CN210589181U - Stamping workpiece loading device - Google Patents

Abstract

A stamped workpiece loading apparatus comprising: the bearing assembly comprises a material loading base platform, a first material loading positioning plate and a second material loading positioning plate, the supporting assembly comprises a first supporting lug and a second supporting lug, the first pressing assembly comprises a first placing limiting block and a first pressing block, and the second pressing assembly comprises a second placing limiting block and a second pressing block. The utility model discloses a punching press work piece loading attachment compresses tightly the subassembly through setting up carrier assembly, supporting component, first subassembly and the second that compresses tightly to can adopt the mode of piling up to deposit the shell stamping workpiece, and can make two adjacent shell stamping workpiece mutual intervals place, avoid two adjacent shell stamping workpiece to take place the contact from this, make the shell stamping workpiece can avoid bumping or rubbing and lead to damaging depositing the in-process, guarantee the production quality of shell stamping workpiece from this.

Description

Stamping workpiece loading device

Technical Field

The utility model relates to a punching press work piece processing technology field especially relates to a punching press work piece loading attachment.

Background

The stamping part is a forming processing method which applies external force to plates, strips, pipes, profiles and the like by a press and a die to cause plastic deformation or separation of the plates, the strips, the pipes, the profiles and the like so as to obtain workpieces (stamping parts) with required shapes and sizes. Stamping and forging are plastic working (or called pressure working), and are called forging and pressing. The stamped blanks are mainly hot and cold rolled steel sheets and strips.

As shown in fig. 1, a housing stamping 10 includes a housing panel 11 and housing side plates 12 disposed on two side surfaces of the housing panel 11; in an actual processing operation, an insulating film attaching operation needs to be performed on the housing stamping part 10 formed by stamping, so that the surface of the housing panel 11 of the housing stamping part 10 is an insulating structure, and thus the housing stamping part can be applied to a chassis product.

However, after the insulating film attaching operation is completed, the conventional housing stamping part 10 is generally placed in a storage iron frame for storage, so that the storage iron frame is easy to scrape the surface of the housing stamping part 10, and the insulating film on the housing panel 11 is damaged, thereby affecting the quality of production and processing; meanwhile, the housing stamping parts 10 in the storage iron frame are placed in a mutually overlapped mode, so that the two adjacent housing stamping parts 10 are easy to rub in the transportation and carrying process, and thus, the insulating film on the housing panel 11 can be damaged. In addition, in prior art, also can adopt the storage frame structure to deposit shell stamping workpiece 10, namely, hang shell stamping workpiece 10 in the position department of placing of storage frame, then, when carrying the storage frame, shell stamping workpiece 10 on the storage frame can rock, so, can lead to two adjacent shell stamping workpiece 10 to bump for shell stamping workpiece 10 damages easily, and in addition, in handling, shell stamping workpiece 10 on the storage frame drops easily, thereby breaks the product.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, provide an adopt the mode of piling up to deposit the shell stamping workpiece, and can make the punching press work piece loading attachment that two adjacent shell stamping workpieces separated from each other and placed.

The purpose of the utility model is realized through the following technical scheme:

a stamped workpiece loading apparatus comprising:

the bearing assembly comprises a material loading base station, a first material loading positioning plate and a second material loading positioning plate, wherein the first material loading positioning plate and the second material loading positioning plate are respectively arranged on the material loading base station, and a square loading area is arranged between the first material loading positioning plate and the second material loading positioning plate;

the supporting assembly comprises a first supporting bump and a second supporting bump, the first supporting bump is arranged on the first material loading positioning plate, and the second supporting bump is arranged on the second material loading positioning plate;

the top of the first supporting lug is provided with a first supporting limiting groove, the bottom of the first supporting lug is provided with a first mounting connecting hole, the top of the first supporting lug is also provided with a first mounting connecting column, and the first mounting connecting hole is aligned with the first mounting connecting column;

