CN220536608U - Storage goods shelf - Google Patents

Abstract

The utility model relates to the technical field of logistics storage equipment, in particular to a storage shelf, which comprises brackets and a plurality of storage plates arranged among the brackets, wherein sliding rail assemblies are oppositely arranged among the brackets along the up-down direction, a plurality of liftable adjusting assemblies are arranged on the sliding rail assemblies, the storage plates are arranged among the corresponding adjusting assemblies, and the adjusting assemblies are used for driving the inclination of the storage plates arranged on the storage plates. Through the setting of slide rail subassembly and adjusting part for put the thing board and install between corresponding adjusting part, relative adjusting part removes the position of putting the thing board that can adjust on slide rail subassembly, thereby can realize adjacent regulation that puts the thing board interval makes its goods that are suitable for different specifications, improves the space utilization of this storage goods shelves.

Description

Storage goods shelf

Technical Field

The utility model relates to the technical field of logistics storage equipment, in particular to a storage shelf.

Background

At present, storage shelves are devices used in the logistics industry to store goods.

The patent with the publication number of CN218578685U discloses a storage shelf, which comprises four upright posts, wherein inclined struts and flat supports are arranged on two adjacent upright posts, the storage shelf also comprises a P-type beam and hanging legs, the end parts of the P-type beam are provided with symmetrically distributed hanging legs, the hanging legs are provided with extension parts, the surfaces of the upright posts are provided with row holes for the extension parts to be inserted, the extension parts are inserted into the row holes, the P-type beam is provided with extension parts, and laminate plates are arranged on the two opposite extension parts; although the device realizes the disassembly and assembly of the hanging feet and the upright posts through the arrangement of the hanging feet, the extending parts and the row holes, thereby being beneficial to the disassembly and assembly of the P-type beam and the upright posts;

but when in actual use, the laminate is arranged on the extension part, the position of the laminate after the laminate is arranged is fixed, so that the distance between the upper and lower adjacent laminates of the storage shelf can not be adjusted, and the requirement of storing goods with different specifications and sizes can not be met, thereby reducing the utilization rate of the storage space of the storage shelf.

Disclosure of Invention

The utility model provides a storage shelf, which aims to solve the technical problems that the distance between the upper and lower adjacent laminates of the storage shelf provided in the background art can not be adjusted and the requirement of storing goods with different specifications and sizes can not be met, so that the utilization rate of the storage space of the storage shelf is reduced.

The utility model adopts the following technical scheme for realizing the purpose.

The utility model provides a storage goods shelves, includes the support and locates a plurality of thing boards of putting between the support, be equipped with slide rail assembly relatively along upper and lower direction between the support, be equipped with a plurality of liftable adjusting part on the slide rail assembly, put the thing board and install between corresponding adjusting part, adjusting part is used for driving the slope of its overhead thing board.

Preferably, the adjusting component comprises a mounting cylinder, wherein a mounting cavity with two open ends is arranged in the mounting cylinder, and blocking rings are arranged at the openings of the two ends of the mounting cavity; a rotating column penetrating through one of the two blocking rings and extending out is arranged in the mounting cavity, a clamping groove for clamping the object placing plate is formed in the end part of the rotating column extending out of the blocking ring, and a plurality of spiral inclined grooves are uniformly distributed on the side wall of the rotating column in the mounting cavity along the circumferential direction of the side wall of the rotating column; the installation cavity is internally provided with a sleeve sleeved outside the rotating column, the side wall of the installation cavity is provided with a limiting sliding groove along the length direction of the sleeve, a limiting sliding block which slides in the limiting sliding groove is arranged outside the rotating column, a sliding column which extends into the corresponding spiral chute to move is arranged in the sleeve, a driving piece which is used for driving the sleeve to move is arranged outside the installation cylinder, and the sleeve is used for driving the sliding column to move along the spiral chute to drive the rotating column to rotate.

