CN113389427A - Simple stable storage device - Google Patents

Abstract

The invention discloses a simple and stable storage device. Including the storage unit, the storage unit includes the plywood, connect respectively in the corresponding bounding wall of plywood both sides and rear side, and locate on the plywood, respectively with the corresponding lock interface on the bounding wall correspond the connector that alternates of being connected, characterized by still includes self-service locking device, self-service locking device is including self-service regulation formula auxiliary lock body, and set up in the locking recess on the corresponding one side lateral wall of the connector that alternates, self-service regulation formula auxiliary lock body through this locking recess power from the regulation formula kayser connect in alternate between connector and the corresponding bounding wall. The simple connection stable storage device has the advantages of simple and reasonable structure, reliable connection structure, stable frame body and no bolt connection and welding of the combined frame.

Description

Simple stable storage device

Technical Field

The invention relates to a simple and stable storage device.

Background

In order to save manufacturing consumables and production cost, the prior bone ash storage rack is mostly made of thin metal plates, when all components of the bone ash storage rack are made of thin metal plates, if a welding mode is adopted to connect and assemble the rack body, the welding is difficult, the strength of the welding position is weakened, the connecting structure is unstable and not firm, the whole components are easy to deform due to welding, and the manufactured bone ash storage rack has poor quality and poor firmness. And the connection structure modes such as screws, rivets and the like are adopted, and the stability and the firmness of the connection structure are also influenced due to insufficient stress caused by the thinner plate. Various connecting structures of buckling, riveting and welding are adopted for the purpose, but the traditional laminated plates on the same frame body and main body components of the laminated plates and the coaming are connected in various ways, so that on one hand, the processing and manufacturing process is complex, and the assembly operation procedures are more; on the other hand, the conventional fastening connection structure is not reasonable, the same composition structure is complex, the manufacturing process is complicated, the assembly operation is complex, particularly, the reliability and the connection strength of the connection structure are not enough, and the parts are easy to loosen, so that the stability and the mechanical strength of the parts and the whole frame body are seriously affected. For example, the existing coaming needs to be provided with an open notch on the side edge, so that the strength and the service life of the coaming are seriously influenced, the stability of the whole frame body is further influenced, and moreover, multiple connecting structures and connecting modes need to be arranged for adapting to the plywood and the coaming of the structure, so that the process is complex. When one connecting structure or connecting link is weak, the stability and the service life of other parts and the whole frame body are influenced. Therefore, the prior bone ash storage rack has the composition structures of the laminates, the coamings and the like, the connection structure thereof, the complexity of the installation and manufacturing process, the stability, the material consumption and the cost reduction which can not be better considered.

Disclosure of Invention

The present invention is directed to the above-mentioned problems of the prior art and provides a simple and stable storage device. The simple connection stable storage device is simple and reasonable in structure, reliable in connection structure, stable in formed frame body, free of bolt connection and welding of the frame assembly, capable of achieving quick manufacturing and installation of all parts, and capable of achieving quick connection combination installation of the whole frame body.

The technical scheme includes that the storage unit comprises a laminate, corresponding enclosing plates respectively connected to two sides and the rear side of the laminate, and penetrating connectors arranged on the laminate and respectively correspondingly connected with corresponding lock connecting holes in the enclosing plates.

The invention can avoid opening gaps on each corresponding coaming due to the reasonability of the connecting structure, for example, the invention can avoid that the front edge of the side coaming of the existing structure is provided with a gap type connecting structure, and the like, thereby not only improving the mechanical strength of the corresponding coaming, but also basically using the same connecting structure and/or connecting mode for the connecting structure, being very firm, having very simple manufacturing process and assembling operation process, having simple structure and manufacturing process of each component of the frame body, having no looseness of the connecting structure, and having high integral stability, high strength, firmness and durability of the frame body.

Drawings

FIG. 1 is a schematic perspective view of a connection structure between a layer board and a corresponding side wall board according to an embodiment of the simple connection and stabilization storage device of the present invention; FIG. 2 is a partial sectional view of a laminate thereof; FIG. 3 is a longitudinal sectional view of the frame body of FIG. 2 along the depth direction; FIG. 4 is a perspective view of a connection structure of a laminate and a back panel; FIG. 5 is a perspective view of the side panel structure; FIG. 6 is a perspective view of another embodiment of a connection structure of a laminate and a back panel according to the present invention; fig. 7 is a side view of fig. 6.

