CN111573099B - Improved storage shelf - Google Patents

Abstract

The invention relates to an improved storage shelf, which comprises a shelf body mechanism, a height adjusting mechanism, a plate set and a width adjusting mechanism, the goods storage rack is characterized in that the lower end of the rack body mechanism is arranged on the existing working ground in a sliding fit mode, the rack body mechanism is arranged on the left and right sides, the inner side end of the rack body mechanism is provided with a height adjusting mechanism in a sliding fit mode, the plate groups are arranged between the height adjusting mechanisms at equal intervals from top to bottom, and the width adjusting mechanism is arranged at the right lower end of the plate group.

Description

Improved storage shelf

Technical Field

The invention relates to the technical field of shelf manufacturing, in particular to an improved storage shelf.

Background

The warehouse goods shelf is a stretcher for placing goods in a warehouse, is generally applied to an industrial warehouse, focuses on upward development, fully utilizes storage space, and has the maximum height of more than 40 meters, is mainly made of steel through the working procedures of rolling, positioning, punching, bending, welding, surface treatment and the like, a small number of warehouse goods shelves are made of plastic and other materials, the goods shelf plays a very important role in logistics and the warehouse, along with the rapid development of the modern industry and the great increase of the material flow, in order to realize the modern management of the warehouse and improve the functions of the warehouse, the warehouse goods shelf not only has a large number of goods shelves, but also has multiple functions and can realize the mechanization and automation requirements, the warehouse goods shelf plays a very important role in the modern logistics activity and is an important component part for realizing the modernization of the warehouse management, and the warehouse goods shelf has the functions of improving the space utilization rate and the storage capacity utilization rate, Enlarge warehouse storage capacity, reduce the attrition rate of goods, improve the convenience degree of goods access, guarantee advantages such as the quality of storage goods (take measures such as dampproofing, theftproof, anti-pollution), nevertheless can appear following problem in storage goods shelves use:

1. the spacing between the interlayers of the common storage goods shelf and the width size of the interlayers can not be adjusted, when goods are stored, the goods stacking and storing are insufficient due to small space between the interlayers or excessive space, namely, the space utilization rate is low, meanwhile, the goods stored on the storage goods shelf are low in overall stability degree and easy to loose due to external force, and the goods are easy to accumulate impurities such as dust and wet due to the exposed state;

2. the storage goods shelves store up between the tubulose goods of arranging and easily take place the relative slip phenomenon between goods and the goods shelves interlayer, and the tubulose goods is receiving the phenomenon of external force effect down the goods shelf interlayer that easily appears slipping, and the adjustment of adaptability can't be made when the goods that the storage goods shelves were listed up in the face of needs hang to store up to the storage goods simultaneously, and then the holistic degree of utilization of storage goods shelves is lower.

Disclosure of Invention

Technical scheme (I)

In order to achieve the purpose, the invention adopts the following technical scheme that the improved storage shelf comprises a shelf body mechanism, height adjusting mechanisms, plate groups and width adjusting mechanisms, wherein the lower end of the shelf body mechanism is installed on the existing working ground in a sliding fit mode, the shelf body mechanism is arranged on the left and right, the height adjusting mechanisms are installed at the inner side ends of the shelf body mechanism in a sliding fit mode, the plate groups are installed between the height adjusting mechanisms at equal intervals from top to bottom, and the width adjusting mechanisms are installed at the right lower ends of the plate groups.

The frame body mechanism comprises a vertical frame, a top plate, a connecting shaft, rollers, arc concave plates, a shaft lever and a vertical block, wherein the top plate is installed at the upper end of the vertical frame, a sliding fit mode is adopted between the inner side ends in the left and right directions of the top plate, rectangular through grooves are symmetrically formed in the front and back of the lower end surface of the outer side end surface of the vertical frame, the connecting shaft is installed between the front and back inner side walls of the rectangular through grooves, the rollers are installed on the connecting shaft in a sliding fit mode, rectangular grooves are symmetrically formed in the front and back inner side walls of the rectangular grooves, the arc concave plates are installed in the rectangular grooves in a sliding fit mode, the shaft lever is installed in the middle of the inner side end surface of the arc concave plates, the sliding fit modes are respectively adopted between the inner side ends of the shaft lever, the arc concave plates and the outer side ends in the front and back directions of the rollers, the vertical block is installed on the outer side end surfaces in the left and right directions of the arc concave plates, the vertical frame is in a sliding fit mode with the lower ends of the vertical frame, when the arc concave plates and the rollers are separated, the roller bearing is in the state of can rolling, adjusts the in-process through width adjustment mechanism to the interval between the vertical frame, and the rolling way is along with the synchronous outside or inboard motion of vertical frame, and after width adjustment mechanism stop work, before height adjustment mechanism works, through the inboard pulling vertical block of manual mode to the fore-and-aft direction, vertical block drives circular arc concave plate synchronous motion, and circular arc concave drive axle lever synchronous motion is stopped at the gyro wheel until the two complete clamping cover is at the gyro wheel.

