN219629131U - Push-and-pull laminate structure of goods shelf - Google Patents

Abstract

A plurality of groups of laminates are arranged on the goods shelf, each group of laminates respectively comprises hanging plates positioned on the left side and the right side and a laminate panel positioned between the two hanging plates, the hanging plates are fixed on the goods shelf, guide rail assemblies are connected between the two sides of the laminate panel and the hanging plates, the laminate panel can be matched between the two hanging plates in a push-pull mode through the guide rail assemblies, at least one positioning assembly is arranged in the bottom surface of the laminate panel, the positioning assembly comprises at least one clamping tongue protruding towards the direction of the hanging plates and a control assembly capable of controlling the clamping tongue to pop out or retract, a plurality of positioning openings are formed in the hanging plates, the laminate panel is pushed and pulled back when the clamping tongue retracts, and the laminate panel is clamped into the positioning openings to be positioned when the clamping tongue protrudes. The utility model can enable each layer plate on the goods shelf to realize front-back push-pull and back positioning, is convenient for loading and managing goods, and can improve the utilization rate of the unit volume of the goods shelf.

Description

Push-and-pull laminate structure of goods shelf

Technical Field

The utility model relates to a goods shelf, in particular to a push-pull laminate structure of a goods shelf.

Background

Shelf laminates are commonly used in warehouses, supermarkets, and the like to carry goods and merchandise. The laminate of the common goods shelf is fixedly installed, and each laminate is directly installed on the upright post of the goods shelf. When goods are to be placed on the laminate of the shelf, the goods are generally required to be fully and orderly placed on the laminate, manual careful arrangement is required, a sufficient height gap is reserved between the upper laminate and the lower laminate, a certain height space is also required to be reserved under the condition of meeting the height of the goods, a salesperson can conveniently extend into the inner side of the laminate to arrange the shelf in the later stage, and the inner end space of the rear side of the laminate can not be utilized due to the limitation of operation. The design can make the plywood quantity that can install on a goods shelves limited, extravagant plywood's space, and still lead to the product that has now on the plywood to drop easily in the tally operation process.

Therefore, the present designer is designed to solve many defects and inconveniences caused by the imperfection of the laminate structure design of the existing shelf, and is designed by actively researching and improving trial work.

Disclosure of Invention

The utility model aims to provide a push-pull laminate structure of a goods shelf, which can enable all laminates on the goods shelf to realize front-back push-pull and back positioning, is convenient for loading and managing goods, and can improve the utilization rate of unit volume of the goods shelf.

In order to achieve the above object, the solution of the present utility model is:

a plurality of groups of laminates are arranged on the goods shelf, each group of laminates respectively comprises hanging plates positioned on the left side and the right side and a laminate panel positioned between the two hanging plates, the hanging plates are fixed on the goods shelf, guide rail assemblies are connected between the two sides of the laminate panel and the hanging plates, the laminate panel can be matched between the two hanging plates in a push-pull mode through the guide rail assemblies, at least one positioning assembly is arranged in the bottom surface of the laminate panel, the positioning assembly comprises at least one clamping tongue protruding towards the direction of the hanging plates and a control assembly capable of controlling the clamping tongue to pop out or retract, a plurality of positioning openings are formed in the hanging plates, the laminate panel is pushed and pulled back when the clamping tongue retracts, and the laminate panel is clamped into the positioning openings to be positioned when the clamping tongue protrudes.

Further, a plurality of locating openings are formed inwards along the length direction in the top of each hanging plate, each locating component comprises two clamping tongues, each clamping tongue is located at two sides of the bottom surface of the laminate panel, each control component comprises a first force guiding steel rope connected between the two clamping tongues and a second force guiding steel rope capable of outwards pulling the first force guiding steel rope, the inner end of each second force guiding steel rope is connected to the middle of each first force guiding steel rope, and the outwards pulled second force guiding steel rope drives the clamping tongues located at two ends of each first force guiding steel lock to inwards retract.

Further, the clamping tongue comprises a positioning plug which can be inserted into the positioning opening and is arranged at the front end of a clamping block in a protruding mode, two lock covers are further arranged on the bottom surface of the laminate panel and cover the clamping block respectively, a positioning column is arranged on the top of the positioning block in a protruding mode, a positioning strip hole is formed in the lock cover corresponding to the positioning column, and the positioning column penetrates through the positioning strip hole to be limited to linearly move a distance in the positioning strip hole.

Further, the rear end of the clamping block is provided with two parallel guide posts backwards, springs are sleeved on the guide posts respectively, the springs are pressed against the lock cover, the positioning block is stretched outwards through the first force-guiding steel rope and then compresses the springs, and the positioning block is ejected outwards after the first force-guiding steel rope is loosened.