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. 1-5. This storage device that stabilizes is joined soon includes a plurality of memory cell, and its memory cell's plywood 10 is equipped with respectively all around erect limit 10a, connects respectively in the relative both sides of plywood 10 and the both sides bounding wall 8 and the back bounding wall 9 of rear side, roof 15, still includes self-service locking device etc. that plywood and bounding wall are connected.

Side panels 21 are arranged on the left and right outer sides of the storage device, open square-shaped reinforcing flanges 14a are respectively arranged on two opposite sides of the side wall plate 8, and a single-side reinforcing flange 14 or an open square-shaped reinforcing flange 14a is respectively arranged at the upper end and the lower end of the side wall plate. Open-loop reinforcing flanges 21a are arranged on two sides of the side panel 21, and a plurality of downward-inclined hanging buckles 22 are arranged on the open-loop reinforcing flanges. The downward inclined buckle 22 is formed by punching a side panel. The open edges of the open square-shaped reinforcing folds 14a at the two opposite sides of the side coamings at the left and right outer sides of the storage device frame body are provided with a plurality of trapezoidal buckling holes 6a correspondingly connected with the declination buckling clips 22 of the side panels 21. The side panels are clamped and hung on the coamings at the two sides of the storage device through the declination hanging buckle clips 22 corresponding to the trapezoidal hanging buckle holes 6 a.

The laminate is provided with corresponding interpenetration connectors. The coamings are respectively provided with a lock-joint hole. The interpenetration connector comprises a plurality of side-arranged multifunctional self-locking connectors 5 respectively arranged on vertical edges 10a at two opposite sides of a laminate 10, and a plurality of duplex locking groove clamping bodies 4 respectively arranged on the vertical edges 10a at the rear side of the laminate.

The locking hole of the coaming comprises a side trapezoidal self-locking hole 6 which is respectively arranged on the coamings 8 at two opposite sides of the coamings and correspondingly connected with the side multi-energy self-locking connector 5 at the vertical edges at two sides of the coamings, and a compound locking hole 7 which is respectively arranged on the back coamings 9 and correspondingly connected with the compound locking groove clamping body 4 at the vertical edge at the back side of the coamings. The side-mounted or vertical type multifunctional self-locking connector is provided with a bent crutch clamping part, and the radian or width of the bent crutch clamping part is smaller than the thickness of the corresponding surrounding plate. The bent clamping part forms clamping locking force on the coaming. The compound lock-joint hole is formed by two rectangular lock-joint holes which are punched by a machine tool or cut by a laser cutting machine at the corresponding part of the back panel body and correspond to each other in parallel.

The bottom edge (wide edge) of the side-arranged trapezoidal self-locking hole 6 is close to the front side of the storage bin of the rack body, the top edge of the side-arranged trapezoidal self-locking hole faces one side of the back panel, and the open end (free end) of the side-arranged multifunctional self-locking connecting body 5 faces the back panel. So as to obtain better clamping, clamping and fixing connection effect. The opening angle of the corresponding side plate surface of the lateral and vertical multifunctional self-locking buckling body can be smaller than 70 degrees.

The laminated plate and the surrounding plates at two sides of the laminated plate are matched with the corresponding side-arranged trapezoidal self-locking holes through the side-arranged multifunctional self-locking connecting bodies with the free ends of the surrounding plates in a shearing shape, and meanwhile, multi-direction stress self-adaptive adjustment locking and fixing connection is formed by shearing clamping force in the plate thickness direction and plate wall bending expansion force of the wedge-shaped opening and the side-arranged multifunctional self-locking connecting bodies. The connection method comprises the following steps: the laminated board is pushed forward from the front to the back enclosing board, so that the side multi-functional self-locking connector obliquely penetrates through the side trapezoidal self-locking buckling hole of the side enclosing board, and the board is clamped in the side trapezoidal self-locking hole in the thickness direction and the vertical top.

The connection structure and the connection structure of main relevant parts of the frame body are very simple, the connection is very firm and effective, and meanwhile, the whole frame body is very stable, firm and durable due to the connection structure and the connection acting force of the surrounding plates at the two opposite sides and the rear surrounding plate in different directions.