The height adjusting mechanism comprises an electric sliding block, a first hollow push plate, a first moving plate, a push block, a second hollow push plate, a second moving plate, a push block, a clamping pin and a support block, the electric sliding block is arranged in a track groove in a sliding fit mode, the track groove is formed in the middle of the end face of the inner side of the vertical frame, the first hollow push plate is arranged at the upper end of the electric sliding block, the second moving plate is arranged in a first hollow push rod in a sliding fit mode, the push block is arranged right above the second moving plate, sliding fit modes are respectively arranged between the push block and the track groove and between the lower end face of the push block and the upper end face of the first moving plate, the second hollow push plate is arranged at the upper end of the push block, the second moving plate is arranged in a sliding fit mode in the second hollow push plate, the push block is arranged right above the second moving plate, and sliding fit modes are respectively arranged between the push block and the track groove and between the lower end face of the push block and the upper end face of the second moving plate, pin holes are formed in the outer side end faces of the first moving plate and the second moving plate at equal intervals from top to bottom, bayonet locks are installed in the pin holes at the lowest ends of the outer side end faces of the first moving plate and the second moving plate in a sliding fit mode, the upper end faces of the first hollow push plate and the second hollow push plate and the lower end faces of the respective adjacent bayonet locks are in a sliding fit mode, supporting blocks are symmetrically arranged at the front and back of the lower portion of each pushing block and the lower portion of each pushing block, sliding fit modes are respectively formed between the lower end face of each pushing block and the upper end face of each supporting block, the outer side ends of the front and back directions of each supporting block are installed at the inner side ends of the front and back directions of a track groove, the plate groups connected with the supporting blocks are driven to move upwards by an electric sliding block, the first hollow push plate drives the first moving plate to synchronously move with the electric sliding block, the first moving plate pushes the pushing block upwards, the plate drives the plate groups connected with the pushing block to synchronously move upwards, the second hollow push plate drives the second moving plate to move synchronously with the push block, the second moving plate pushes the push block to move upwards, the push block drives the plate groups connected with the push block to move synchronously, the distance adjusting movement can adjust the distance between the plate groups connected with the push block and the top plate to adapt to the size type of the goods to be stored, when the distance between the plate groups is required to be adjusted, the bayonet lock on the first moving plate can be pulled out and inserted into other appointed pin holes manually, the bayonet lock on the second moving plate can be pulled out and inserted into a pin hole different from the bayonet lock on the first moving plate manually or the position of the bayonet lock on the second moving plate is not changed, then the plate groups connected with the second moving plate are driven to move upwards by the electric slide block, the first moving plate can contact the push block and push the push block to move upwards after moving synchronously for a section of distance along with the electric slide block, and the push block moves the plate groups connected with the second moving plate groups synchronously, the second moving plate synchronously moves with the push block for a certain distance, and then can contact the push plate and push the push plate to move upwards.

The plate group comprises connecting frames, a first sliding plate, a second sliding plate, convex blocks and telescopic plates, wherein the connecting frames are respectively arranged at the inner side end of the electric sliding block, the inner side end of the push block and the inner side end of the push block, the first sliding plate is symmetrically arranged between the left connecting frame and the right connecting frame in front and back, the second sliding plate is arranged at the inner side of the first sliding plate, the left end of the first sliding plate is connected with the inner side end of the connecting frame adjacent to the first sliding plate, the right end of the second sliding plate is connected with the inner side end of the connecting frame adjacent to the second sliding plate, the convex blocks at the left end of the inner side end of the first sliding plate and the right end of the outer side end of the second sliding plate are respectively provided with the convex blocks, the convex blocks on the first sliding plate are connected with the outer side end of the second sliding plate in a sliding fit manner, the telescopic plates are symmetrically arranged between the middle ends of the left connecting frame and the right connecting frame in front and back, and the telescopic plates are positioned between the second sliding plates, in the process of adjusting the total length of the plate group through the width adjusting mechanism, the first sliding plate and the second sliding plate drive the lugs connected with the first sliding plate and the second sliding plate to move in opposite directions, and meanwhile, the telescopic plates perform synchronous extension movement.

The width adjustment mechanism include the rectangular block, the lead screw, belt and runner, the rectangular block is all installed to the lower extreme of a slide and the lower extreme of No. two slides, the left end face of rectangular block sets up threaded hole, install the lead screw through the screw-thread fit mode in the threaded hole, be the sliding fit mode between the lead screw right-hand member and the perpendicular frame of existing work ground upper end right-hand member, link to each other through the belt between the positive relative lead screw right-hand member in front and back, the belt is located the right side of the perpendicular frame of existing work ground upper end right-hand member, the right rear side of belt sets up the runner, the runner links to each other with the rear end of belt rear end lead screw, rotate the runner through artifical mode, the runner passes through the belt and drives two lead screw synchronous rotations, the lead screw drives a slide and No. two slides through the rectangular block and is the interval between the opposite movement in order to increase connecting plate.

As a preferred technical scheme of the invention, the upper end surface of the connecting frame on the left side of the rectangular block is provided with an inverted hook, the right side of the inverted hook is provided with a fixed shaft, the front end and the rear end of the fixed shaft are symmetrically provided with vertical plates, the lower end of each vertical plate is arranged on the upper end surface of the connecting frame on the right side of the rectangular block, the fixed shaft is provided with an elastic bandage roll in a sliding fit mode, the left end of the elastic bandage roll is in a sliding fit mode with the inverted hook, after goods are stored on the first sliding plate, the second sliding plate and the telescopic plate in a manual mode, the elastic bandage roll is pulled leftwards in a manual mode and is attached to the upper end of the goods to move, then the clamping sleeve at the left end of the elastic bandage is clamped on the inverted hook, at the moment, the goods are fastened between the elastic bandage roll and the first sliding plate, the second sliding plate and the telescopic plate, namely the goods stored on the basis of auxiliary fixing and limiting, thereby reducing the probability of loosening due to relative sliding of stored goods, and simultaneously avoiding the rigid damage to the goods by the elastic bandage.

As a preferred technical scheme of the invention, the outer side end of the upper end surface of the first sliding plate is provided with mounting through grooves at equal intervals from left to right, a round rod is arranged between the left inner side wall and the right inner side wall of the mounting through grooves, rotating plates are symmetrically arranged at the front end and the rear end of the round rod in a sliding fit mode, the upper end of the outer side end surface of each rotating plate is provided with a through hole groove, clamping columns are arranged in the through hole grooves in a sliding fit mode, the clamping columns are in a sliding fit mode with the round rods, an arc plate is arranged in the middle of the lower end of each rotating plate, when tubular goods need to be stored and arranged, the clamping columns are pulled out manually and the rotating plates are rotated upwards, the arc plates rotate synchronously along with the rotating plates until the rotating plates are rotated to be vertical, then the clamping columns are inserted again to fix the rotating plates and the first sliding plate, then the tubular goods are placed between the adjacent arc plates manually, and the arc plates can play roles of auxiliary fixing and limiting on the tubular goods, the phenomenon that relative rolling occurs is avoided, meanwhile, separation storage rows can be implemented between the tubular goods, when the longitudinal size of the non-tubular goods stored in the rows is smaller than the distance between the opposite arc plates, the arc plates are rotated upwards, the front and back freedom degrees of the non-tubular goods can be limited, and the phenomenon that the non-tubular goods slide down is avoided.

