CN219503626U - Blanking sorting device for punching machine - Google Patents

Abstract

The utility model relates to the technical field of punch press processing, in particular to a blanking sorting device for a punch press, which comprises a production assembly, a vibration assembly and a transfer assembly, wherein the vibration assembly is connected with the production assembly, and the transfer assembly is arranged on one side of the vibration assembly far away from the production assembly.

Description

Blanking sorting device for punching machine

Technical Field

The utility model relates to the technical field of punch press processing, in particular to a blanking sorting device for a punch press.

Background

The punch press is a stamping press. In national production, the stamping process has the advantages of saving materials and energy sources, being high in efficiency, not high in technical requirements on operators and being capable of making products which cannot be achieved by mechanical processing through various die applications because of saving materials and energy sources compared with the traditional mechanical processing, so that the stamping process is more and more widely used, a blanking sorting device is generally connected with a punching machine in production, and the blanking sorting device can be used for carrying out necessary sorting on the products rapidly and effectively, and the production efficiency is improved.

The prior art CN202121462045.2 discloses a punch press unloading sorting device, and its technical scheme main points are: the automatic water-saving device comprises a base, wherein a box body is fixedly arranged at the top of the base, a box cover is hinged to the top of the box body, a first conveyor belt is fixedly arranged in the middle of the inside of the box body, filter holes are formed in the outer surface of the first conveyor belt at equal intervals, the first conveyor belt is obliquely arranged in the box body, a discharge hopper is fixedly arranged on the right side of the box body, a second conveyor belt is fixedly arranged at the bottom of the discharge hopper, the right end part of the first conveyor belt is arranged on the left side in the discharge hopper, the right end part of the first conveyor belt is arranged at the left upper end of the second conveyor belt, and a circulating water pump is fixedly arranged at the right lower end inside the box body; in the device, the product is washed by water, although the washing water is recycled, waste of water resources is caused, in addition, the product washed by water is required to be dried by a large amount of electric energy, so that on one hand, the production cost is increased, on the other hand, whether the product can be dried or not after entering the next process, the product which is not dried possibly has an influence on the next process, and the washing of the product is carried out in the device, and although the observation window is arranged, the necessary treatment is inconvenient.

Disclosure of Invention

Aiming at the problems, the utility model designs the blanking sorting device for the punch press, which does not waste water resources, does not increase extra production cost and is convenient for observation.

The utility model provides the following technical scheme:

the utility model provides a unloading sorting device that punch press was used, includes production subassembly, vibration subassembly and transfer subassembly, vibration subassembly connect in production subassembly, transfer subassembly set up in vibration subassembly keeps away from one side of production subassembly, transfer subassembly includes first support arm, second connecting plate, first slide bar, first slider, second electric telescopic handle, second backup pad and snatchs the subassembly, the lower terminal surface of first support arm is connected in the upper frame, the second connecting plate set up in the upper portion of first support arm, the first slide bar connect in the second connecting plate, first slider sliding connection in first slide bar, the second backup pad set up in one side of second connecting plate, the second electric telescopic handle set up in the up end of third backup pad, the second electric telescopic handle connect in first slider, snatch the subassembly connect in the lower terminal surface of first slider.

Specifically, snatch the subassembly and include first connecting block, locating piece, second slide bar, second slider, third connecting plate, head rod, second connecting block, second connecting rod, third bearing, third electric telescopic handle and splint, first connecting block connect in the lower terminal surface of second slider, the locating piece connect in first connecting block lower terminal surface, the both ends of second slide bar connect in the locating piece, second slider sliding connection in third slide bar, the third connecting plate set up in the lower terminal surface of second slider, the one end of head rod set up in one side of third connecting plate is kept away from to the third connecting plate, the other end of head rod articulate in the second connecting rod, the other end of second connecting rod nest in third bearing to can be around third bearing free rotation, the third bearing set up in the lower terminal surface of second connecting block, the up end of second connecting block connect in the lower terminal surface of locating piece, and be located between the terminal surface down of third connecting plate.

