CN222448016U - Stamping device - Google Patents

Abstract

The utility model provides a stamping device, including first mould, the second mould, elastic component, discharge plate and drive assembly, the second mould sets up with first mould relative interval, elastic component is connected with first mould, discharge plate and elastic component elastic connection, drive assembly and first mould sliding connection, and be suitable for with discharge plate elasticity butt, wherein, the second mould is suitable for to be close to or keep away from first mould, in order to drive assembly and elastic component motion, in order to make the discharge plate vibrate, through setting up elastic component and drive assembly, accessible drive assembly and discharge plate make elastic component elastic deformation when the second mould is close to or keep away from first mould, elastic component elastic deformation makes the discharge plate vibrate, make the discharge plate accessible vibration order to drive the waste material removal, avoid the waste material to be detained.

Description

Stamping device

Technical Field

The utility model relates to the technical field of stamping devices, in particular to a stamping device.

Background

The automobile die is a die for punching all stamping parts on an automobile body and is mainly used for punching plates into shapes required by automobile parts. The waste material produced during the press forming needs to be transported in time.

The chute for conveying the waste materials in the prior art has the problem of waste material retention.

Disclosure of utility model

The utility model aims to provide a stamping device, which solves the problems that a chute for conveying waste materials is usually fixed and the waste materials are arbitrarily remained on the chute in the prior art.

In order to achieve the purpose of the utility model, the utility model provides the following technical scheme:

The utility model provides a stamping device which comprises a first die, a second die, an elastic assembly, a discharging disc, a transmission assembly and a driving assembly, wherein the second die is arranged opposite to the first die at intervals, the elastic assembly is connected with the first die, the discharging disc is elastically connected with the elastic assembly, the transmission assembly is slidably connected with the first die and is suitable for being elastically abutted with the discharging disc, and the second die is suitable for being close to or far from the first die so as to drive the transmission assembly and the elastic assembly to move, so that the discharging disc vibrates.

In one embodiment, the elastic component comprises a first elastic component, one end of the first elastic component is fixedly connected with the first die, the other end of the first elastic component is fixedly connected with the discharge disc, the second die is suitable for being close to or far away from the first die along a first direction so as to drive the transmission component to move along the first direction and drive the first elastic component to elastically deform along the first direction, so that the discharge disc vibrates.

In one embodiment, the elastic component further comprises a first mounting piece and a second mounting piece, the first mounting piece and the second mounting piece are arranged at opposite intervals in the first direction, the first mounting piece is connected with the first die, one end of the first elastic piece is connected with the first mounting piece, the other end of the first elastic piece is connected with the second mounting piece, and the second mounting piece is connected with the discharge disc.

In one embodiment, the elastic component further comprises a first guide member and a first limiting member, the first limiting member is connected with the first guide member, the first guide member is connected with the first mounting member and is in sliding connection with the second mounting member, the first elastic member is sleeved on the first guide member, and the first limiting member is suitable for being in butt joint with the surface of the second mounting member, which faces away from the first mounting member.

In one embodiment, the discharge tray is rotatably connected to the second mounting member.

In one embodiment, the discharging tray comprises a tray body and an abutting portion, wherein the abutting portion is connected to one end of the tray body in a second direction, the abutting portion comprises a first inclined surface and a second inclined surface which are opposite to each other in the first direction, the tray body is connected with the elastic assembly, the transmission assembly comprises a second guide piece, an abutting piece and a second elastic piece, the abutting piece is connected with the second guide piece in a sliding mode, one end of the second elastic piece abuts against the second guide piece, the other end of the second elastic piece abuts against the abutting piece, the abutting piece is suitable for abutting against the first inclined surface or the second inclined surface and sliding relatively, and the first direction is intersected with the second direction.

In one embodiment, the transmission assembly further comprises a second limiting member, the second guiding member is provided with a first guiding groove, and the second limiting member is connected to the outer peripheral surface of the abutting member and penetrates through the first guiding groove.

In one embodiment, the transmission assembly further comprises a connecting piece and a third elastic piece, the connecting piece is connected with the second guide piece and is in sliding connection with the first die, the third elastic piece is sleeved on the connecting piece, one end of the third elastic piece is connected with the connecting piece, and the other end of the third elastic piece is in butt joint with the surface of the first die, which faces the second die.

In one embodiment, the transmission assembly further comprises a third limiting part, the connecting part is provided with a second guide groove, the third limiting part penetrates through the second guide groove, and the third limiting part is fixedly connected with the first die.

In one embodiment, the number of the abutting parts is plural, the plurality of abutting parts are respectively arranged on two sides of the disc body in the second direction, and the transmission parts and the plurality of abutting parts are arranged in one-to-one correspondence.