As a preferred technical scheme of the invention, the upper end of the front end surface of the arc plate is provided with a shaft hole, a pin shaft is arranged in the shaft hole in a sliding fit mode, the pin shaft is arranged between the front inner side wall and the rear inner side wall of a shaft groove, the shaft groove is arranged at the lower end of the rotating plate, a compression spring is connected between the upper ends of the adjacent arc plates, the compression spring and the shaft groove are in a sliding fit mode, in the process of manually placing the tubular goods between the adjacent arc plates, the tubular goods push the arc plates outwards, the arc plates drive the compression springs to do extension movement, when the placement of the tubular goods is finished, the arc plate returns inwards under the action of the compression spring and clamps the tubular goods, the clamping degree of the tubular goods can be improved by the cooperation between the compression spring and the arc plate, meanwhile, the clamping device can be suitable for clamping tubular goods with different sizes in a certain range, and further the integral utilization degree of the storage shelf is improved.

As a preferred technical scheme of the invention, the middle part of the inner side end face of the second sliding plate is provided with a sliding groove, an extension plate is installed in the sliding groove in a sliding fit mode, when small goods are stored and arranged, the extension plate can be pulled inwards in a manual mode to slide out of the sliding groove, so that the distance between the second sliding plate and the extension plate is reduced, the phenomenon that the small goods are easy to fall from the gap between the second sliding plate and the extension plate due to the fact that the distance between the second sliding plate and the extension plate is larger than the size of the small goods is avoided, the number of the goods stored and arranged on a plane formed by the first sliding plate, the second sliding plate and the extension plate can be increased, and the storage shelf is fully utilized.

As a preferable technical scheme of the invention, the front end and the rear end of the vertical frame adjacent to the right side of the belt are symmetrically provided with the ear plates, the ear plates are of an upper-lower arrangement structure, the scroll is arranged between the ear plates, the scroll is provided with the film sealing roll in a sliding fit manner, the rear end of the drawing end at the left side of the film sealing roll is provided with the magnetic block, the magnetic block is arranged at the right left side of the film sealing roll, the magnetic block is arranged on the outer side end face in the front-rear direction of the vertical frame at the left end of the first sliding plate, after the goods are stored, the film sealing roll is pulled leftwards by a manual manner, the magnetic block synchronously moves along with the film sealing until the magnetic block moves to be just opposite to the magnetic block, then the magnetic block is adsorbed on the magnetic block to fix the film sealing, at the moment, a closed space is formed between the film sealing, the vertical frame and the top plate, so that the phenomena of dust and other impurities, dampness and the like of the stored goods are avoided, and the quality of the stored goods is further ensured.

According to a preferable technical scheme, a sliding block groove is formed in the middle of the right end of the lower end face of the telescopic plate, T-shaped sliding blocks are installed in the sliding block groove in a sliding fit mode, a drying rod is connected between the lower ends of the front T-shaped sliding blocks and the rear T-shaped sliding blocks which are opposite to each other, when goods to be hung are stored, the T-shaped sliding blocks are manually shifted to the left side one by one, a certain distance is formed between the T-shaped sliding blocks, then the goods are hung on the drying rod manually, and the distances between the plate groups and the existing working ground can be adjusted adaptively according to the length of the hung goods.

(II) advantageous effects

1. According to the improved storage shelf, goods are stored and arranged by adopting a design concept of a longitudinal and transverse size adjustable structure, the arranged height adjusting mechanism can reasonably distribute and partition the spaces among the existing working ground, the plate group and the top plate and among the plate groups according to the types of goods to be stored and arranged, and the arranged width adjusting mechanism can adaptively adjust the longitudinal length of the plate group, so that the purposes of improving the whole use range and the utilization rate of the storage shelf are achieved;

2. the arc plate can play a role in auxiliary fixing and limiting for tubular goods so as to avoid the relative rolling phenomenon of the tubular goods, can also perform separation storage and arrangement between the tubular goods, and can also play a role in limiting the front and rear freedom degrees of non-tubular goods with partial sizes so as to avoid the sliding phenomenon of the non-tubular goods;

3. the extension plate and the second sliding plate are matched, so that the distance between the second sliding plate and the telescopic plate can be reduced, the phenomenon that small goods easily fall from the gap between the second sliding plate and the telescopic plate is avoided, the quantity of the goods stored and arranged on the plane formed by the first sliding plate, the second sliding plate and the telescopic plate at one time can be increased, and the storage shelf is fully utilized;

4. the elastic bandage fastens goods among the elastic bandage, the first sliding plate, the second sliding plate and the expansion plate, namely plays a role in assisting in fixing and limiting stored goods, further reduces the probability of loosening of the stored goods due to relative sliding, and meanwhile can avoid rigid damage to the goods;

5. the sealing film roll, the magnetic block and the magnetic strip are matched with the vertical frame and the top plate to form a closed space, so that the phenomena of dust and other impurities accumulation, dampness and the like of stored goods are avoided, and the quality of the stored goods is further ensured;

6. the T-shaped sliding block and the drying rod are matched with the height adjusting mechanism to enable the storage shelf to be integrally adapted to store goods to be hung, so that unnecessary folding and extrusion of the goods are avoided, and the storage shelf is fully utilized;

7. the compression spring and the arc plate are matched with each other, so that the clamping degree of the tubular goods can be improved, and the clamping device can be suitable for clamping tubular goods with different sizes in a certain range, and further the utilization degree of the whole storage shelf is improved.