Specifically, vibration subassembly includes vibration chamber, first backup pad, vibrating motor, second bearing, vibrating plate, vibrating spring, collection chamber, valve and bradyseism spring, the vibration chamber set up in one side of base, first backup pad is arranged in the vibration chamber, vibrating motor set up in the up end of first backup pad, vibrating motor pass the second bearing connect in the vibrating plate, the second bearing is arranged in the vibration chamber, vibrating spring's one end connect in the up end of vibrating plate, vibrating spring's the other end connect in the lower terminal surface of collecting the chamber, the valve set up in the section before vibrating chamber, collect the chamber connect in production subassembly, bradyseism spring sets up between conveying roller and upper and lower frame.

Specifically, the production assembly includes upper frame, transport roller bearing, lower frame, locating component and connecting plate, transport roller bearing set up in upper frame with between the lower frame, locating component connect in upper frame with the lower frame is located and is kept away from the one end of first support arm, the one end of connecting plate connect in upper frame, the other end of connecting plate connect in vibrating component.

Specifically, locating component includes locating plate, laser emitter, screw, rack, first gear, first bearing and laser receiver, the locating plate passes through the screw fixation in go up the frame with the lower frame, laser emitter set up in one side of locating plate, and be located go up the up end of frame, the axial lead of laser receiver with laser emitter is located same straight line, is located the lower terminal surface of lower frame, first bearing set up in the lower terminal surface of locating plate, first gear external inlay in first bearing, and can be followed first bearing free rotation, the rack meshing in first gear.

The beneficial effects of the utility model are as follows:

1. the utility model can clean up the residual impurities on the product produced by the punching machine by arranging the vibration component

2. According to the utility model, the collecting cavity is arranged, so that impurities can be collected in the vibration process, the situation that the impurities are everywhere is avoided, a good working environment is created, and the service life of parts can be prolonged by arranging the damping springs.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a cross-sectional view of the present utility model;

FIG. 2 is an enlarged view of a transfer assembly of the present utility model;

FIG. 3 is an enlarged view of the grasping element according to the utility model;

FIG. 4 is an enlarged view of the positioning assembly of the present utility model;

FIG. 5 is an enlarged view of the utility model at A;

the reference numerals in the drawings: 1. producing a component; 11. an upper frame; 12. a conveying roller; 13. a lower frame; 14. a positioning assembly; 141. a positioning plate; 142; a laser emitter; 143. a screw; 145. a rack; 146. a first gear; 147. a first bearing; 148. a laser receiver; 15. a first connection plate; 2. a vibration assembly; 21. a vibration chamber; 22. a first support plate; 23. a vibration motor; 24. a second bearing; 25. a vibration plate; 26. a vibration spring; 27. a collection chamber; 28. a valve; 29. a damping spring; 3. a transfer assembly; 31. a first support arm; 32. a second connecting plate; 33. a first slide bar; 34. a first slider; 35. a second electric telescopic rod; 36. a second support plate; 37. a grabbing component; 371. a first connection block; 372. a positioning block; 373. a second slide bar; 374. a second slider; 375. a third connecting plate; 376. a first connecting rod; 377. a second connection block; 378. a second connecting rod; 379. a third bearing; 3710. a third electric telescopic rod; 3711. a clamping plate;

Detailed Description

The conception, specific structure, and technical effects produced by the present utility model will be clearly and completely described below with reference to the embodiments and the drawings to fully understand the objects, aspects, and effects of the present utility model. It should be noted that the embodiments of the present utility model and the features of the embodiments may be combined with each other without conflict. It should be noted that, unless otherwise specified, when a feature is referred to as being "fixed" or "connected" to another feature, it may be directly or indirectly fixed or connected to the other feature. Further, the descriptions of the upper, lower, left, right, etc. used in the present utility model are merely with respect to the mutual positional relationship of the constituent elements of the present utility model in the drawings.