Preferably, the driving piece comprises a screw rod, the screw thread penetrates through the other plugging ring, the end part of the screw rod extending into the mounting cavity is provided with a push rod penetrating through the sleeve, and the end part of the push rod extending into the sleeve is connected with a limit nut for limiting the push rod in a threaded manner.

Preferably, the sliding rail assembly comprises supporting plates arranged along the up-down direction, sliding grooves for the installation cylinder to pass through are arranged between the supporting plates, limiting grooves communicated with the sliding grooves are arranged on two opposite side walls of the supporting plates along the up-down direction, and positioning chute holes penetrating through the corresponding limiting grooves are uniformly distributed at the edges of two sides of the supporting plates along the up-down direction; the outside of the installation cylinder is relatively provided with a positioning block which extends out of the corresponding limiting groove, a slidable positioning rod is arranged in the positioning block, and two ends of the positioning rod are clamped into the corresponding positioning chute to be used for fixing the installation cylinder.

Preferably, a notch for sliding a corresponding positioning rod is formed in the positioning block along the extending direction of the positioning block, a mounting rod extending out of the corresponding positioning block is arranged on the positioning rod along the extending direction of the positioning block, a positioning nut is mounted at the end part of the mounting rod extending out of the positioning block in a threaded manner, and a spring for driving the positioning rod to move towards the mounting cylinder is sleeved on the mounting rod located in the notch.

Preferably, a hand crank is arranged at the outer end of the screw.

In summary, the utility model has the following advantages;

1. according to the utility model, through the arrangement of the sliding rail assembly and the adjusting assembly, the object placing plate is arranged between the corresponding adjusting assemblies, and the position of the object placing plate which can be adjusted relative to the adjusting assembly moves on the sliding rail assembly, so that the adjustment of the distance between the adjacent object placing plates can be realized, the object placing plate is suitable for cargoes with different specifications, and the space utilization rate of the storage shelf is improved.

2. According to the utility model, through the arrangement of the screw, the sleeve and the rotating column, the screw rotating rod can drive the sleeve to reciprocate in the installation cavity to drive the rotating column to rotate, so that the object placing plate between the sleeve and the rotating column is driven to incline, and the goods on one side of the object placing plate, which is close to the reinforcing plate, are obliquely lifted, so that a user can conveniently check and take the goods on the object placing plate at the side, and the practicability of the storage shelf is better.

Drawings

Fig. 1 is a schematic structural view of a storage rack according to the present utility model.

Fig. 2 is an enlarged schematic view of the portion a of fig. 1 in accordance with the present utility model.

Fig. 3 is a schematic view of the structure of the adjusting assembly in the present utility model.

Fig. 4 is a schematic cross-sectional view of an adjustment assembly of the present utility model.

FIG. 5 is a schematic view of the explosive structure between the rotating column, sleeve and screw in the present utility model.

Reference numerals illustrate: 100. a bracket; 101. a fixed frame; 102. a reinforcing plate; 110. a storage plate; 120. a slide rail assembly; 130. an adjustment assembly; 210. a mounting cylinder; 220. blocking rings; 231. a chute; 232. a limit groove; 233. positioning chute; 240. a positioning block; 241. a positioning rod; 250. hand-operated wheels; 310. rotating the column; 311. a clamping groove; 321. a notch; 322. a mounting rod; 323. positioning a nut; 411. a mounting cavity; 420. a sleeve; 430. a screw; 441. a spring; 450. a limiting ring; 461. a groove; 511. a spiral chute; 521. a limit sliding block; 522. a spool; 531. a push rod; 532. and (5) limiting the nut.

Detailed Description

For a further understanding of the present utility model, the present utility model will be described in detail with reference to the drawings and examples. It is to be understood that the examples are illustrative of the present utility model and are not intended to be limiting.

The present utility model is described in further detail below with reference to fig. 1-5.