Drawings

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

FIG. 2 is a first cross-sectional view of the present invention;

FIG. 3 is a second cross-sectional view of the present invention;

FIG. 4 is a third cross-sectional view of the present invention;

FIG. 5 is a fourth cross-sectional view of the present invention;

FIG. 6 is an enlarged view of the invention in section X of FIG. 2;

FIG. 7 is an enlarged view of the Y-direction portion of FIG. 2 in accordance with the present invention;

FIG. 8 is an enlarged view of the invention in the Z-direction of FIG. 3;

FIG. 9 is an enlarged view of the M-direction portion of FIG. 3 in accordance with the present invention;

FIG. 10 is an enlarged view of the N-direction portion of FIG. 4 in accordance with the present invention;

FIG. 11 is an enlarged view of the portion of FIG. 4 taken along line R of the present invention;

fig. 12 is a partial enlarged view taken along the direction T of fig. 5 according to the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered by the claims.

As shown in fig. 1 to 12, an improved storage shelf comprises a shelf body mechanism 1, a height adjusting mechanism 2, a plate group 3 and a width adjusting mechanism 4, wherein the lower end of the shelf body mechanism 1 is installed on the existing working ground in a sliding fit manner, the shelf body mechanism 1 is arranged at the left and right sides, the height adjusting mechanism 2 is installed at the inner side end of the shelf body mechanism 1 in a sliding fit manner, the plate group 3 is installed between the height adjusting mechanisms 2 at equal intervals from top to bottom, and the width adjusting mechanism 4 is installed at the right lower end of the plate group 3.

The frame body mechanism 1 comprises a vertical frame 11, a top plate 12, a connecting shaft 13, rollers 14, arc concave plates 15, a shaft rod 16 and a vertical block 17, wherein the top plate 12 is installed at the upper end of the vertical frame 11, the inner side ends of the left direction and the right direction of the top plate 12 are in a sliding fit mode, rectangular through grooves are symmetrically formed in the front and the back of the lower end surface of the outer side end face of the vertical frame 11, the connecting shaft 13 is installed between the front inner side wall and the back inner side wall of each rectangular through groove, the rollers 14 are installed on the connecting shaft 13 in a sliding fit mode, rectangular grooves are symmetrically formed in the front inner side wall and the back inner side wall of each rectangular groove, the arc concave plates 15 are installed in the rectangular grooves in a sliding fit mode, the shaft rod 16 is installed in the middle of the end faces of the inner side ends of the arc concave plates 16 and the outer side ends of the front direction and the back direction of the rollers 14, the vertical block 17 is installed on the outer side end faces of the left direction and the right direction of the arc concave plates 15, and the vertical block 11 are in a sliding fit mode, when the arc concave plate 15 is separated from the roller shaft, the roller shaft is in a rolling state, the distance between the vertical frames 11 is adjusted through the width adjusting mechanism 4, the rolling path moves towards the outer side or the inner side synchronously along with the vertical frames 11, after the width adjusting mechanism 4 stops working, before the height adjusting mechanism 2 works, the vertical block 17 is pulled towards the inner side in the front-back direction in a manual mode, the vertical block 17 drives the arc concave plate 15 to move synchronously, the arc concave plate drives the shaft rod 16 to move synchronously until the arc concave plate 15 is completely sleeved on the roller 14, the shaft rod 16 is also completely clamped into the outer side end in the front-back direction of the roller 14 at the moment, the arc concave plate 15 and the shaft rod 16 are matched to stop the roller 14, and the phenomenon that the storage shelf is integrally moved in the goods storage process is further avoided.

The height adjusting mechanism 2 comprises an electric slider 20, a first hollow push plate 21, a first moving plate 22, a push block 23, a second hollow push plate 24, a second moving plate 25, a push block 26, a clamping pin 27 and a support block 28, wherein the electric slider 20 is arranged in a track groove in a sliding fit mode, the track groove is formed in the middle of the end face of the inner side of the vertical frame 11, the first hollow push plate 21 is arranged at the upper end of the electric slider 20, the second moving plate 25 is arranged in the first hollow push rod in a sliding fit mode, the push block 23 is arranged right above the second moving plate 25, the push block 23 and the track groove as well as the lower end face of the push block 23 and the upper end face of the first moving plate 22 are in a sliding fit mode, the second hollow push plate 24 is arranged at the upper end of the push block 23, the second moving plate 25 is arranged in the second hollow push plate 24 in a sliding fit mode, the push block 26 is arranged right above the second moving plate 25, sliding fit modes are adopted between the pushing block 26 and the groove of the track and between the lower end face of the pushing block 26 and the upper end face of the second moving plate 25, pin holes are formed in the outer end faces of the first moving plate 22 and the second moving plate 25 at equal intervals from top to bottom, a bayonet 27 is arranged in the pin hole at the lowest end of the outer end faces of the first moving plate 22 and the second moving plate 25 in a sliding fit mode, the upper end faces of the first hollow push plate 21 and the second hollow push plate 24 are in sliding fit with the lower end faces of the respective adjacent bayonet 27, supporting blocks 28 are symmetrically arranged below the pushing block 23 and below the pushing block 26 in a front-back mode, sliding fit modes are adopted between the lower end face of the pushing block 26 and the lower end face of the pushing block 23 and the upper end face of the supporting block 28, the outer end of the supporting block 28 in the front-back direction is arranged at the inner end of the front-back direction of the groove of the track, and the plate group 3 connected with the pushing block is driven to move upwards by the electric slide block 20, the first hollow push plate 21 drives the first moving plate 22 to synchronously move along with the electric sliding block 20, the first moving plate 22 pushes the push block 23 upwards, the push block 23 drives the plate group 3 connected with the push block to synchronously move upwards, the second hollow push plate 24 drives the second moving plate 25 to synchronously move along with the push block 23, the second moving plate 25 pushes the push block 26 to upwards move, the push block 26 drives the plate group 3 connected with the push block to synchronously move, the distance adjusting movement can adjust the distance between the plate group 3 connected with the push block 26 and the top plate 12 to adapt to the size type of goods to be stored, when the distance between the plate groups 3 is required to be adjusted, the bayonet pins 27 on the first moving plate 22 can be manually pulled out and inserted into other appointed pin holes, the bayonet pins 27 on the second moving plate 25 can be manually pulled out and inserted into different pin holes from the bayonet pins 27 on the first moving plate 22 or the positions of the bayonet pins 27 on the second moving plate 25 are not changed, then the electric slider 20 drives the connected plate group 3 to move upwards, the first moving plate 22 moves synchronously with the electric slider 20 for a certain distance and then can contact the push block 23 and push the push block to move upwards, the push block 23 moves the connected plate group 3 to move synchronously, the second moving plate 25 moves synchronously with the push block 23 for a certain distance and then can contact the push plate and push the push plate to move upwards, the moving distances of the plate group 3 connected with the electric slider 20, the plate group 3 connected with the push block 23 and the plate group 3 connected with the push block 26 are different, so that the distances among the plate groups 3 are different, and further the spaces among the existing working ground, the plate group 3, the top plate 12 and the plate group 3 can be reasonably distributed and partitioned according to the types of goods to be stored, so that the whole use range and the utilization rate of the storage shelf are improved.