Further, a handle is arranged at the end part of the free end of the second force-guiding steel rope, a supporting block is arranged on the bottom surface of the laminate panel and positioned at the front end of the handle, and the tail end of the second force-guiding steel rope penetrates through the supporting block and then is connected with the handle.

Further, the bottom surface of the laminate panel is provided with a plurality of reinforcing ribs, and the first force-guiding steel cable or the second force-guiding steel cable passes through the corresponding reinforcing ribs.

Further, a plurality of separation blades are arranged on the top surface of the hanging plate in an inward protruding mode, the separation blades are located below the laminate panel, and a locating opening is formed at the separation position between the separation blades.

Further, the laminate panel both sides downwardly extending is equipped with the side joint face, and guide rail assembly is three section type slide rail, and three section type slide rail includes fixed rail, middle slide rail and movable slide rail, and the fixed rail is adorned admittedly on the link plate medial surface, and middle slide rail sets up between fixed rail and movable slide rail as bearing rail, and movable slide rail connects respectively on the side joint face.

Further, protruding blocking edges are respectively arranged in the front edge and the rear edge of the laminate panel.

Further, at least one connecting beam rod is connected between the two hanging plates and is positioned below the laminate panel.

After the structure is adopted, the laminate can be positioned at different positions according to the needs in the process of tallying, has a positioning function in different pulling states, and can be convenient for cargo loading and tallying operation. Meanwhile, in the commodity loading and sorting process, a certain operation space is not required to be reserved and is not influenced by other spaces, so that the distance between the laminates can be reduced (only slightly larger than the commodity), the selling quantity of the commodity can be increased, and the utilization rate of the unit volume of the goods shelf is improved.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of the bottom view (back side shown) of the present utility model;

FIG. 3 is a schematic perspective view (push-pull state) of the present utility model;

FIG. 4 is a schematic view (back) of the structure of the present utility model in a push-pull state;

FIG. 5 is an enlarged view of a portion of FIG. 4 at A;

FIG. 6 is an exploded view of the present utility model;

FIG. 7 is an exploded view of the positioning assembly of the present utility model (showing the tongue, the first and second force-guiding cables).

Detailed Description

In order to further explain the technical scheme of the utility model, the utility model is explained in detail by specific examples.

The utility model discloses a push-pull laminate structure of a shelf, wherein a plurality of groups of laminates (not shown in the figure) are arranged on the shelf, and each group of laminates respectively comprises hanging plates 1 positioned on the left side and the right side and laminate panels 2 positioned between the two hanging plates 1 as shown in figure 1. The goods shelf can be formed by enclosing and installing four upright posts or a back plate, a plurality of groups of hanging plates are arranged on the goods shelf to install the multilayer laminate, and every two hanging plates 1 are respectively fixed on the goods shelf. Meanwhile, at least one connecting beam rod 3 can be connected between the two hanging plates 1, and the beam rod 3 is positioned below the laminate panel 2 without influencing the push-pull movement of the laminate panel 2, as shown in fig. 4, the utility model is provided with two connecting beam rods 3.

In the present utility model, as shown in fig. 1 to 3 and fig. 6, in order to enable the movable push-pull of the laminate on the shelf, a guide rail assembly 4 is connected between two sides of the laminate panel 2 and the hanging plates 1, and the laminate panel 2 is in push-pull fit between the two hanging plates 1 through the guide rail assembly 4. The side connecting surfaces 21 which can be arranged on two sides of the laminate panel 2 in a downward extending mode can be provided with three sections of sliding rails, the sliding rail assemblies 4 can be drawer-type sliding rails, the three sections of sliding rails comprise fixed rails 41, middle sliding rails (not shown in the drawing) and movable sliding rails 42, when the movable sliding rail is used, the fixed rails 41 are fixedly arranged on the inner side surfaces of the hanging plate 1, the middle sliding rails are used as bearing rails and are arranged between the fixed rails and the movable sliding rails 42, and the movable sliding rails 42 are respectively connected to the side connecting surfaces 21, so that the laminate panel 2 is driven to slide through the movable sliding rails 42. Protruding blocking edges 22 are respectively arranged in the front edge and the rear edge of the laminate panel 2 and used for blocking commodities placed on the laminate panel 2 from sliding outwards.