The embodiment of the utility model discloses a storage shelf.

As shown in fig. 1, the storage rack in this embodiment includes a rack 100 and a plurality of storage boards 110 disposed between the racks 100, sliding rail assemblies 120 are disposed between the racks 100 along the vertical direction, a plurality of liftable adjusting assemblies 130 are disposed on the sliding rail assemblies 120, the storage boards 110 are mounted between the corresponding adjusting assemblies 130, and the adjusting assemblies 130 are used for driving the inclination of the storage boards 110 thereon.

In this embodiment, the bracket 100 is composed of a fixed frame 101 disposed opposite to each other and a reinforcing plate 102 connected to the two fixed frames 101 at the same side of the fixed frame 101, and the plurality of object placing plates 110 are disposed between the two fixed frames 101 along the horizontal direction for carrying the goods;

through the arrangement of the sliding rail assemblies 120 and the adjusting assemblies 130, when in actual use, the sliding rail assemblies 120 are relatively arranged in the corresponding fixed frames 101 along the up-down direction, the adjusting assemblies 130 are arranged on the corresponding sliding rail assemblies 120 in a sliding and lifting manner, when the object placing plates 110 are arranged on the opposite adjusting assemblies 130, the opposite adjusting assemblies 130 can drive the object placing plates 110 on the opposite adjusting assemblies to lift along the sliding rail assemblies 120 in a sliding and lifting manner, so that the adjustment of the distance between the adjacent object placing plates 110 can be realized, and the utilization rate of the storage space of the storage shelf is improved;

in this embodiment, the relative adjusting component 130 can drive the upper storage plate 110 to incline, so that when in actual use, the inclination of the storage plate 110 can enable the goods on the storage plate 110, which is close to one side of the reinforcing plate 102, to incline and raise, thereby facilitating the user to check and pick up the goods on the side storage plate 110, and improving the practicability of the storage shelf.

Referring to fig. 2-5, in this embodiment, the adjusting assembly 130 includes a mounting cylinder 210, a mounting cavity 411 with two open ends is provided in the mounting cylinder 210, and blocking rings 220 are provided at the openings of the two ends of the mounting cavity 411; a rotating column 310 extending out of one of the two plugging rings 220 is arranged in the mounting cavity 411, a clamping groove 311 for clamping the object placing plate 110 is arranged at the end part of the rotating column 310 extending out of the plugging ring 220, and a plurality of spiral chute 511 are uniformly distributed on the side wall of the rotating column 310 in the mounting cavity 411 along the circumferential direction; the installation cavity 411 is internally provided with a sleeve 420 sleeved outside the rotating column 310, the side wall of the installation cavity 411 is provided with a limiting chute along the length direction of the sleeve, the rotating column 310 is externally provided with a limiting slide block 521 positioned in the limiting chute in a sliding manner, the sleeve 420 is internally provided with a slide column 522 extending into the corresponding spiral chute 511 to move, the installation barrel 210 is externally provided with a driving piece for driving the sleeve 420 to move, and the sleeve 420 moves to drive the slide column 522 to move along the spiral chute 511 so as to drive the rotating column 310 to rotate.

In this embodiment, through the arrangement of the clamping grooves 311, when in actual use, two ends of the object placing plate 110 are clamped into the corresponding clamping grooves 311, so that the object placing plate 110 is preferably installed between the corresponding adjusting assemblies 130; the adjusting assemblies 130 located at two sides of the storage plate 110 are symmetrically arranged, so that the two rotating columns 310 of the clamping storage plate 110 are coaxially arranged, which is convenient for the subsequent adjusting assemblies 130 to drive the storage plate 110 to incline at the position of the clamping storage plate 110;

through the arrangement of the limit sliding groove and the limit sliding block 521, the limit sliding block 521 slides in the limit sliding groove to limit the sleeve 420, so that the sleeve cannot rotate circumferentially; in the practical use of the water-based paint,