In one embodiment, the first mold comprises a mold body, a first step and a second step, the first step and the second step are respectively connected to two ends of the mold body in a first direction and protrude from the surface of the mold body in a third direction, the elastic component is connected to the first step, the transmission component is in sliding connection with the second step, and the first direction is intersected with the third direction.

Through setting up elastic component and drive assembly, accessible drive assembly and discharge disc make elastic component elastic deformation when the second mould is close to or keeps away from first mould, and elastic component elastic deformation makes the discharge disc vibrate for the discharge disc accessible vibration drives the waste material and removes, avoids the waste material to be detained.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from them without inventive effort for a person skilled in the art.

FIG. 1 is a block diagram of a stamping device of one embodiment;

FIG. 2 is a block diagram of an elastomeric component of one embodiment;

FIG. 3 is a block diagram of a discharge tray of one embodiment;

FIG. 4 is a block diagram of a transmission assembly of one embodiment.

Reference numerals illustrate:

100-stamping device;

10-a first die, 11-a containing cavity, 12-a die body, 13-a first step and 14-a second step;

20-a second mold;

30-elastic components, 31-first elastic pieces, 32-first mounting pieces, 33-second mounting pieces, 331-mounting bodies, 332-first connecting parts, 3321-first through holes, 333-second connecting parts, 3331-second through holes, 34-first guide pieces and 35-first limiting pieces;

40-a discharge tray, 41-a tray body, 411-a bottom plate, 412-a first side plate, 413-a second side plate, 42-an abutting part, 421-a first inclined plane, 422-a second inclined plane;

50-transmission components, 51-second guide parts, 511-first guide grooves, 52-abutting parts, 53-second elastic parts, 54-second limiting parts, 55-connecting parts, 551-main body parts, 552-limiting parts, 553-second guide grooves, 56-third elastic parts and 57-third limiting parts;

60-a first cutter;

70-a base;

x-third direction, Y-second direction, Z-first direction.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, are intended to fall within the scope of the present utility model.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present.

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 utility model belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Some embodiments of the present utility model are described in detail below with reference to the accompanying drawings. The following embodiments and features of the embodiments may be combined with each other without conflict.

Referring to fig. 1, the present utility model provides a stamping device 100, which includes a first mold 10, a second mold 20, an elastic assembly 30, a discharge tray 40 and a transmission assembly 50, wherein the second mold 20 is disposed opposite to the first mold 10 at a distance, the elastic assembly 30 is connected to the first mold 10, the discharge tray 40 is elastically connected to the elastic assembly 30, the transmission assembly 50 is slidably connected to the first mold 10 and is adapted to elastically abut against the discharge tray 40, and the second mold 20 is adapted to approach or separate from the first mold 10 to drive the transmission assembly 50 and the elastic assembly 30 to move so as to vibrate the discharge tray 40.

Alternatively, the second mold 20 is adapted to be close to or far from the first mold 10 to drive the driving assembly 50 to move relative to the first mold 10, the driving assembly 50 is adapted to drive the discharge tray 40 to move, so that the elastic assembly 30 is elastically deformed to deform from the initial position to the deformed position, and the elastic assembly 30 is adapted to return to the initial position from the deformed position through elastic deformation, so that the discharge tray 40 vibrates.

Optionally, the stamping device 100 further includes a first cutter 60 and a second cutter (not shown), where the first cutter 60 is connected to a surface of the first die 10 facing the second die 20, the second cutter is connected to a surface of the second die 20 facing the first die 10, the first cutter 60 and the second cutter are correspondingly disposed in the first direction Z, and the first cutter 60 and the second cutter are used for stamping a material (not shown) when the second die 20 approaches the first die 10, so as to punch, trim, stamp, and the like the material, and generate a waste (not shown), and the waste is conveyed out of the stamping device 100 through the discharge tray 40.

Optionally, the first mold 10 has a receiving cavity 11, and the waste material is released from the material and enters the receiving cavity 11. Optionally, the bottom wall of the receiving chamber 11 is beveled so that the waste material can be moved to the discharge tray 40 under the guiding action of the beveled surface.

Alternatively, the elastic component 30 may elastically deform to drive the discharge tray 40 to vibrate through coil springs, leaf springs, torsion bar springs, rubber springs, air bars, hydraulic rods, and other structures, without limitation. Alternatively, the elastic component 30 and the first mold 10 may be connected and fixed by clamping, welding, screwing, riveting, etc., without limitation. Alternatively, the elastic component 30 and the discharge tray 40 may be connected and fixed by clamping, welding, screwing, riveting, etc., without limitation.

Alternatively, when the elastic assembly 30 is in the initial position, the elastic assembly 30 is in a compressed state due to the gravity of the elastic assembly 30 and the pressure of the discharge tray 40. Alternatively, the elastic member 30 may be in a compressed state or in a stretched state when the elastic member 30 is in the deformed position, which is not limited.