Further, as shown in fig. 1 to 7, in order to enable the pushed and pulled laminate to be positioned after being pushed and pulled out, so as to facilitate the handling operation, at least one positioning component is disposed in the bottom surface of the laminate panel 2, the positioning component includes at least one latch 51 protruding toward the hanging plate direction and a control component capable of controlling the latch to pop up or retract, meanwhile, a plurality of positioning openings 11 are disposed on the hanging plate 1, the laminate panel 2 can be pushed and pulled back and forth when the latch 51 retracts, and is clamped into the positioning openings 11 for positioning when the latch 51 protrudes. Specifically, in this embodiment, a plurality of positioning openings 11 are formed inward along the length direction in the top of each hanging plate 1, as shown in fig. 3 and 6, a plurality of baffle plates 12 are disposed at intervals on the top surface of the hanging plate 1 in an inward protruding manner, the baffle plates 12 are located below the laminate panel 2, and the positioning openings 11 can be formed at intervals between the baffle plates 12 and the baffle plates 12.

Referring to fig. 2, 4, 6 and 7, in this embodiment, two hanging boards 1 are provided with positioning openings 11, the positioning assembly includes two clamping tongues 51, the clamping tongues 51 are respectively located at two sides of the bottom surface of the laminate panel 2, the control assembly includes a first force guiding cable 61 connected between the two clamping tongues 51, and a second force guiding cable 62 capable of pulling the first force guiding cable outwards, the inner end of the second force guiding cable 62 is connected to the middle part of the first force guiding cable, the second force guiding cable 62 pulled outwards can directly drive the clamping tongues 51 located at two ends of the first force guiding steel lock 61 to retract inwards, and the clamping tongues 51 realize extension through the pulling action of the first force guiding cable 61. The locking tongue 51 may include a positioning plug 512 protruding from the front end of a locking block 511 and capable of being inserted into the positioning opening 11, two locking covers 53 are further provided on the bottom surface of the laminate panel 2 and cover the locking blocks 51 respectively, a positioning post 54 protruding from the top of the positioning block 51 is provided on the locking cover 53, a positioning bar hole 531 is provided on the locking cover 53 corresponding to the positioning post 54, and the positioning post 54 is penetrated from the positioning bar hole 531 and limited to move a distance in the positioning bar hole 531, so as to cooperate to drive the positioning plug 512 in the locking tongue 51 to extend or retract outwards. For convenient operation, two parallel guide posts 513 are arranged at the rear end of the clamping block 511 in a backward direction, springs 514 are sleeved on the guide posts 513 respectively, the outer ends of the guide posts 513 can penetrate out of the side surfaces of the lock cover 53, the outer ends of the springs 514 are propped in the side surfaces of the lock cover, the springs 514 are propped in the lock cover 53, the positioning block 511 can compress the springs after being stretched outwards by the first force-guiding steel cable 61, the clamping tongues 51 are driven to retract at the moment, and when the outwards stretching force is released, the positioning block 511 can pop outwards after the first force-guiding steel cable 61 is loosened, so that the clamping tongues 51 extend to form positioning.

Meanwhile, a handle 63 may be provided at the end of the free end of the second force-guiding wire rope 62 to facilitate the pulling operation of the tally clerk from the bottom surface of the deck panel 2. The bottom surface of the laminate panel 2 can be further provided with a supporting block 64 positioned at the front end of the handle 63, and the tail end of the second force-guiding steel cable 62 penetrates through the supporting block 64 and then is connected with the handle 63, so that the handle 63 can be supported and positioned on the bottom surface of the laminate panel 2 to be pulled out when the use is convenient. A plurality of reinforcing ribs 23 may be provided on the bottom surface of the laminate panel 2, and the first force-guiding steel cable 61 or the second force-guiding steel cable 62 may pass through the corresponding reinforcing ribs 23 to support and guide the first force-guiding steel cable or the second force-guiding steel cable 62.

When the utility model is used, when the laminate panel 2 is required to be pushed out, only the second force-guiding steel rope 62 is required to be pulled outwards, the second force-guiding steel rope 62 pulls the first force-guiding steel rope 61 outwards, the two ends of the first force-guiding steel rope 61 are pulled inwards by the middle part and drive the clamping tongue 51 to shrink inwards, the positioning plug 512 in the clamping tongue 51 slides out of the positioning opening 11 and then releases the positioning, the laminate panel 2 can be pushed out outwards, and when the laminate panel is pushed to a required position, the clamping tongue 51 can be ejected and positioned to the corresponding positioning opening 11 to be positioned by loosening the second force-guiding steel rope 62, so that the push-pull positioning of the laminate panel 2 is realized. The utility model can push out the laminate panels, can place commodities at the unaffected positions of other laminates, and then push in the laminate panels.