a second support limiting groove is formed in the top of the second support bump, a second mounting connecting hole is formed in the bottom of the second support bump, a second mounting connecting column is further arranged on the top of the second support bump, and the second mounting connecting hole is aligned with the second mounting connecting column;

the first pressing assembly comprises a first placing limiting block and a first pressing block, the first placing limiting block is arranged on the first material loading positioning plate, the first placing limiting block and the first supporting lug are arranged in parallel, a first placing groove is formed in the top of the first placing limiting block, a first pressing boss is arranged on the first pressing block, the first pressing boss is arranged in the first placing groove, and a first avoidance area is arranged between the first pressing boss and the first placing groove;

the bottom of the first placing limiting block is provided with a first stacking hole, the top of the first pressing block is provided with a first connecting convex column, and the first connecting convex column is aligned with the first stacking hole; and

the second pressing assembly comprises a second placing limiting block and a second pressing block, the second placing limiting block is arranged on the second material loading positioning plate, the second placing limiting block and the second supporting lug are arranged in parallel, a second placing groove is formed in the top of the second placing limiting block, a second pressing boss is arranged on the second pressing block, the second pressing boss is arranged in the second placing groove, and a second avoiding area is arranged between the second pressing boss and the second placing groove;

the bottom of the second placing limiting block is provided with a second stacking hole, the top of the second pressing block is provided with a second connecting convex column, and the second connecting convex column is aligned with the second stacking hole.

In one embodiment, the first material loading positioning plate and the second material loading positioning plate are arranged in parallel.

In one embodiment, a first conveying limiting groove and a second conveying limiting groove are formed in one side surface of the material loading base platform.

In one embodiment, the first carrying and limiting groove and the second carrying and limiting groove are both square through grooves.

In one embodiment, the first supporting protrusion, the second supporting protrusion, the first placement limiting block, and the second placement limiting block are respectively located at four diagonal positions of the square loading area.

In one embodiment, the surface of the first pressing projection is provided with a first elastic protection layer.

In one embodiment, the first elastic protection layer is a silica gel protection layer.

In one embodiment, the surface of the second pressing projection is provided with a second elastic protection layer.

In one embodiment, the second elastic protection layer is a rubber protection layer.

In one embodiment, the first pressing boss and the second pressing boss are both magnet bosses.

Compared with the prior art, the utility model discloses at least, following advantage has:

the utility model discloses a punching press work piece loading attachment compresses tightly the subassembly through setting up carrier assembly, supporting component, first subassembly and the second that compresses tightly to can adopt the mode of piling up to deposit the shell stamping workpiece, and can make two adjacent shell stamping workpiece mutual intervals place, avoid two adjacent shell stamping workpiece to take place the contact from this, make the shell stamping workpiece can avoid bumping or rubbing and lead to damaging depositing the in-process, guarantee the production quality of shell stamping workpiece from this.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural view of a housing stamping;

fig. 2 is a schematic structural view of a press work loading apparatus according to an embodiment of the present invention;

fig. 3 is a schematic view of a first pressing assembly of the press work loading apparatus of fig. 2.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

It is noted that as used herein, reference to an element being "connected" to another element also means that the element is "in communication" with the other element, and fluid can be in exchange communication between the two.

