CN112293963A - High-stability simple storage device - Google Patents

Abstract

The invention discloses a high-stability simple storage device. The storage bin comprises an upper layer plate, a lower layer plate, side plates connected to two sides of the upper layer plate and the lower layer plate, and a corresponding rear enclosing plate, wherein open frame beams are respectively arranged on two corresponding sides of the layer plates and the side plates, angle-shaped occlusion joints are respectively arranged at two corresponding ends of the open frame beams of the layer plates, composite containing occlusion grooves correspondingly connected with the angle-shaped occlusion joints are respectively arranged at corresponding positions of the open frame beams on two sides of the side plates, and the layer plates and the side plates are mutually connected through a multifunctional self-service reinforced connecting device. The high-stability simple storage device is simple and reasonable in structure, reliable in connection structure, firm and firm, and simple in assembly process.

Description

High-stability simple storage device

Technical Field

The invention relates to a high-stability simple storage device.

Background

The storage rack is basically to solve the contradiction between the stability and the firmness of a thinner metal plate and a rack body, and the contradiction between the simple rationality of a connecting structure and a connecting mode and the contradiction between the reliability and the firmness of connection, in order to solve the contradictions, the existing storage rack mostly adopts all-metal thin plates, but because the plates are thin and the overall structure and the connecting structure of the rack body are not reasonable, the connection stability between the corresponding parts and the stability and the firmness of the connected rack body are not enough, and when the welding mode is adopted for connecting and assembling the rack body, the plates are thin, the welding is difficult, the strength of the welding position is weakened and deformed, the connecting structure is unstable, and the manufacturing process is long, high cost and inconvenient assembly.

Disclosure of Invention

The present invention is directed to solving the above-mentioned problems of the prior art and providing a compact storage unit with high stability. The high-stability simple storage device is simple and reasonable in structure, reliable in connection structure, firm and firm, and simple in assembly process.

The technical scheme includes that the storage bin comprises an upper layer plate, a lower layer plate, side plates connected to two sides of the upper layer plate and the lower layer plate, and corresponding rear enclosing plates, open frame beams are arranged on two corresponding sides of the layer plates and the side plates respectively, angle-shaped snap joints are arranged at two corresponding ends of the open frame beams of the layer plates respectively, composite containing snap grooves correspondingly connected with the angle-shaped snap joints are arranged at corresponding parts of the open frame beams on two sides of the two ends of the side plates respectively, and the layer plates and the side plates are connected with each other through a multifunctional self-service reinforced connecting device.

The multifunctional self-service reinforced connecting device further comprises a positioning and locking device connected between the multifunctional self-service reinforced connecting device and the side plate or between the multifunctional self-service reinforced connecting device and the side plate and the laminate.

The positioning and locking device comprises a network connection type positioning and locking device, the network connection type positioning and locking device comprises a flat plate type or angle type network connection type locking clamping body and interlocking clamping holes arranged on the corresponding side edges of the angle type engagement joints of the laminated plate, and the two opposite ends of the flat plate type or angle type network connection type locking clamping body are respectively provided with a containing groove corresponding to the angle type engagement joints of the laminated plate and interlocking clamping heads respectively arranged on the containing groove and correspondingly connected with the interlocking clamping holes.

The multifunctional self-service reinforced connecting device comprises a plurality of multifunctional self-service reinforced connecting bodies and a mutual-service bolt connecting device arranged between the multifunctional self-service reinforced connecting bodies and the side plates.

The invention relates to a multifunctional self-service reinforced connecting device and a shoulder thereof, wherein a laminate and a side plate are mutually tensioned and clamped and fixed in a transverse direction by the multifunctional self-service reinforced connecting device and the shoulder thereof, the multifunctional self-service reinforced connecting device, the laminate and the side plate are mutually interlocked and tightly connected and fixed in a longitudinal and transverse direction by a positioning locking device, an angle-shaped occlusion joint formed by an open frame beam of the laminate and a composite containing occlusion groove 13 and a right-angle containing groove formed by the open frame beam of the side plate are used for implementing the obliquely interlocked and tight connection and fixation in an interlocking way of angularly containing the interlocked occlusion, and further, all three components of a storage bin or a frame body are fixedly connected by the omnibearing integrated longitudinal, transverse and. Therefore, on the basis of simple and quick integral structure and assembly, the connecting structure is particularly reliable, very stable, high in strength, firm and durable.