The plate group 3 comprises a connecting frame 31, a first sliding plate 32, a second sliding plate 33, a convex block 34 and a telescopic plate 35, the connecting frame 31 is respectively installed at the inner side end of the electric sliding block 20, the inner side end of the push block 23 and the inner side end of the push block 26, the first sliding plate 32 is symmetrically arranged between the left connecting frame 31 and the right connecting frame 31 which are right opposite, the second sliding plate 33 is arranged at the inner side of the first sliding plate 32, the left end of the first sliding plate 32 is connected with the inner side end of the connecting frame 31 adjacent to the first sliding plate, the right end of the second sliding plate 33 is connected with the inner side end of the connecting frame 31 adjacent to the second sliding plate 33, the convex block 34 at the left end of the inner side end of the first sliding plate 32 and the right end of the second sliding plate 33 are respectively installed with the convex block 34, the convex block 34 on the first sliding plate 32 is connected with the outer side end of the second sliding plate 33 in a sliding fit manner, the telescopic plate 35 is symmetrically arranged between the middle ends of the left connecting frame 31 and the right connecting frame 31 which are right opposite, the expansion plate 35 is located between the second sliding plate 33, in the process of adjusting the total length of the plate group 3 through the width adjusting mechanism 4, the first sliding plate 32 and the second sliding plate 33 drive the respective connected convex blocks 34 to move in opposite directions, and the expansion plate 35 extends synchronously, so that the convex blocks 34 can improve the relative sliding degree between the first sliding plate 32 and the second sliding plate 33, and can also play a role of fixed support for the first sliding plate 32 and the second sliding plate 33 to prevent one ends of the first sliding plate 32 and the second sliding plate 33 from being in a suspended state to influence the supporting function of the plate group 3.

The outer side end of the upper end face of the first sliding plate 32 is provided with mounting through grooves at equal intervals from left to right, a round rod 321 is mounted between the left inner side wall and the right inner side wall of each mounting through groove, rotating plates 322 are symmetrically mounted at the front end and the rear end of each round rod 321 in a sliding fit mode, a through hole groove is formed in the upper end of the outer end face of each rotating plate 322, clamping columns 323 are mounted in the through hole grooves in a sliding fit mode, the clamping columns 323 and the round rods 321 are in a sliding fit mode, an arc plate 324 is arranged in the middle of the lower end of each rotating plate 322, when tubular goods need to be stored and arranged, the clamping columns 323 are pulled out manually and the rotating plates 322 are rotated upwards, the arc plates 324 rotate synchronously with the rotating plates 322 until the rotating plates 322 rotate to be in a vertical state, then the clamping columns 323 are inserted again to fix the rotating plates 322 and the first sliding plate 32, then the tubular goods are placed between the adjacent arc plates 324 in a manual mode, and the arc plates 324 can play roles of auxiliary fixing and limiting the tubular goods, the phenomenon that the tubular goods roll relatively is avoided, meanwhile, the tubular goods can be separated and stored in the row, when the longitudinal size of the non-tubular goods stored in the row is smaller than the distance between the opposite arc plates 324, the arc plates 324 are rotated upwards, the front and back freedom degrees of the non-tubular goods can be limited, and the phenomenon that the non-tubular goods slide down is avoided.

The upper end of the front end surface of the arc plate 324 is provided with a shaft hole, a pin shaft is arranged in the shaft hole in a sliding fit mode, the pin shaft is arranged between the front inner side wall and the rear inner side wall of a shaft groove, the shaft groove is arranged at the lower end of the rotating plate 322, a compression spring 32a is connected between the upper ends of the adjacent arc plates 324, the compression spring 32a and the shaft groove are in a sliding fit mode, in the process of manually placing the tubular goods between the adjacent circular arc plates 324, the tubular goods push the circular arc plates 324 outwards, the circular arc plates 324 drive the compression springs 32a to do extension movement, and after the placement of the tubular goods is completed, the arc plate 324 is restored inward and clamps the tubular goods under the action of the compression spring 32a, the clamping degree of the tubular goods can be improved by the cooperation between the compression spring 32a and the arc plate 324, meanwhile, the clamping device can be suitable for clamping tubular goods with different sizes in a certain range, and further the integral utilization degree of the storage shelf is improved.

Sliding grooves are formed in the middle of the end face of the inner side of the second sliding plate 33, the extending plate 331 is installed in the sliding grooves in a sliding fit mode, when small goods are stored and arranged, the extending plate 331 can be pulled inwards in a manual mode to slide out of the sliding grooves, the distance between the second sliding plate 33 and the telescopic plate 35 is reduced, the phenomenon that the small goods are prone to falling from the gap between the second sliding plate 33 and the telescopic plate 35 due to the fact that the distance between the second sliding plate 33 and the telescopic plate 35 is larger than the size of the small goods is avoided, the quantity of the goods stored and arranged on the plane formed by the first sliding plate 32, the second sliding plate 33 and the telescopic plate 35 can be increased, and the storage shelf is fully utilized.