In one embodiment, a stamped workpiece loading apparatus includes: the bearing assembly comprises a loading base station, a first loading positioning plate and a second loading positioning plate, the first loading positioning plate and the second loading positioning plate are respectively arranged on the loading base station, and a square loading area is arranged between the first loading positioning plate and the second loading positioning plate; the supporting assembly comprises a first supporting lug and a second supporting lug, the first supporting lug is arranged on the first material loading positioning plate, and the second supporting lug is arranged on the second material loading positioning plate; the top of the first supporting lug is provided with a first supporting limiting groove, the bottom of the first supporting lug is provided with a first mounting connecting hole, the top of the first supporting lug is also provided with a first mounting connecting column, and the first mounting connecting hole is aligned with the first mounting connecting column; a second support limiting groove is formed in the top of the second support bump, a second mounting connecting hole is formed in the bottom of the second support bump, a second mounting connecting column is further arranged on the top of the second support bump, and the second mounting connecting hole is aligned with the second mounting connecting column; the first pressing assembly comprises a first placing limiting block and a first pressing block, the first placing limiting block is arranged on the first material loading positioning plate, the first placing limiting block and the first supporting lug are arranged in parallel, a first placing groove is formed in the top of the first placing limiting block, a first pressing boss is arranged on the first pressing block, the first pressing boss is arranged in the first placing groove, and a first avoidance area is arranged between the first pressing boss and the first placing groove; the bottom of the first placing limiting block is provided with a first stacking hole, the top of the first pressing block is provided with a first connecting convex column, and the first connecting convex column is aligned with the first stacking hole; the second pressing assembly comprises a second placing limiting block and a second pressing block, the second placing limiting block is arranged on the second material loading positioning plate, the second placing limiting block and the second supporting lug are arranged in parallel, a second placing groove is formed in the top of the second placing limiting block, a second pressing boss is arranged on the second pressing block, the second pressing boss is arranged in the second placing groove, and a second avoidance area is arranged between the second pressing boss and the second placing groove; the bottom of the second placing limiting block is provided with a second stacking hole, the top of the second pressing block is provided with a second connecting convex column, and the second connecting convex column is aligned with the second stacking hole. The utility model discloses a punching press work piece loading attachment compresses tightly the subassembly through setting up carrier assembly, supporting component, first subassembly and the second that compresses tightly to can adopt the mode of piling up to deposit the shell stamping workpiece, and can make two adjacent shell stamping workpiece mutual intervals place, avoid two adjacent shell stamping workpiece to take place the contact from this, make the shell stamping workpiece can avoid bumping or rubbing and lead to damaging depositing the in-process, guarantee the production quality of shell stamping workpiece from this.

The press work loading apparatus is described in order to better explain the concept of the press work loading apparatus. Referring to fig. 2, a press work loading apparatus 20 includes: the bearing assembly 100 comprises a loading base 110, a first loading positioning plate 120 and a second loading positioning plate 130, the first loading positioning plate 120 and the second loading positioning plate 130 are respectively arranged on the loading base 110, and a square loading area 140 is arranged between the first loading positioning plate 120 and the second loading positioning plate 130. In this embodiment, first year material locating plate and second year material locating plate parallel arrangement, so, can improve overall structure intensity for overall structure is compacter.

Further, a first carrying limiting groove 111 and a second carrying limiting groove 112 are formed in one side surface of the material loading base table 110, and both the first carrying limiting groove and the second carrying limiting groove are square through grooves.

It should be noted that the first material loading positioning plate and the second material loading positioning plate are arranged on the material loading base table 110 in parallel, so that the stacked shell stamping part 10 can be loaded, and the overall structural strength can be improved; through set up first transport spacing groove and second transport spacing groove on year material base station 110 to can adopt fork truck to carry year material base station 110, can carry the shell stamping workpiece 10 that stacks on bearing component 100 from this, thereby make the transport of shell stamping workpiece 10 shift the operation more fast and stable.

Referring to fig. 1 again, the supporting assembly 200 includes a first supporting protrusion 210 and a second supporting protrusion 220, the first supporting protrusion 210 is disposed on the first material loading positioning plate 120, and the second supporting protrusion 220 is disposed on the second material loading positioning plate 130;

further, the top of the first supporting bump 210 is provided with a first supporting limiting groove 211, the bottom of the first supporting bump 210 is provided with a first mounting connection hole, the top of the first supporting bump 210 is further provided with a first mounting connection column 212, and the first mounting connection hole is aligned with the first mounting connection column 212; the top of the second supporting bump 220 is provided with a second supporting limiting groove 221, the bottom of the second supporting bump is provided with a second mounting connecting hole, the top of the second supporting bump 220 is further provided with a second mounting connecting column 222, and the second mounting connecting hole is aligned with the second mounting connecting column.