The side multifunctional self-locking connector is a side multifunctional self-locking inclined tongue plate formed by punching a corresponding vertical edge punch of a laminate or cutting a U-shaped line notch by a laser cutting machine. One end of the side-arranged multifunctional self-locking connector is connected with the corresponding vertical edge of the laminate.

The laminate 10 includes upper and lower panels, left and right vertical edges 10a and front vertical edges 10b, and a plurality of double-lock-groove engaging bodies 4 provided on the rear side. The upper panel 1 and the lower panel 2 of the laminate are respectively composed of an upper panel body and a lower panel body of a horizontal U-shaped plate (or a horizontal groove plate) with a U-shaped bottom edge in a plane and an approximate U shape.

The left and right opposite vertical edges 10a of the laminate are formed by folding edges which are bent by 90 degrees towards the upper plate body respectively at the left and right opposite sides of the lower plate body of the horizontal U-shaped plate. The front vertical side 10b is formed by the U-shaped bottom side of the horizontal U-shaped plate.

The compound locking groove clamping body of the laminate is two mutually parallel winding locking connection pieces formed by respectively protruding and extending corresponding parts of the open end faces of the upper and lower plate bodies of the open end of the horizontal U-shaped plate. The two opposite side folded vertical edges of the lower plate body (namely the lower plate 2) of the horizontal U-shaped plate are contacted with the inner wall surface of the other plate body (namely the upper plate 2) of the horizontal U-shaped plate.

A plurality of side-mounted multifunctional self-locking connectors 5 are arranged on the vertical edges at two sides formed by the folded edges of the lower panel. One end of the side-mounted multifunctional self-locking connector is a free end, the other end of the side-mounted multifunctional self-locking connector is connected with the vertical edge of the U-shaped plate or the lower panel, and the side-mounted multifunctional self-locking connector 5 can be formed by cutting a U-shaped line notch through a laser cutting machine.

The laminated board comprises all components of vertical edges, a side multi-energy self-locking connector 5, a compound locking groove clamping body 4, an upper panel and a lower panel, and is formed into an integral body by punching or laser cutting and/or bending and folding edges of a board body machine tool.

The self-service locking device comprises a self-service adjusting auxiliary lock body and locking grooves 13 which are respectively arranged on the side wall of the corresponding side of the inserting connecting body. The self-adjusting auxiliary lock body comprises an independent curved single locking plate or an interlocking plate, or comprises an integrated curved single locking plate or an interlocking plate, and one end of the integrated curved single locking plate or the interlocking plate is fixedly connected to the corresponding enclosing plate. The self-adjusting auxiliary lock body is connected between the outer side of the corresponding surrounding plate and the self-locking buckle body in a self-adjusting type auxiliary locking mode through the force of the locking groove.

In this example, the self-adjusting secondary lock body is a free standing curved interlocking piece 11, the wall (face) of which is curved or curled into a curved or curved arc. And a locking groove 13 is respectively arranged on the side wall surface of one corresponding side of each vertical row of compound locking groove clamping body of each layer of layer plate of the back panel. After the plywood and the corresponding coaming are locked and connected through the double lock slot clamping body 4 and the corresponding lock connection hole (double lock connection hole). A free standing curved interlocking piece 11 is forcibly press-inserted into the locking recess of the multiple lock groove catching body from one side thereof. The width of the locking groove or the corresponding width of the locking groove on the exterior of the enclosure is adapted to or slightly wider than the thickness of the insert portion of the free standing curved interlocking tab. The locking groove is used for inserting the double-locking-groove clamping body or the independent curved interlocking piece into one side of the locking groove, limiting and limiting the double-locking-groove clamping body or the independent curved interlocking piece, and then the other side of the double-locking-groove clamping body or the independent curved interlocking piece is pushed against the corresponding surrounding plate by using arc force to realize locking.

The self-locking snap-lock connection device utilizes an arc-shaped or curved-shaped structure to combine with a metal material to manufacture a certain elastic force of the metal material, does not need an additional connecting part, and realizes the locking force self-adjusting snap-lock connection of the self-locking snap-lock body and a corresponding coaming in a self-service mode. To further lock the secure attachment of the respective fence to the deck. The frame body obtains higher connection stability and strength. Even if a strong external deformation force acts, the required stability can still be maintained.