The lower terminal surface right-hand member middle part of expansion plate 35 seted up the slider recess, install T type slider 351 through sliding fit mode in the slider recess, be connected with between the lower extreme of the just relative T type slider 351 of front and back and shine the pole 352, when storing up the goods that need hang, stir T type slider 351 one by one to the left side through artifical mode, and make and have a determining deviation between the T type slider 351, then hang the goods on shining the pole 352 through artifical mode, can make the adaptability adjustment to the interval between plate group 3 and have between the work ground according to the goods length that hangs.

The width adjusting mechanism 4 comprises a rectangular block 41, a lead screw 42, a belt 43 and a rotating wheel 44, the rectangular block 41 is arranged at the lower end of the first sliding plate 32 and the lower end of the second sliding plate 33, a threaded hole is formed in the left end face of the rectangular block 41, the lead screw 42 is arranged in the threaded hole in a threaded fit mode, the right end of the lead screw 42 is in a sliding fit mode with the vertical frame 11 at the right end of the upper end of the existing working floor, the right ends of the lead screws 42 which are right opposite to each other in the front and back direction are connected through the belt 43, the belt 43 is positioned at the right side of the vertical frame 11 at the right end of the upper end of the existing working floor, the rotating wheel 44 is arranged at the right back side of the belt 43, the rotating wheel 44 is connected with the rear end of the lead screw 42 at the rear end of the belt 43, the rotating wheel 44 is manually rotated, the belt 43 drives the two lead screws 42 to synchronously rotate, the lead screw 42 drives the first sliding plate 32 and the second sliding plate 33 to oppositely move through the rectangular block 41 to increase the distance between the connecting plates, the stability of the matching movement between the rotating wheel 44 and the lead screw 42 is high, and the phenomenon that the return movement does not occur after stopping can be realized.

The upper end surface of the connecting frame 31 on the left side of the rectangular block 41 is provided with an inverted hook 410, the right side of the inverted hook 410 is provided with a fixed shaft 411, the front end and the rear end of the fixed shaft 411 are symmetrically provided with vertical plates 412, the lower end of each vertical plate 412 is arranged on the upper end surface of the connecting frame 31 on the right side of the rectangular block 41, the fixed shaft 411 is provided with an elastic bandage coil 413 in a sliding fit mode, the left end of the elastic bandage coil 413 is in a sliding fit mode with the inverted hook 410, after goods are stored and arranged on the first sliding plate 32, the second sliding plate 33 and the expansion plate 35 in a manual mode, the elastic bandage coil 413 is pulled leftwards in a manual mode and is attached to the upper end of the goods to move, then the left end of the elastic bandage is clamped on the inverted hook 410, at the moment, the goods are fastened between the elastic bandage and the first sliding plate 32, the second sliding plate 33 and the expansion plate 35 by the elastic bandage, namely, the goods stored and the goods are assisted in fixing and limiting effects are achieved, thereby reducing the probability of loosening due to relative sliding of stored goods, and simultaneously avoiding the rigid damage to the goods by the elastic bandage.

The front end and the rear end of the vertical frame 11 adjacent to the right side of the belt 43 are symmetrically provided with the ear plates 431, the ear plates 431 are of an upper-lower arrangement structure, a scroll 432 is arranged between the ear plates 431, a film sealing roll 433 is arranged on the scroll 432 in a sliding fit mode, the rear end of the left drawing end of the film sealing roll 433 is provided with a magnetic block 434, the right left side of the film sealing roll 433 is provided with a magnetic strip 435, the magnetic strip 435 is arranged on the outer side end surface of the vertical frame 11 at the left end of the first sliding plate 32 in the front-rear direction, after the goods storage is finished, the sealing film is pulled leftwards from the sealing film roll 433 by a manual mode, the magnetic block 434 moves synchronously with the sealing film until the magnetic block 434 moves to be opposite to the magnetic strip 435, then the magnetic block 434 is absorbed on the magnetic strip 435 to fix the sealing film, at this time, a closed space is formed between the sealing film and the vertical frame 11 and the top plate 12, the phenomena of dust and other impurities accumulation, dampness and the like of stored goods are avoided, and the quality of the stored goods is further ensured.