It should be noted that, the first supporting protrusion 210 is disposed on the first material loading positioning plate 120, and the top of the first supporting protrusion 210 is provided with a first supporting limiting groove 211, so that by disposing the first supporting limiting groove 211, when the shell stamping part 10 is placed in the square loading area 140, the first supporting limiting groove 211 can limit and fix a diagonal of the shell stamping part 10, thereby avoiding the contact between the shell stamping part 10 and the first material loading positioning plate 120, and meanwhile, avoiding the contact between two adjacent shell stamping parts 10, so that the shell stamping part 10 can be prevented from being damaged due to collision or friction during the storage process, thereby ensuring the production quality of the shell stamping part 10. Through set up first installation connecting hole in the bottom of first support lug 210 to and set up first installation connecting post 212 at the top of first support lug 210, make in the actual in-process of depositing, can stack the installation with a plurality of first support lugs 210, realize the operation of stacking of a plurality of shell stamping workpiece 10 from this, and can separate two adjacent shell stamping workpiece 10. Similarly, the second supporting protrusion 220 is disposed on the second loading positioning plate, and the top of the second supporting protrusion 220 is provided with a second supporting limiting groove 221, so that, by disposing the second supporting limiting groove 221, when the housing stamping part 10 is placed in the square loading area 140, the second supporting limiting groove 221 can limit and fix a diagonal of the housing stamping part 10, thereby avoiding the contact between the housing stamping part 10 and the second loading positioning plate, and meanwhile, avoiding the contact between two adjacent housing stamping parts 10, so that the housing stamping part 10 can avoid collision or friction and damage in the storage process, thereby ensuring the production quality of the housing stamping part 10. Through set up the second installation connecting hole in the bottom of second support lug 220 to and set up second installation connection post 222 at the top of second support lug 220, in the actual in-process of depositing, can stack the installation with a plurality of second support lugs 220, realize the operation of stacking of a plurality of shell stamping workpiece 10 from this, and can separate two adjacent shell stamping workpiece 10.

Referring to fig. 2 and fig. 3, the first pressing assembly 300 includes a first placing limiting block 310 and a first pressing block 320, the first placing limiting block 310 is disposed on the first material loading positioning plate 120, the first placing limiting block 310 and the first supporting protrusion 210 are disposed in parallel, a first placing groove is disposed at the top of the first placing limiting block 310, a first pressing boss 321 is disposed on the first pressing block 320, the first pressing boss 321 is disposed in the first placing groove, and a first avoidance area 312 is disposed between the first pressing boss 321 and the first placing groove.

It should be noted that, the first placement limiting block 310 is disposed on the first material loading positioning plate 120, and the first placement groove is disposed at the top of the first placement limiting block 310, so that by disposing the first placement groove, when the shell stamping part 10 is placed in the square loading area 140, the first placement groove can limit and fix a diagonal of the shell stamping part 10, thereby avoiding the contact between the shell stamping part 10 and the first material loading positioning plate 120, and meanwhile, avoiding the contact between two adjacent shell stamping parts 10, so that the shell stamping part 10 can avoid collision or friction and damage in the storage process, thereby ensuring the production quality of the shell stamping part 10. After accomplishing the placing of shell stamping workpiece 10, through installing first compact heap 320 on first place stopper 310, thereby can compress tightly fixedly through the first shell panel 11 that compresses tightly boss 321 to shell stamping workpiece 10 of first compact heap 320, make shell stamping workpiece 10 place and can not take place the position removal after accomplishing, at this moment, a shell curb plate 12 of shell stamping workpiece 10 is located first avoidance of position district 312 department, carry out the position to shell curb plate 12 through first avoidance of position district 312 and prescribe a limit to, so, can prevent that shell stamping workpiece 10 from taking place the offset in handling.