The enclosing plates on two opposite sides of the enclosing plate of the storage unit are provided with quick-connection positioning devices corresponding to each other, and each quick-connection positioning device comprises a quick-installation groove 18 arranged on the single-edge reinforcing folding edge 14 at the lower end of the enclosing plate on one side of the enclosing plate and a quick-installation convex body arranged on the single-edge reinforcing folding edge at the lower end of the enclosing plate on the other side of the enclosing plate and matched with the quick-installation groove 18 in a corresponding inserting mode.

And a chain quick-assembly device is arranged between the top plate and each corresponding enclosing plate, and comprises an interlocking convex body 17 and a chain mounting hole 16, wherein the interlocking convex body 17 is formed by protruding the two side edge parts of the upper end of the side enclosing plate or integrally extending the upper end of the side enclosing plate upwards, and the chain mounting hole is formed in the top plate and is respectively connected with the interlocking convex body.

When a plurality of storage units 20 of the simple connection stable storage device are assembled and fixedly installed, the storage units are sequentially extruded from one corresponding side (left) to the other side (right) to be in place, and the storage unit frames are fixed on an installation base surface (ground) in a sequential extrusion mode through the single-side reinforcing folding edge 14 at the lower end of the right side coaming of the storage unit which is in place one by using screws (expansion screws) 19. Installation continues in this manner until all of the storage units that need to be installed are installed. The upper end of the storage device is connected with an interlocking convex body 17 through an interlocking mounting hole 16 of a top plate to carry out uniform interlocking positioning and fixing on each storage unit frame; the lower end of the storage device is butted with the fast-assembly convex body through the fast-assembly groove 18 to form front-back positioning and fixing installation of each storage unit. Each storage unit only needs one side coaming to be fixed on the installation base surface through a lower end reinforcing single-side reinforcing flange through a fastener (such as a bulging screw). The mounting process can be obviously simplified, and the mounting stability of the storage device can be effectively improved and enhanced. The formed storage rack device is very stable, firm and reliable. The storage device can be formed without any screw connector, fastener and welding, and has a very simple and stable structure and manufacturing process.

In another embodiment, as shown in FIGS. 6-7. The self-adjusting auxiliary lock body is an integrated curved single locking plate 12 with one end connected with a corresponding side wall plate. The integrated curved single locking plate 12 is formed by a door tongue plate formed by laser cutting a door-shaped notch surrounding part at one side corresponding to a locking hole (namely a side-arranged trapezoidal self-locking buckling hole) of a surrounding plate, and the free end of the door tongue plate is bent and pressed into the side-arranged trapezoidal self-locking buckling hole 6 to form force self-adjusting auxiliary locking. The door bolt plate is bent to form a curved bolt plate. The rest of the structure and the corresponding connection mode of this example can be similar to the above-mentioned embodiments.

In another embodiment, all of the plurality of storage units are provided with a back panel and a top panel, and the back panel is respectively provided with a vertical trapezoidal self-locking buckling hole double locking connection hole connected with a self-locking buckling body or a double locking groove buckling body of the back vertical edge of the laminate of each unit. The storage device is composed of a top plate, a back enclosing plate, a plurality of storage unit side enclosing plates and corresponding laminates, and through the quick-connection positioning device and the interlocking quick-assembly device, the storage units are spliced side by side without any screwed pieces, fasteners and welding, expansion screws are not needed, the storage device is not needed to be fixed on the ground, and the storage device with a very simple and stable structure can also be formed. The rest of the structure and the corresponding connection mode of the present example can be similar to any of the above embodiments.

Claims (1)

1. The utility model provides a strorage device that simply connects, includes the storage unit, the storage unit includes the plywood, connect respectively in the corresponding bounding wall of plywood both sides and rear side, and locate on the plywood, correspond the connector that alternates of being connected with corresponding lock interface on the bounding wall respectively, characterized by still includes self-service locking device, self-service locking device is including self-service regulation formula auxiliary lock body, and set up in the locking recess on the corresponding one side lateral wall of the connector that alternates, self-service regulation formula auxiliary lock body through this locking recess power self-regulation formula kayser connect in alternate between connector and the corresponding bounding wall.

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