the sleeve 420 is provided with an opening at one end, covers the outside of the rotating column 310 through the opening at one end, and through the arrangement of the sliding column 522 and the spiral chute 511, the sleeve 420 can drive the sliding column 522 to move and the side wall of the spiral chute 511 to press mutually in the mounting cavity 411, so as to drive the rotating column 310 to rotate and drive the object placing plate 110 arranged between the corresponding rotating columns 310 to incline;

wherein, in order to improve the rotation stability of the rotation column 310, two spiral chute 511 are uniformly arranged along at least the circumferential direction of the rotation column 310, in this embodiment, three spiral chute 511 are arranged, and three slide columns 522 are arranged corresponding to the three spiral chute 511;

the rotating column 310 extends out of the end part corresponding to the outer end part of the blocking ring 220 to form a step part matched with the blocking ring 220, a limit ring 450 is arranged on the rotating column 310 positioned in the mounting cavity 411 in a threaded manner, and the rotating mounting of the rotating column 310 at the position corresponding to the blocking ring 220 can be preferably realized by utilizing the matching of the limit ring 450 and the step part;

wherein, the blocking ring 220 matched with the rotating column 310 is connected with the opening of the installation cavity 411 in a threaded manner, and the other blocking ring 220 is fixedly connected with the corresponding opening of the installation cavity 411;

by means of the driving piece, the sleeve 420 can be moved back and forth in the mounting cavity 411, and the inclination of the storage plate 110 can be adjusted.

Referring to fig. 4 and 5, in this embodiment, the driving member includes a screw 430, a screw 430 is threaded through another plugging ring 220, a top rod 531 disposed through the sleeve 420 is disposed at an end of the screw 430 extending into the mounting cavity 411, and a limit nut 532 for limiting the top rod 531 is screwed on an end of the top rod 531 extending into the sleeve 420.

In this embodiment, through the arrangement of the ejector rod 531 and the limit nut 532, the rotational connection between the screw 430 and the sleeve 420 is preferably realized, and the screw 430 threads pass through the corresponding blocking ring 220, so that the screw 430 rotates to drive the sleeve 420 to reciprocate in the mounting cavity 411, and the inclination adjustment of the object placing plate 110 is realized;

wherein, in order to preferably realize that the screw 430 rotates to drive the sleeve 420 to drive the rotating column 310 to rotate, and realize the inclination adjustment of the object placing plate 110, a groove 461 for the ejector rod 531 and the limit nut 532 to move in is arranged at the end part of the rotating column 310;

in this embodiment, in order to facilitate rotating the screw 430, the hand crank 250 is mounted at the end of the screw 430 outside the mounting barrel 210, so that the screw 430 can be driven to rotate by the hand crank 250, thereby facilitating the inclination adjustment of the storage plate 110.

Referring to fig. 2, in this embodiment, the sliding rail assembly 120 includes a supporting plate 121 disposed along an up-down direction, a chute 231 for the mounting tube 210 to pass through is disposed between the supporting plates 121, two opposite side walls of the supporting plate 121 are provided with a limiting slot 232 communicating with the chute 231 along the up-down direction, and two side edges of the supporting plate 121 are uniformly provided with positioning chute 233 disposed along the up-down direction and penetrating through the corresponding limiting slot 232; the outer side of the mounting cylinder 210 is relatively provided with a positioning block 240 extending out of the corresponding limiting groove 232, a slidable positioning rod 241 is arranged in the positioning block 240, and two ends of the positioning rod 241 are clamped into the corresponding positioning chute 233 for fixing the mounting cylinder 210.