As shown in fig. 1 to 5, a blanking sorting device for a punching machine comprises a production assembly 1, a vibration assembly 2 and a transfer assembly 3, wherein the vibration assembly 2 is connected to the production assembly 1, the transfer assembly 3 is arranged on one side, far away from the production assembly 1, of the vibration assembly 2, the transfer assembly 3 comprises a first supporting arm 31, a second connecting plate 32, a first sliding rod 33, a first sliding block 34, a second electric telescopic rod 35, a second supporting plate 36 and a grabbing assembly 37, the lower end face of the first supporting arm 31 is connected to an upper frame 11, the second connecting plate 32 is arranged on the upper part of the first supporting arm 31, the first sliding rod 33 is connected to the second connecting plate 32, the first sliding block 34 is connected to the first sliding rod 33 in a sliding manner, the second supporting plate 36 is arranged on one side of the second connecting plate 32, the second electric telescopic rod 35 is connected to the first sliding block 34, the grabbing assembly 37 is connected to the lower end face of the first sliding block 34, products produced by the punching machine are conveyed to the vibration assembly 2 through the production assembly 1, the grabbing assembly 37 in the transfer assembly 3 is connected to the upper end face of the first sliding block 34, the second sliding block 2 is driven to move through the first sliding rod 35, the first sliding rod 2 is driven to move through the first sliding rod 2 after the vibration assembly 3, and the first sliding rod 2 is driven to move through the first sliding rod 2, and the first sliding rod 2 is driven to move through the electric telescopic rod 35.

As shown in fig. 1 and 3, the grabbing component 37 includes a first connecting block 371, a positioning block 372, a second sliding rod 373, a second sliding block 374, a third connecting plate 375, a first connecting rod 376, a second connecting rod 377, a second connecting rod 378, a third bearing 379, a third electric telescopic rod 3710 and a clamping plate 3711, the first connecting block 371 is connected to the lower end face of the second sliding block 374, the positioning block 372 is connected to the lower end face of the first connecting block 371, two ends of the second sliding rod 373 are connected to the positioning block 372, the second sliding block 374 is slidably connected to the second sliding rod 373, the third connecting plate 375 is arranged on the lower end face of the second sliding block 374, one end of the first connecting rod 376 is arranged on one side, far away from the positioning block 372, the other end of the first connecting rod 376 is hinged to the second connecting rod 378, the other end of the second connecting rod 378 is nested in the third bearing 379 and can freely rotate around the third bearing 379, the upper end face of the second connecting rod 37377 is connected to the lower end face of the first connecting block 371 and is located between the lower end faces of the second connecting block 37372, the second connecting rod 3711 is arranged on the lower end face of the second connecting block 3711, the second connecting rod 3737 can be driven by the electric connecting rod 3711 to move to the third connecting rod 3737, and the second connecting rod 3737 can be driven to move by the third connecting rod 3737 and the second connecting rod 3737 to move, and the second end 3711 can be driven to the second end 37 and the second connecting rod 3737.

As shown in fig. 1 and 4, the vibration assembly comprises a vibration cavity 21, a second support plate 36, a vibration motor 23, a second bearing 24, a vibration plate 25, a vibration spring 26, a collection cavity 27, a valve 28 and a damping spring 29, wherein the vibration cavity 21 is arranged on one side of the base, the first support plate 22 is arranged in the vibration cavity 21, the vibration motor 23 is arranged on the upper end surface of the first support plate 22, the vibration motor 23 penetrates through the second bearing 24 to be connected to the vibration plate 25, the second bearing 24 is arranged in the vibration cavity 21, one end of the vibration spring 26 is connected to the upper end surface of the vibration plate 25, the other end of the vibration spring 26 is connected to the lower end surface of the collection cavity 27, the valve 28 is arranged on the lower end surface of the vibration cavity 21, the collection cavity 27 is connected to the production assembly 1, the damping spring 29 is arranged between the conveying roller 12 and the upper and lower frames 13, the vibration motor 23 is started, the vibration motor 23 drives the vibration plate 25 to vibrate up and down, the vibration plate 25 drives the collection roller 27 to vibrate up and down through the vibration spring 26, the impurities falling after vibration are adjusted into the collection cavity 27, after a period of time, the valve 28 is opened, the valve 28 is well arranged from the upper end to the valve 28 to the collection cavity 27, the valve 28 can be well cleaned, and the impurities can be well kept in the environment, and the environment can be well cleaned through the collection can be kept by the vibration, and the vibration can be well, and the environment, and the impurities can be well kept by the environment.