Drawings

FIG. 1 is a schematic perspective view of a high firmness compact storage unit of an embodiment of the present invention; FIG. 2 is a schematic perspective view of a storage compartment of an embodiment of the high firmness compact storage apparatus of the present invention; FIG. 3 is an exploded view of the storage compartment of FIG. 2; FIGS. 4-7 are schematic perspective views of a side plate, a layer plate, a trough plate type multifunctional self-help strengthening connector, and an angle type network connection type locking fastener of the high-stability simple storage device according to an embodiment of the invention; FIG. 8 is a schematic perspective view of a alternately pinched locking clip in another embodiment of the present invention; FIG. 9 is a cross-sectional view of another embodiment of the network-connected locking clip; FIG. 10 is a schematic view of a partial structure of another embodiment of the multi-functional self-reinforcing connecting device.

Detailed Description

In order to facilitate a better understanding of the invention, the invention is further illustrated by the following examples in conjunction with the accompanying drawings.

As shown in fig. 1-7. This high steadiness letter simply connects strorage device includes the storehouse, and multi-functional self-service enhancement connecting device and location locking card device etc.. The storage bin 50 comprises an upper plate 2, a lower plate 2, a left side plate 1 and a right side plate 1, which form a split type storage bin. The split storage bins can form a storage unit of a single storage bin, form a single storage device, or form a split combined storage device of storage units of multiple storage bins.

The corresponding two sides of the laminated plate 2 and the side plate 1 are respectively provided with an open frame beam, the laminated plate, the side plate and the open frame beam are respectively formed by bending a metal plate on two opposite sides, and the cross sections of the laminated plate and the open frame beam of the side plate are respectively in a semi-open rectangular frame shape and a fully-open rectangular frame shape. The left and right ends of the open frame beam 21 of the laminated plate 2 are respectively provided with an angle type snap joint 22 protruding the plate end surface, the corresponding parts of the open frame beams on the two opposite sides of the upper and lower ends of the side plate 1 are respectively provided with a composite containing snap groove correspondingly connected with the angle type snap joint 22, and the composite containing snap groove comprises a containing bearing groove 13 arranged on one side edge of the side plate wall surface of the open frame beam and a right-angle containing groove 12 formed by the outer right-angle edge of the open frame beam.

The multifunctional self-service reinforced connecting device comprises a groove-shaped plate type multifunctional self-service reinforced connecting body 4, a mutual-service bolt connecting device and the like. The mutual-aid bolting device comprises tenon bolts 41 arranged on two opposite end faces of the groove-shaped plate type multifunctional self-aid reinforced connecting body 4, a positioning lock clamping groove 42 arranged on one side of the tenon bolts 41 close to the space in the storage bin, a plurality of elongated tenon bolt holes 14 which are arranged on the upper end portion and the lower end portion of the side plate 1 in an up-and-down direction in a distributed mode, and the like. The tenon 41 is formed by the protruding part protruding outwards from the end surface of the vertical side 43 at two opposite sides of the groove-shaped plate type multifunctional self-service reinforced connector 4, and the tenon 41 can be in a trapezoidal shape. The upper and lower shoulders 45 of the dowel 41 may be formed by the corresponding end faces of the vertical sides thereof. The bottom wall surface of the groove-shaped plate type multifunctional self-service reinforced connecting body 4 forms an abutting edge 44 which abuts against and is in press connection with the corresponding wall surface of the laminate.

The positioning locking device is a net-connected positioning locking device which comprises an angle-shaped net-connected locking clamping body 3 with an L-shaped cross section, interlocking clamping holes 23 respectively formed in the side edges of the plate surface side of the angle-shaped interlocking joint 22 of the plate 2, accommodating grooves 32 corresponding to the angle-shaped interlocking joint 22 of the plate 2 and arranged at the two opposite ends of the angle-shaped net-connected locking clamping body 3, interlocking clamping heads 31 respectively arranged on the accommodating grooves and correspondingly connected with the interlocking clamping holes 23, multidirectional locking edges 33 formed by the side edges of the side plates of the angle-shaped net-connected locking clamping body 3, and the like.

During assembly, the angle-shaped occlusion joints 22 at two ends of the open frame beams 21 at the front and the rear sides of the upper and the lower two-layer plates 2 are respectively embedded into the composite containing occlusion grooves at the upper and the lower open frame beams 11 of the side plates 1 at two sides, the tenon bolts 41 at two ends of the multi-functional self-service reinforced connecting body 4 of the groove-shaped plate type are respectively inserted into the long tenon bolt holes 14 passing through the side plates at two sides, the positioning lock clamp grooves 42 of the multi-functional self-service reinforced connecting body of the groove-shaped plate type on the outer side plate surfaces of the upper and the lower layer plates are respectively opposite to each other, the interlocking chucks 31 at two ends of the angle-shaped net-linked locking clamping body 3 are respectively clamped into the interlocking chuck holes 23 of the layer plates 2, the interlocking chucks 31 are correspondingly trapezoidal or wedge-shaped, the accommodating grooves 32 at two ends of the angle-shaped net-linked locking clamping body 3 are limited to be sleeved at the near and the lower side edges of the angle-shaped occlusion joints 22 of the, And the free edges of the multidirectional locking edges are clamped into the positioning lock clamping grooves 42 of the tenon bolts 41 of the groove-type plate-type multifunctional self-service reinforced connecting body 4.