By the construction in the embodiment, the two ends of the positioning rod 241 are clamped into the corresponding positioning chute 233, so that the mounting cylinder 210 can be fixed on the supporting plate 121, and the object placing plate 110 can carry cargoes; through the arrangement of the sliding groove 231 and the limiting groove 232, when the positioning rod 241 slides in the positioning block 240 to enable the positioning rod 241 to slide out of the positioning chute 233, the fixing of the mounting cylinder 210 is released, the mounting cylinder 210 can be moved up and down along the sliding groove 231 to drive the positioning block 240 to move up and down in the limiting groove 232, the position of the mounting cylinder 210 on the supporting plate 121 is adjusted, the position of the object placing plate 110 between the mounting cylinder and the positioning rod is adjusted, the distance between the adjacent object placing plates 110 can be adjusted, and goods with different specifications and sizes can be placed conveniently.

In this embodiment, as shown in fig. 2 and fig. 4, a notch 321 for sliding the corresponding positioning rod 241 is provided in the positioning block 240 along the extending direction of the positioning block 240, a mounting rod 322 extending out of the corresponding positioning block 240 is provided on the positioning rod 241 along the extending direction of the positioning block 240, a positioning nut 323 is screwed at the end of the mounting rod 322 extending out of the positioning block 240, and a spring 441 for driving the positioning rod 241 to move toward the mounting cylinder 210 is sleeved on the mounting rod 322 located in the notch 321.

In practical use, the positioning chute 233 is disposed obliquely downward with its opening at its upper end; through the arrangement of the notch 321, the mounting rod 241, the positioning nut 323 and the spring 441, the spring 441 always pushes the positioning rod 322 to move towards the mounting cylinder 210, so that the positioning rod is convenient for being matched with the storage plate 110 to move downwards due to gravity to be automatically clamped into the positioning chute 233, the position of the storage plate 110 is fixed, and the cargo is convenient to carry; through the structure in this embodiment, when the object placing plate 110 needs to be adjusted upwards, the mounting cylinders 210 at the two end parts are lifted up to move upwards along the sliding grooves 231, the positioning rods 241 automatically slide out of the positioning chute 233 and move upwards to the corresponding positioning chute 233 along the supporting plate 121, at this time, the object placing plate 110 is loosened, and the positioning rods 241 automatically clamp into the corresponding positioning chute 233 along with the self weight of the object placing plate 110, so as to realize the position fixation of the object placing plate 110; when the object placing plate 110 needs to be adjusted downwards, the mounting cylinder 210 is moved upwards to enable the positioning rod 241 to automatically slide out of the positioning chute 233, at the moment, the mounting rod 322 is pulled to keep the positioning rod 241 located outside the supporting plate 121, then the mounting cylinder 210 is moved downwards to the opening of the corresponding positioning chute 233, the mounting rod 322 is loosened, the positioning rod 241 automatically clamps into the corresponding positioning chute 233 along with the self weight of the object placing plate 110, and the position of the object placing plate 110 is fixed, so that the lifting adjustment operation of the object placing plate 110 is simple and convenient.

Working principle: when the storage shelf is in actual use, when the storage plate 110 needs to be adjusted upwards, the storage plate 110 is lifted upwards, the positioning rod 241 can slide out of the positioning chute 233, and along with the upward movement of the storage plate 110 to the opening of the positioning chute 233 corresponding to the upper part, the storage plate 110 is released, and the positioning rod 241 can be automatically clamped into the positioning chute 233 to fix the position of the storage plate 110; when the object placing plate 110 needs to be adjusted downwards, the object placing plate 110 is lifted up to enable the positioning rod 241 to slide out of the positioning chute 233, at the moment, the installation rod 322 is pulled to ensure that the positioning rod 241 is positioned outside the supporting plate 121, the object placing plate 110 is moved down to the opening of the positioning chute 233 corresponding to the lower part, the installation rod 322 is loosened, and the object placing plate 110 can enable the positioning rod 241 to be automatically clamped into the positioning chute 233 to fix the position of the object placing plate 110; when the inclination of the storage plate 110 needs to be adjusted, the screws 430 at the two sides are rotated simultaneously to realize the inclination adjustment of the storage plate 110, so that the storage shelf is convenient to use.