As shown in fig. 1, the production assembly 1 includes an upper frame 11, a conveying roller 12, a lower frame 13, a positioning assembly 14 and a connecting plate, the conveying roller 12 is disposed between the upper frame 11 and the lower frame 13, the positioning assembly 14 is connected to the upper frame 11 and the lower frame 13 and is disposed at one end far away from the first supporting arm 31, one end of the connecting plate is connected to the upper frame 11, the other end of the connecting plate is connected to the vibrating assembly, the upper frame 11 and the lower frame 13 are used for fixing the conveying roller 12, the conveying roller 12 can freely rotate between the upper frame 11 and the lower frame 13, friction generated by products can be reduced by arranging the conveying roller 12 instead of a belt, and impurities fall into the collecting cavity 27 when vibration is facilitated.

As shown in fig. 1 and 5, the positioning assembly 14 includes a positioning plate 141, a laser emitter 142, a screw 143, a rack 145, a first gear 146, a first bearing 147 and a laser receiver 148, the positioning plate 141 is fixed on the upper frame 11 and the lower frame 13 through the screw 143, the laser emitter 142 is disposed on one side of the positioning plate 141 and is located on the upper end surface of the upper frame 11, the axis line of the laser receiver 148 and the laser emitter 142 are located on the same straight line, and is located on the lower end surface of the lower frame 13, the first bearing 147 is disposed on the lower end surface of the positioning plate 141, the first gear 146 is externally embedded in the first bearing 147 and can freely rotate around the first bearing 147, the rack 145 is meshed with the first gear 146, the positioning assembly 14 is fixed on the upper frame 11 and the lower frame 13 through the screw 143, when the raw materials can firstly block the laser receiver 148 from receiving laser, the laser receiver 148 can not receive the laser, the laser receiver 148 can start the first electric telescopic rod, the first electric telescopic rod can eject the lower die from the base to contact with the raw materials, and simultaneously start the hydraulic telescopic rod, the upper die stretches out from the upper cavity, the first bearing can freely move towards the first bearing 147, the first bearing 146 can be moved to the positioning assembly through the large-size, the positioning assembly can be moved, and the positioning assembly can be changed by the positioning assembly 14, and the positioning assembly can be moved by the positioning assembly through the large-size, and the positioning assembly can be set up and the positioning assembly.

The working process of the device comprises the following steps:

the raw materials are carried through carrying roller 12, the laser receiver 148 is obstructed earlier and receives laser, contact locating plate 141 again, this moment laser receiver 148 receives not laser, can start first electric telescopic handle, first electric telescopic handle is ejecting from the base with the bed die and raw materials contact, can start hydraulic telescopic handle simultaneously, stretch out the upper die from last cavity, punch out the raw materials, after the punching press is accomplished, first electric telescopic handle and hydraulic telescopic handle retract simultaneously, the product contacts with carrying roller 12, first gear 146 can drive locating plate 141 and remove, let the product lead to vibration subassembly 2 through first connecting plate 15, start vibrating motor 23, vibrating motor 23 drives vibrating plate 25 up-and-down vibration, vibrating plate 25 drives through vibrating spring 26 and gathers chamber 27 and vibrate from top to bottom, collect chamber 27 drive and carry roller 12 vibration from top to bottom, after vibrating, the impurity that drops transfers into collecting chamber 27, after a period, open the valve 28 of collecting chamber 27 upper end, clear up the impurity from valve 28, when the product moves to the tip of vibrating subassembly 2, start the second electric telescopic handle 35 in transferring subassembly 3, pass through second electric telescopic handle 35 drives second electric telescopic handle 3734 to drive second slide 3733, stretch out the second slide 3711, stretch out and draw back to the product 3711, stretch out the other side of the clamp plate 3711, the motion is stretched out to the product 3711, the second slide bar 3711 is stretched out and is moved to the second slide bar 3711, and the top down.

The foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (5)

1. The utility model provides a blanking sorting device for punching machine, its characterized in that includes production subassembly (1), vibrating subassembly (2) and transfer subassembly (3), vibrating subassembly (2) connect in production subassembly (1), transfer subassembly (3) set up in vibrating subassembly (2) keep away from one side of production subassembly (1), transfer subassembly (3) include first support arm (31), second connecting plate (32), first slide bar (33), first slider (34), second electric telescopic handle (35), second backup pad (36) and snatch subassembly (37), the lower terminal surface of first support arm (31) connect in upper frame (11), second connecting plate (32) set up in the upper portion of first support arm (31), first slider (33) connect in second connecting plate (32), first slider (34) sliding connection in first slider (33), second backup pad (36) set up in one side of second connecting plate (32), second electric telescopic handle (35) set up in on second slider (34), the grabbing component (37) is connected to the lower end face of the first sliding block (34).

2. The blanking sorter as claimed in claim 1, wherein the grabbing component (37) comprises a first connecting block (371), a positioning block (372), a second sliding rod (373), a second sliding block (374), a third connecting plate (375), a first connecting plate (376), a second connecting block (377), a second connecting rod (378), a third bearing (379), a third electric telescopic rod (3710) and a clamping plate (3711), the first connecting block (371) is connected to the lower end face of the second sliding block (374), the positioning block (372) is connected to the lower end face of the first connecting block (371), two ends of the second sliding rod (373) are connected to the positioning block (372), the second sliding block (374) is connected to the second sliding rod (373) in a sliding manner, one end of the first connecting plate (375) is arranged on the lower end face of the second sliding rod (374), one end of the first connecting plate (376) is arranged on the side of the third connecting plate (375) away from the positioning block (372), the other end of the first connecting plate (376) is hinged to the second connecting plate (379), the other end of the first connecting plate (376) can be freely hinged to the second connecting rod (379), the third bearing (379) is arranged on the lower end face of the second connecting block (377), the upper end face of the second connecting block (377) is connected to the lower end face of the first connecting block (371) and located between the positioning blocks (372), and the clamping plate (3711) is arranged on the lower end face of the third connecting plate (375).

3. The blanking sorting device for the punching machine according to claim 1, characterized in that the vibration assembly (2) comprises a vibration cavity (21), a first support plate (22), a vibration motor (23), a second bearing (24), a vibration plate (25), a vibration spring (26), a collection cavity (27), a valve (28) and a damping spring (29), the vibration cavity (21) is arranged on one side of the base, the first support plate (22) is arranged in the vibration cavity (21), the vibration motor (23) is arranged on the upper end surface of the first support plate (22), the vibration motor (23) penetrates through the second bearing (24) to be connected with the vibration plate (25), the second bearing (24) is arranged in the vibration cavity (21), one end of the vibration spring (26) is connected with the upper end surface of the vibration plate (25), the other end of the vibration spring (26) is connected with the lower end surface of the collection cavity (27), the valve (28) is arranged on the lower end surface of the vibration cavity (21), and the vibration spring (27) is connected with the production roller (12) and the production roller assembly (13).

4. The blanking and sorting device for a punching machine according to claim 1, characterized in that the production assembly (1) comprises an upper frame (11), a conveying roller (12), a lower frame (13), a positioning assembly (14) and a first connecting plate (15), wherein the conveying roller (12) is arranged between the upper frame (11) and the lower frame (13), the positioning assembly (14) is connected with the upper frame (11) and the lower frame (13) and is positioned at one end far away from the first supporting arm (31), one end of the first connecting plate (15) is connected with the upper frame (11), and the other end of the first connecting plate (15) is connected with the vibration assembly (2).

5. The blanking sorting apparatus for a punching machine as claimed in claim 4, wherein the positioning assembly (14) includes a positioning plate (141), a laser emitter (142), a screw (143), a rack (145), a first gear (146), a first bearing (147) and a laser receiver (148), the positioning plate (141) is fixed to the upper frame (11) and the lower frame (13) by the screw (143), the laser emitter (142) is disposed on one side of the positioning plate (141) and is located on an upper end surface of the upper frame (11), an axis line of the laser receiver (148) and the laser emitter (142) are located on the same straight line, and is located on a lower end surface of the lower frame (13), the first bearing (147) is disposed on a lower end surface of the positioning plate (141), the first gear (146) is externally embedded in the first bearing (147) and can freely rotate around the first bearing (147), and the rack (145) is engaged with the first gear (146).