Furthermore, a first stacking hole is formed in the bottom of the first placing limiting block, a first connecting convex column 322 is arranged at the top of the first pressing block 320, and the first connecting convex column 322 is aligned with the first stacking hole;

it should be noted that, the first stacking hole is formed in the bottom of the first placement limiting block, and the first connecting protruding column 322 is formed at the top of the first pressing block 320, so that in the actual storage process, the multiple first placement limiting blocks and the multiple first pressing blocks 320 can be stacked at the bottom, thereby achieving the stacking operation of the multiple shell pressing parts 10, and enabling the two adjacent shell pressing parts 10 to be spaced apart.

Referring to fig. 2 again, the second pressing assembly 400 includes a second placing limiting block and a second pressing block 410, the second placing limiting block is disposed on the second loading positioning plate, the second placing limiting block and the second supporting protrusion are arranged in parallel, a second placing groove is formed in the top of the second placing limiting block, a second pressing boss is disposed on the second pressing block, the second pressing boss is disposed in the second placing groove, and a second avoidance area is disposed between the second pressing boss and the second placing groove.

It should be noted that, the second is placed the stopper and is set up on the second year material locating plate, and the second is placed the top of stopper and has been seted up the second standing groove, so, through setting up the second standing groove, make the shell stamping workpiece place at square loading zone time, the second standing groove can carry out spacing fixed to the diagonal of shell stamping workpiece, avoid shell stamping workpiece and the contact of second year material locating plate from this, and simultaneously, can avoid two adjacent shell stamping workpieces to take place the contact, make the shell stamping workpiece can avoid bumping or friction and lead to damaging depositing the in-process, guarantee the production quality of shell stamping workpiece from this. Accomplish the back of placing of shell stamping workpiece, through installing the second compact heap on the stopper is placed to the second, thereby can compress tightly the boss through the second of second compact heap and compress tightly fixedly to the shell panel of shell stamping workpiece, make the shell stamping workpiece place can not take place the position after accomplishing and remove, at this moment, a shell curb plate of shell stamping workpiece is located the second and keeps away a district department, keep away the district through the second and carry out the position to the shell curb plate and inject, so, can prevent that shell stamping workpiece from taking place the skew in handling.

Further, a second stacking hole is formed in the bottom of the second placing limiting block, a second connecting convex column 411 is arranged at the top of the second pressing block 410, and the second connecting convex column is aligned with the second stacking hole.

It should be noted that, the second stacking holes are formed in the bottoms of the second placing limiting blocks, and the second connecting protruding columns are arranged at the tops of the second pressing blocks, so that in the actual storage process, the second placing limiting blocks and the second pressing blocks can be overlapped and installed at the bottom, therefore, the stacking operation of the shell pressing pieces 10 is achieved, and the two adjacent shell pressing pieces 10 can be spaced.

In one embodiment, the first supporting bump, the second supporting bump, the first placement limiting block and the second placement limiting block are respectively located at four diagonal positions of the square loading area, so that the shell stamping part 10 can be supported, limited and fixed by the first supporting bump, the second supporting bump, the first placement limiting block and the second placement limiting block, and the shell stamping part 10 can be stably placed on the first supporting bump, the second supporting bump, the first placement limiting block and the second placement limiting block; for another example, a first elastic protection layer is disposed on the surface of the first pressing boss, and preferably, the first elastic protection layer is a silica gel protection layer, so that the first pressing boss can be prevented from crushing the shell stamping part 10; for another example, a second elastic protection layer is disposed on the surface of the second pressing boss, and preferably, the second elastic protection layer is a rubber protection layer, so that the second pressing boss can be prevented from crushing the housing stamping part 10; if so, the housing stamping part 10 can be adsorbed and fixed by the magnetic force of the first compression boss and the second compression boss, so that the housing stamping part 10 can be stably placed.