The angle-type network connection locking clamping body is connected between the groove-type plate-type multifunctional self-service reinforced connecting body, the side plates and the laminates from the upper part and the lower part of the outer sides of the side plates on two sides respectively, so that the bottom wall surface of the groove-type plate-type multifunctional self-service reinforced connecting body is in butt joint with the laminates, the inner side plate wall surface of the side plate is in butt joint with the tenon bolt shoulder of the groove-type plate-type multifunctional self-service reinforced connecting body, an angle-type connecting part is formed by a right-angle containing groove of the side plate, the end surface of an angle-type interlock joint of the laminates and the outer side edge of the angle-type interlock joint, mutual interlock limiting multi-surface containing clamping connection is further formed, and the inner side edge (namely a multi-. And the longitudinal, transverse, oblique, vertical and other omnibearing mesh-shaped mutual clamping, interlocking, locking and fixed connection of the laminate and the side plate is implemented.

The storage unit of the split combined type storage device is formed by mutually stacking and laterally combining a plurality of split type storage bins 50 and connecting a plurality of fixed interconnection side plates 72, fixed interconnection seam plates 71, a plurality of interconnected top plates 74, a plurality of rear interconnection enclosing plates 73 and the like.

The interconnecting and fixing seam plates 71 are riveted or clamped at the side plate side parallel seam between the front sides of the two adjacent vertically stacked split storage bins 50 respectively, and are riveted or clamped at the side edges of the vertically stacked split storage bins and the corresponding stacked seam thereof on the two opposite outer sides of the split combined storage device frame body 70. The interconnecting fixing side plate 72 is riveted or clamped to the outer sides of the stacked separate storage compartments 50 on the left and right opposite outer sides of the rack body 70. The interconnecting back panel 73 is riveted or snapped to the rear side of all the separate storage compartments that make up its storage unit. The interconnecting top plate 74 is riveted between the split storage bins at the top of the rack. The split storage bins are fixedly connected with each other in an interconnecting way by interconnecting top plates, interconnecting fixed side plates, interconnecting back panels and interconnecting fixed seam plates between the adjacent split storage bins to form the split combined storage device with random combination scale.

In the embodiment 2, the high-stability simple storage device is formed by connecting a split storage bin with a top sealing plate, a bottom sealing plate, two side enclosing plates and a back enclosing plate, wherein a storage unit of a single storage bin is formed by the split storage bin. The rest of the structure and the corresponding connection mode of this example can be similar to the above-mentioned embodiments.

Example 3 is shown in FIG. 8. The positioning and locking device comprises a multi-connection positioning and locking device connected between the multifunctional self-service reinforced connector and the side plate. The multi-connected type positioning locking clamping device comprises a flat plate type mutually-clamped locking clamping body 3a, a mutually-clamped groove 3a1 is formed in one corresponding side of the flat plate type mutually-clamped locking clamping body 3a, and the flat plate type mutually-clamped locking clamping body 3a is connected between the multifunctional self-service reinforcing connecting body and the side plate in a mutually-clamped mode through the mutually-clamped groove 3a1 and a positioning locking clamping groove of the multifunctional self-service reinforcing connecting body. During the connection, the mutually clamped groove of the flat plate type mutually clamped locking clamping body is connected with the positioning locking clamping groove of the multifunctional self-service reinforced connector. The flat plate type inter-pinch locking clamping body is high in connection reliability with the side plate, and manufacturing and assembling processes are simpler on the basis of ensuring the stability of the connection structure. The rest of the structure and the corresponding connection mode of this example can be similar to the above-mentioned embodiments.