When the rolling device works, in an original state, the arc concave plate 15 is separated from the roller shaft, the roller shaft is in a rollable state, the rotating wheel 44 is rotated manually, the rotating wheel 44 drives the two screw rods 42 to rotate synchronously through the belt 43, the screw rods 42 drive the first sliding plate 32 and the second sliding plate 33 to move oppositely through the rectangular block 41 so as to increase the distance between the connecting plates, the first sliding plate 32 and the second sliding plate 33 drive the lugs 34 connected with the first sliding plate and the second sliding plate to move oppositely, the telescopic plate 35 simultaneously performs synchronous extension movement, after the distance adjustment is finished, the vertical block 17 is pulled towards the inner side in the front-back direction manually, the vertical block 17 drives the arc concave plate 15 to move synchronously, the arc concave drives the shaft rod 16 to move synchronously until the arc concave plate 15 is completely sleeved on the roller wheel 14, at the time, the shaft rod 16 is also completely clamped into the outer side end in the front-back direction of the roller wheel 14, and the arc concave plate 15 and the shaft rod 16 are matched to play a role in stopping on the roller wheel 14, then, the height adjustment is carried out, the plate group 3 connected with the electric slide block 20 is driven to move upwards through the electric slide block 20, the first hollow push plate 21 drives the first moving plate 22 to move synchronously with the electric slide block 20, the first moving plate 22 pushes the push block 23 upwards, the push block 23 drives the plate group 3 connected with the push block 23 to move synchronously upwards, the second hollow push plate 24 drives the second moving plate 25 to move synchronously with the push block 23, the second moving plate 25 pushes the push block 26 to move upwards, the push block 26 drives the plate group 3 connected with the push block 26 to move synchronously, the distance adjusting motion can adjust the distance between the plate group 3 connected with the push block 26 and the top plate 12 to adapt to the size type of goods to be stored, when the distance between the plate groups 3 is required to be adjusted, the bayonet 27 on the first moving plate 22 can be pulled out and inserted into other appointed pin holes in a manual mode, the bayonet 27 on the second moving plate 25 can be pulled out and inserted into the pin holes different from the bayonet 27 on the first moving plate 22 in a manual mode or the second moving plate 27 on the first moving plate 22 is not changed The position of the bayonet 27 on the plate 25 is driven by the electric slider 20 to move the plate group 3 connected with the electric slider upwards, the first moving plate 22 can contact the push block 23 and push the push block to move upwards after moving synchronously with the electric slider 20 for a certain distance, the push block 23 moves the plate group 3 connected with the electric slider to move synchronously, the second moving plate 25 can contact the push plate and push the push plate to move upwards after moving synchronously with the push block 23 for a certain distance, the moving distances of the plate group 3 connected with the electric slider 20, the plate group 3 connected with the push block 23 and the plate group 3 connected with the push block 26 are different, so that the distances among the plate groups 3 are different, after the height adjustment is finished, goods are manually stored on a plane formed by the first sliding plate 32, the second sliding plate 33 and the telescopic plate 35, when tubular goods need to be stored, the clamping column 323 is manually pulled out and the rotating plate 322 is rotated upwards, the circular arc plate 324 rotates synchronously with the rotating plate 322, until the rotating plate 322 is rotated to a vertical state, the clamping column 323 is inserted again to fix the rotating plate 322 and the first sliding plate 32, then the tubular goods are placed between the adjacent arc plates 324 in a manual mode, the arc plates 324 can play a role in auxiliary fixing and limiting for the tubular goods, in the process of placing the tubular goods, the arc plates 324 are pushed outwards by the tubular goods, the arc plates 324 drive the compression springs 32a to do extension movement, after the tubular goods are placed, the arc plates 324 return inwards under the action of the compression springs 32a and clamp the tubular goods, the clamping degree of the tubular goods can be improved through matching between the compression springs 32a and the arc plates 324, when the small goods are stored, the extension plates 331 can be pulled inwards to slide out of the sliding grooves through the manual mode to reduce the distance between the second sliding plate 33 and the telescopic plate 35, and further the phenomenon that the distance between the second sliding plate 33 and the telescopic plate 35 is larger than the size of the small goods is avoided, so that the small goods are easy to be stored from the second goods to the first goods The phenomenon that drops in the clearance, when storing row's needs the goods that hangs, stir T type slider 351 one by one to the left side through the manual mode, and make and have a certain interval between the T type slider 351, then hang the goods on shining pole 352 through the manual mode, can make adaptability adjustment to the interval between group 3 and the existing work ground according to the goods length that hangs, after the goods is stored the row and is accomplished, through the manual mode from sealing membrane book 433 pulling sealing membrane left, magnet 434 is along with sealing membrane simultaneous movement, until magnet 434 moves to be just right relative with magnetic stripe 435, then adsorb magnet 434 on magnetic stripe 435 with fixed sealing membrane, form the enclosure space between this moment sealing membrane and erector 11 and roof 12, in order to avoid storing row's goods to take place impurity such as dust and accumulate and phenomenon such as weing, and then guarantee the quality of storage goods.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (4)

1. The utility model provides an improved generation storage rack, includes support body mechanism (1), height adjusting mechanism (2), board group (3) and width adjusting mechanism (4), its characterized in that: the lower end of the frame body mechanism (1) is arranged on the existing working ground in a sliding fit mode, the frame body mechanisms (1) are arranged on the left and right sides, the inner side end of the frame body mechanism (1) is provided with height adjusting mechanisms (2) in a sliding fit mode, plate groups (3) are arranged between the height adjusting mechanisms (2) at equal intervals from top to bottom, and the right lower end of each plate group (3) is provided with a width adjusting mechanism (4);

the frame body mechanism (1) comprises a vertical frame (11), a top plate (12), a connecting shaft (13), rollers (14), arc concave plates (15), a shaft lever (16) and a vertical block (17), wherein the top plate (12) is installed at the upper end of the vertical frame (11), a sliding fit mode is adopted between the inner side ends in the left and right directions of the top plate (12), rectangular through grooves are symmetrically formed in the front and back of the lower end face of the outer side end face of the vertical frame (11), the connecting shaft (13) is installed between the front inner side wall and the back inner side wall of each rectangular through groove, the rollers (14) are installed on the connecting shaft (13) in a sliding fit mode, rectangular grooves are symmetrically formed in the front inner side wall and the back inner side wall of each rectangular through groove, the arc concave plates (15) are installed in the rectangular grooves in a sliding fit mode, the shaft lever (16) is installed in the middle parts of the inner side end faces of the arc concave plates (15), and the outer side ends in the front and back directions of the rollers (14) are in a sliding fit mode, the outer side end face of the arc concave plate (15) in the left and right direction is provided with a vertical block (17), and the vertical block (17) is in sliding fit with the lower end of the vertical frame (11);