Compared with the prior art, the utility model discloses at least, following advantage has:

the utility model discloses a punching press work piece loading attachment 20 is through setting up carrier assembly 100, supporting component 200, the first subassembly 300 and the second that compresses tightly subassembly 400 to can adopt the mode of piling up to deposit the shell stamping workpiece, and can make two adjacent shell stamping workpiece mutual intervals place, avoid two adjacent shell stamping workpiece to take place the contact from this, make shell stamping workpiece 10 can avoid bumping or rubbing and lead to damaging depositing the in-process, guarantee the production quality of shell stamping workpiece 10 from this.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A stamped workpiece loading apparatus, comprising:

the bearing assembly comprises a material loading base station, a first material loading positioning plate and a second material loading positioning plate, wherein the first material loading positioning plate and the second material loading positioning plate are respectively arranged on the material loading base station, and a square loading area is arranged between the first material loading positioning plate and the second material loading positioning plate;

the supporting assembly comprises a first supporting bump and a second supporting bump, the first supporting bump is arranged on the first material loading positioning plate, and the second supporting bump is arranged on the second material loading positioning plate;

the top of the first supporting lug is provided with a first supporting limiting groove, the bottom of the first supporting lug is provided with a first mounting connecting hole, the top of the first supporting lug is also provided with a first mounting connecting column, and the first mounting connecting hole is aligned with the first mounting connecting column;

a second support limiting groove is formed in the top of the second support bump, a second mounting connecting hole is formed in the bottom of the second support bump, a second mounting connecting column is further arranged on the top of the second support bump, and the second mounting connecting hole is aligned with the second mounting connecting column;

the first pressing assembly comprises a first placing limiting block and a first pressing block, the first placing limiting block is arranged on the first material loading positioning plate, the first placing limiting block and the first supporting lug are arranged in parallel, a first placing groove is formed in the top of the first placing limiting block, a first pressing boss is arranged on the first pressing block, the first pressing boss is arranged in the first placing groove, and a first avoidance area is arranged between the first pressing boss and the first placing groove;

the bottom of the first placing limiting block is provided with a first stacking hole, the top of the first pressing block is provided with a first connecting convex column, and the first connecting convex column is aligned with the first stacking hole; and

the second pressing assembly comprises a second placing limiting block and a second pressing block, the second placing limiting block is arranged on the second material loading positioning plate, the second placing limiting block and the second supporting lug are arranged in parallel, a second placing groove is formed in the top of the second placing limiting block, a second pressing boss is arranged on the second pressing block, the second pressing boss is arranged in the second placing groove, and a second avoiding area is arranged between the second pressing boss and the second placing groove;

the bottom of the second placing limiting block is provided with a second stacking hole, the top of the second pressing block is provided with a second connecting convex column, and the second connecting convex column is aligned with the second stacking hole.

2. The stamped workpiece loading apparatus of claim 1, wherein the first load lock plate is disposed parallel to the second load lock plate.

3. The pressing workpiece loading device according to claim 1, wherein a first conveying limiting groove and a second conveying limiting groove are formed in one side surface of the loading base.

4. The stamped workpiece loading apparatus of claim 3, wherein the first and second transport limit slots are both square through slots.

5. The stamped workpiece loading apparatus of claim 1, wherein the first support tab, the second support tab, the first placement limiting block, and the second placement limiting block are located at four diagonal positions of the square loading area, respectively.

6. The stamped workpiece loading apparatus of claim 1, wherein a surface of the first pressing boss is provided with a first elastic protection layer.

7. The stamped workpiece loading apparatus of claim 6, wherein the first resilient protective layer is a silicone protective layer.

8. The stamped workpiece loading apparatus of claim 1, wherein a surface of the second pressing boss is provided with a second elastic protection layer.

9. The stamped workpiece loading apparatus of claim 8, wherein the second resilient protective layer is a rubber protective layer.

10. The stamped workpiece loading apparatus of claim 1, wherein the first compression boss and the second compression boss are both magnet bosses.

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