In example 4, itMulti-connected typeThe positioning lock clamp is an angle-shaped plate-type locking clamp body with an L-shaped cross section, a clamping edge corresponding to the positioning lock clamping groove of the tenon bolt of each multifunctional self-service reinforced connector is arranged on one corresponding side edge of the angle-shaped plate-type locking clamp body, and the angle-shaped plate-type locking clamp body is clamped on the wall surface of the corresponding plate of the side plate and the multifunctional self-service reinforced connector through the clamping edge and the positioning lock clamping grooves of the angle-shaped plate-type locking clamp bodyCan strengthen between the connector by oneself. The whole wall surface of the clamping edge of the angle plate type locking clamping body is in compression joint with the wall surface of the side plate. The angle plate type locking clamping body has strong mechanical strength and pressure contact force. The assembly process is relatively simpler. The rest of the structure and the corresponding connection method of this example can be similar to those of embodiment 3.

Example 5, as shown in fig. 9. The cross section of the side edge (i.e. the multidirectional locking edge) 33 of the angle type net connection type locking clamping body 3 close to one side of the side plate 1 is arc-shaped, and the plate surface of the arc-shaped outer arched edge of the multidirectional locking edge forms larger tension stress of the metal plate body. The free edge 33b of the multidirectional locking edge of the angle type network connection type locking clamping body 3 is provided with a corresponding mutual clamping groove which is correspondingly clamped with the positioning locking clamping groove 42 of the tenon bolt 41 of the groove plate type multifunctional self-service reinforced connecting body 4, and the angle edge 33a of the angle type network connection type locking clamping body is connected with the wall surface of a corresponding side plate in a press contact mode. Form a more reliable arcuate locking securement connection. The rest of the structure and the corresponding connection mode of this example can be similar to those of the above embodiment 1 or 2.

Example 6 is shown in FIG. 10. The mutual-aid bolt connecting device of the multifunctional self-service reinforced connecting device comprises tenon bolt holes 14 respectively arranged at the end parts of two ends of a side plate and necking distortion clamping type tenon bolts arranged at the corresponding two ends of the multifunctional self-service reinforced connecting body, wherein each necking distortion clamping type tenon bolt comprises a necking part 41b which is positioned at the corresponding end part of the multifunctional self-service reinforced connecting body and has the length matched with the thickness of the side plate and a tenon part 41a connected to the free end of the necking part. The multifunctional self-service reinforced connector is fixedly connected between the laminate and the side plate thereof through the necking distorted clamping type tenon bolt and tenon bolt hole and the distorted locking. During connection, the necking distorted clamping type tenon bolt of the multifunctional self-service reinforced connector is inserted into the tenon bolt hole of the side plate, the tenon head part of the tenon bolt is protruded out of the side plate, the tenon head part is distorted by a pliers tool, and the necking part of the tenon bolt clamps the side plate 2, so that self-adaptive lock clamp fixed connection is formed. The angle type network connection type locking clamping body 3 is positioned at the lower part of the necking distorted clamping type tenon bolt and is connected between the side plate and the laminate. The rest of the structure and the corresponding connection method of this example can be similar to those of the above-described embodiments 1 and 5.

Claims (4)

1. The utility model provides a high fastness simply connects storage rack, includes the storage compartment, the storage compartment include upper and lower plywood, connect in the both sides curb plate of upper and lower plywood to and corresponding back panel, its characterized in that: the laminated plate and the side plate are respectively provided with an open frame beam on corresponding two sides, the corresponding two ends of the open frame beam of the laminated plate are respectively provided with an angle-shaped occlusion joint, the corresponding parts of the open frame beams on the two sides of the two ends of the side plate are respectively provided with a composite containing occlusion groove correspondingly connected with the angle-shaped occlusion joints, and the laminated plate and the side plate are mutually connected through a multifunctional self-service reinforced connecting device.

2. The high security compact storage rack of claim 1, wherein: the multifunctional self-service reinforced connecting device further comprises a positioning and locking device connected between the multifunctional self-service reinforced connecting device and the side plate or between the multifunctional self-service reinforced connecting device and the side plate and the laminate.

3. The high security compact storage rack of claim 2, wherein: the positioning and locking device comprises a network connection type positioning and locking device, the network connection type positioning and locking device comprises a flat plate type or angle type network connection type locking clamping body and interlocking clamping holes arranged on the corresponding side edges of the angle type engagement joints of the laminated plate, and the two opposite ends of the flat plate type or angle type network connection type locking clamping body are respectively provided with a containing groove corresponding to the angle type engagement joints of the laminated plate and interlocking clamping heads respectively arranged on the containing groove and correspondingly connected with the interlocking clamping holes.

4. The high security compact storage rack of claim 1 or 2, wherein: the multifunctional self-service reinforced connecting device comprises a plurality of multifunctional self-service reinforced connecting bodies and a mutual-service bolt connecting device arranged between the multifunctional self-service reinforced connecting bodies and the side plates.

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