After adopting above-mentioned structure, in actual tally in-process, the plywood can carry out the location of different positions as required, and the plywood has the locate function in different pull-open states, can conveniently go up goods and tally operation. Meanwhile, in the commodity loading and sorting process, a certain operation space is not required to be reserved and is not influenced by other spaces, so that the distance between the laminates can be reduced (only slightly larger than the commodity), the selling quantity of the commodity can be increased, and the utilization rate of the unit volume of the goods shelf is improved.

The above examples and drawings are not intended to limit the form or form of the present utility model, and any suitable variations or modifications thereof by those skilled in the art should be construed as not departing from the scope of the present utility model.

Claims (10)

1. A push-and-pull laminate structure of goods shelves installs multiunit plywood, its characterized in that on the goods shelves: each group of laminate respectively comprises hanging plates positioned on the left side and the right side and a laminate panel positioned between the two hanging plates, wherein the hanging plates are fixed on a goods shelf, guide rail assemblies are connected between the two sides of the laminate panel and the hanging plates, the laminate panel can be matched between the two hanging plates in a pushing and pulling way through the guide rail assemblies, at least one positioning assembly is arranged in the bottom surface of the laminate panel, the positioning assembly comprises at least one clamping tongue protruding towards the direction of the hanging plates and a control assembly capable of controlling the clamping tongue to pop out or retract, a plurality of positioning openings are formed in the hanging plates, the laminate panel is pushed and pulled back and forth when the clamping tongue retracts, and the laminate panel is clamped into the positioning openings to be positioned when the clamping tongue protrudes.

2. A push-pull laminate structure for a shelf as defined in claim 1, wherein: the top of each hanging plate is internally provided with a plurality of positioning openings along the length direction, each positioning assembly comprises two clamping tongues, each clamping tongue is respectively positioned at two sides of the bottom surface of the laminate panel, each control assembly comprises a first force guiding steel rope connected between the two clamping tongues and a second force guiding steel rope capable of outwards pulling the first force guiding steel rope, the inner end of each second force guiding steel rope is connected to the middle part of each first force guiding steel rope, and the outwards pulled second force guiding steel rope drives the clamping tongues positioned at two ends of each first force guiding steel lock to inwards retract.

3. A push-pull laminate structure for a shelf as defined in claim 2, wherein: the clamping tongue comprises a positioning plug which can be inserted into a positioning opening and is arranged at the front end of a clamping block in a protruding mode, two lock covers are further arranged on the bottom surface of the laminate panel and are respectively covered above the clamping block, a positioning column is arranged on the top of each positioning block in a protruding mode, a positioning strip hole is formed in each lock cover in a corresponding positioning column, and the positioning columns penetrate through the positioning strip holes to be limited to linearly move in the corresponding positioning strip holes for a distance.

4. A push-pull laminate structure for a shelf as defined in claim 3, wherein: the rear end of the clamping block is provided with two parallel guide posts backwards, the guide posts are respectively sleeved with springs, the springs are pressed against the lock cover, the positioning block is stretched outwards through the first force-guiding steel cable and then compresses the springs, and the positioning block is outwards ejected after the first force-guiding steel cable is released.

5. A push-pull laminate structure for a shelf as defined in claim 2, wherein: the end of the free end of the second force-guiding steel cable is provided with a handle, the bottom surface of the laminate panel is provided with a supporting block positioned at the front end of the handle, and the tail end of the second force-guiding steel cable passes through the supporting block and then is connected with the handle.

6. A push-pull laminate structure for a shelf as defined in claim 2 or 5, wherein: the bottom surface of the laminate panel is provided with a plurality of reinforcing ribs, and the first force-guiding steel rope or the second force-guiding steel rope passes through the corresponding reinforcing ribs.

7. A push-pull laminate structure for a pallet according to any one of claims 1 to 3, wherein: the top surface of the hanging plate is internally provided with a plurality of baffle plates arranged at intervals in a protruding way, the baffle plates are positioned below the laminate panel, and a positioning opening is formed at the interval between the baffle plates.

8. A push-pull laminate structure for a shelf as defined in claim 1, wherein: the laminate panel both sides downwardly extending is equipped with the side joint face, and guide rail assembly is three section slide rail, and three section slide rail includes fixed rail, middle slide rail and movable slide rail, and the fixed rail is adorned admittedly on the link plate medial surface, and middle slide rail sets up between fixed rail and movable slide rail as bearing rail, and movable slide rail connects respectively on the side joint face.

9. A push-pull laminate structure for a shelf as defined in claim 1, wherein: raised blocking edges are respectively arranged in the front edge and the rear edge of the laminate panel.

10. A push-pull laminate structure for a shelf as defined in claim 1, wherein: at least one connecting beam rod is connected between the two hanging plates and is positioned below the laminate panel.