In summary, the foregoing description is only of the preferred embodiments of the present utility model, and all equivalent changes and modifications made in accordance with the claims should be construed to fall within the scope of the utility model.

Claims (6)

1. Storage goods shelves, including support (100) and locate a plurality of thing boards (110) of putting between support (100), its characterized in that: the support (100) is provided with a sliding rail assembly (120) along the up-down direction, the sliding rail assembly (120) is provided with a plurality of liftable adjusting assemblies (130), the object placing plate (110) is arranged between the corresponding adjusting assemblies (130), and the adjusting assemblies (130) are used for driving the object placing plate (110) to incline.

2. A storage rack according to claim 1, wherein: the adjusting assembly (130) comprises a mounting barrel (210), a mounting cavity (411) with two open ends is arranged in the mounting barrel (210), and blocking rings (220) are arranged at the openings at the two ends of the mounting cavity (411); a rotating column (310) penetrating through one of the two blocking rings (220) is arranged in the mounting cavity (411), a clamping groove (311) for clamping the object placing plate (110) is formed in the end part of the rotating column (310) extending out of the blocking ring (220), and a plurality of spiral inclined grooves (511) are uniformly distributed on the side wall of the rotating column (310) in the mounting cavity (411) along the circumferential direction of the side wall; the utility model discloses a rotary column (310) is equipped with sleeve (420) of cover outside rotary column (310) in installation cavity (411), be equipped with spacing spout along its length direction on the lateral wall of installation cavity (411), be located spacing slider (521) of sliding outside rotary column (310) in the spacing spout, be equipped with in sleeve (420) and stretch into slide column (522) that move in corresponding spiral chute (511), be used for driving the driving piece that sleeve (420) removed outside installation section of thick bamboo (210), sleeve (420) remove and be used for driving slide column (522) along spiral chute (511) removal drive rotary column (310) rotatory.

3. A storage rack according to claim 2, wherein: the driving piece comprises a screw rod (430), the screw rod (430) penetrates through another plugging ring (220) in a threaded mode, a push rod (531) penetrating through the sleeve (420) is arranged at the end portion of the screw rod (430) extending into the installation cavity (411), and a limit nut (532) used for limiting the push rod (531) is connected to the end portion of the push rod (531) extending into the sleeve (420) in a threaded mode.

4. A storage rack according to claim 2, wherein: the sliding rail assembly (120) comprises supporting plates (121) arranged along the up-down direction, sliding grooves (231) for the installation cylinders (210) to pass through are arranged between the supporting plates (121), limiting grooves (232) communicated with the sliding grooves (231) are formed in the up-down direction on two opposite side walls of the supporting plates (121), and positioning chute (233) penetrating through the corresponding limiting grooves (232) are uniformly distributed at the edges of two sides of the supporting plates (121) along the up-down direction; the outside of installation section of thick bamboo (210) is equipped with locating piece (240) that stretches out corresponding spacing groove (232) relatively, be equipped with slidable locating lever (241) in locating piece (240), in the both ends card of locating lever (241) go into corresponding positioning chute (233) and be used for fixed installation section of thick bamboo (210).

5. A storage rack as claimed in claim 4, wherein: the positioning block (240) is internally provided with a notch (321) for sliding a corresponding positioning rod (241) along the extending direction of the positioning block (240), the positioning rod (241) is provided with a mounting rod (322) extending out of the corresponding positioning block (240) along the extending direction of the positioning block (240), the end part of the mounting rod (322) extending out of the positioning block (240) is provided with a positioning nut (323) in a threaded manner, and the mounting rod (322) positioned in the notch (321) is sleeved with a spring (441) for driving the positioning rod (241) to move towards the mounting cylinder (210).

6. A storage rack according to claim 3, wherein: the outer end part of the screw rod (430) is provided with a hand-operated wheel (250).