the height adjusting mechanism (2) comprises an electric slider (20), a first hollow push plate (21), a first moving plate (22), a push block (23), a second hollow push plate (24), a second moving plate (25), a push block (26), a clamping pin (27) and a support block (28), the electric slider (20) is arranged in a track groove in a sliding fit mode, the track groove is formed in the middle of the end face of the inner side of the vertical frame (11), the first hollow push plate (21) is arranged at the upper end of the electric slider (20), the second moving plate (25) is arranged in the first hollow push rod in a sliding fit mode, the push block (23) is arranged right above the second moving plate (25), sliding fit modes are respectively arranged between the push block (23) and the track groove and between the lower end face of the push block (23) and the upper end face of the first moving plate (22), the second hollow push plate (24) is arranged at the upper end of the push block (23), a second moving plate (25) is arranged in the second hollow push plate (24) in a sliding fit mode, a pushing block (26) is arranged right above the second moving plate (25), pin holes are formed in the outer side end faces of the first moving plate (22) and the second moving plate (25) at equal intervals from top to bottom, pin holes (27) are arranged in the pin holes at the lowest end of the outer side end faces of the first moving plate (22) and the second moving plate (25) in a sliding fit mode, the upper end faces of the first hollow push plate (21) and the second hollow push plate (24) are in sliding fit with the lower end faces of the adjacent pin holes (27), supporting blocks (28) are symmetrically arranged in the front-back direction below the pushing block (23) and the front-back direction below the pushing block (26), the lower end face of the pushing block (26), the lower end face of the pushing block (23) and the upper end face of the supporting block (28) are in sliding fit, and the outer side end of the supporting block (28) in the front-back direction is arranged at the inner side end of the track groove in the front-back direction;

the plate group (3) comprises connecting frames (31), a first sliding plate (32), a second sliding plate (33), a bump (34) and a telescopic plate (35), the connecting frames (31) are respectively installed at the inner side end of the electric sliding block (20), the inner side end of the push block (23) and the inner side end of the push block (26), the first sliding plate (32) is symmetrically arranged between the left connecting frame (31) and the right connecting frame (31) which are right opposite, the second sliding plate (33) is arranged at the inner side of the first sliding plate (32), the left end of the first sliding plate (32) is connected with the inner side end of the connecting frame (31) adjacent to the first sliding plate, the right end of the second sliding plate (33) is connected with the inner side end of the connecting frame (31) adjacent to the first sliding plate, the bump (34) is installed at the left end of the inner side end of the first sliding plate (32) and the right end of the outer side end of the second sliding plate (33), and the bump (34) on the first sliding plate (32) is connected with the outer side end of the second sliding plate (33) in a sliding fit mode, the convex block (34) on the second sliding plate (33) is connected with the inner side end of the first sliding plate (32) in a sliding fit mode, telescopic plates (35) are symmetrically arranged between the middle ends of the left and right opposite connecting frames (31) front and back, and the telescopic plates (35) are positioned between the second sliding plates (33);

the width adjusting mechanism (4) comprises a rectangular block (41), a lead screw (42), a belt (43) and a rotating wheel (44), the rectangular block (41) is installed at the lower end of a first sliding plate (32) and the lower end of a second sliding plate (33), a threaded hole is formed in the left end face of the rectangular block (41), the lead screw (42) is installed in the threaded hole in a threaded fit mode, the right end of the lead screw (42) is in a sliding fit mode with a vertical frame (11) at the upper end of the existing working ground, the right ends of the front lead screw (42) and the rear lead screw (42) which are opposite to each other are connected through the belt (43), the belt (43) is located on the right side of the vertical frame (11) at the upper end of the existing working ground, the rotating wheel (44) is arranged on the right rear side of the belt (43), and the rotating wheel (44) is connected with the rear end of the lead screw (42) at the rear end of the belt (43);

the middle part of the end face of the inner side of the second sliding plate (33) is provided with a sliding groove, and an extension plate (331) is arranged in the sliding groove in a sliding fit mode;

the outer side end of the upper end face of the first sliding plate (32) is provided with mounting through grooves at equal intervals from left to right, a round rod (321) is mounted between the left inner side wall and the right inner side wall of each mounting through groove, rotating plates (322) are symmetrically mounted at the front end and the rear end of each round rod (321) in a sliding fit mode, the upper end of the outer end face of each rotating plate (322) is provided with a through hole groove, clamping columns (323) are mounted in the through hole grooves in a sliding fit mode, a sliding fit mode is adopted between the clamping columns (323) and the round rods (321), and an arc plate (324) is arranged in the middle of the lower end of each rotating plate (322);

the front end face upper end of circular arc board (324) seted up the shaft hole, install the round pin axle through sliding fit mode in the shaft hole, between the front and back inside wall of round pin axle ann axle recess, the axle recess is seted up at the lower extreme of commentaries on classics board (322), be connected with compression spring (32a) between the upper end of adjacent circular arc board (324), be sliding fit mode between compression spring (32a) and the axle recess.

2. An improved storage rack as claimed in claim 1, wherein: the elastic bandage is characterized in that an inverted hook (410) is installed on the upper end face of a connecting frame (31) on the left side of a rectangular block (41), a fixed shaft (411) is arranged on the right side of the inverted hook (410), vertical plates (412) are symmetrically installed at the front end and the rear end of the fixed shaft (411), the lower end of each vertical plate (412) is installed on the upper end face of the connecting frame (31) on the right side of the rectangular block (41), an elastic bandage coil (413) is installed on the fixed shaft (411) in a sliding fit mode, and the left end of the elastic bandage coil (413) is in a sliding fit mode with the inverted hook (410).

3. An improved storage rack as claimed in claim 1, wherein: the utility model discloses a take (43) to put up the outside end face of front and back direction of vertical frame (11) of adjacent on belt (43) right side both ends symmetry install otic placode (431), otic placode (431) are upper and lower arrangement structure, install spool (432) between otic placode (431), install through sliding fit mode on spool (432) and seal membrane book (433), the magnetic path (434) are installed to the rear end of the left side pull end of sealing membrane book (433), the positive left side of sealing membrane book (433) is provided with magnetic stripe (435), magnetic stripe (435) are installed at the outside end face of the front and back direction of a slide (32) left end vertical frame (11).

4. An improved storage rack as claimed in claim 1, wherein: the lower terminal surface right-hand member middle part of expansion plate (35) seted up the slider recess, install T type slider (351) through sliding fit mode in the slider recess, be connected with between the lower extreme of the just relative T type slider (351) of front and back and shine pole (352).

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