Alternatively, the driving assembly 50 may drive the discharge tray 40 to move through structures such as an air bar, a hydraulic bar, and a mechanical wall, without limitation. Optionally, the transmission assembly 50 may be slidably connected to the first mold 10 through a sliding rail, a rack and pinion, a sliding rod, or the like, without limitation.

Optionally, the stamping device 100 further includes a base 70, the first mold 10 is disposed on the base 70, and an end of the discharge tray 40 away from the first mold 10 is overlapped on the base 70. Alternatively, the end of the discharge tray 40 away from the first mold 10 may be fixed to the base 70, or may be rotatably connected to the base 70, without limitation. Optionally, the stamping device 100 further includes a driving member (not shown) connected to the fixed base (not shown) and in driving connection with the second die 20, and the driving member is configured to drive the second die 20 to move closer to or further away from the first die 10.

Alternatively, the first mold 10 may be made of a material that satisfies structural strength and is easy to be formed, and may be specifically, stainless steel, aluminum alloy, cast iron, etc., without limitation. Optionally, the material of the second mold 20 is similar to that of the first mold 10, and will not be described again. Optionally, the material of the elastic component 30 is similar to that of the first mold 10, and will not be described again. Optionally, the material of the discharge tray 40 is similar to that of the first mold 10, and will not be described again. Optionally, the material of the transmission assembly 50 is similar to that of the first mold 10, and will not be described again.

Through setting up elastic component 30 and drive assembly 50, accessible drive assembly 50 and discharge plate 40 make elastic component 30 elastic deformation when second mould 20 is close to or keeps away from first mould 10, elastic component 30 elastic deformation makes discharge plate 40 vibrate, namely first mould 10 and second mould 20 can drive discharge plate 40 through drive assembly 50 and remove when punching press operation promptly to drive discharge plate 40 vibration through elastic component 30, make discharge plate 40 accessible vibration order to drive the waste material and remove, avoid the waste material to be detained.

Referring to fig. 2, the elastic assembly 30 includes a first elastic member 31, one end of the first elastic member 31 is fixedly connected to the first mold 10, and the other end of the first elastic member is fixedly connected to the discharge tray 40, and the second mold 20 is adapted to move along a first direction Z toward or away from the first mold 10 to drive the driving assembly 50 to move along the first direction Z and to drive the first elastic member 31 to elastically deform along the first direction Z so as to vibrate the discharge tray 40.

Alternatively, the first elastic member 31 and the first mold 10 may be connected and fixed by clamping, welding, screwing, clamping, and the like, which is not limited. Alternatively, the first elastic member 31 and the discharge tray 40 may be connected and fixed by fastening, welding, screwing, fastening, and the like, without limitation. The first elastic member 31 is a coil spring, and the first elastic member 31 may be made of a material that satisfies structural strength, is easy to process and shape, and is elastically deformable, and may be carbon spring steel, alloy spring steel, stainless steel elastic steel, or the like, without limitation. Alternatively, the first elastic member 31 may be a rubber spring, a leaf spring, a plastic fiber spring, or the like, without limitation.

Through setting up first elastic component 31, the one end and the first mould 10 of first elastic component 31 are connected fixedly, the other end is connected fixedly with discharge plate 40, second mould 20 is suitable for being close to or keep away from first mould 10 along first direction Z, in order to drive transmission subassembly 50 along first direction Z motion, and drive first elastic component 31 along first direction Z elastic deformation, so that discharge plate 40 vibration, make first elastic component 31 can be under the pressure of discharge plate 40 or tensile elastic deformation to deformation position in order to produce elastic potential energy, and drive discharge plate 40 vibration through releasing elastic property, in order to drive the waste material removal, avoid the waste material to detain.

Referring to fig. 2, the elastic assembly 30 further includes a first mounting member 32 and a second mounting member 33, where the first mounting member 32 and the second mounting member 33 are disposed at opposite intervals in the first direction Z, the first mounting member 32 is connected to the first mold 10, one end of the first elastic member 31 is connected to the first mounting member 32, the other end is connected to the second mounting member 33, and the second mounting member 33 is connected to the discharge tray 40.

Alternatively, the first mounting member 32 and the first mold 10 may be connected and fixed by clamping, screwing, riveting, welding, etc., without limitation.

Optionally, the second mounting member 33 includes a mounting body 331, a first connecting portion 332 and a second connecting portion 333, where the first connecting portion 332 and the second connecting portion 333 are connected to a surface of the mounting body 331 opposite to the second mounting member 33 at opposite intervals, the mounting body 331 is connected to the first elastic member 31, and the first connecting portion 332 and the second connecting portion 333 are connected to the discharge tray 40.

Through setting up first mounting piece 32 and second mounting piece 33, first mounting piece 32 and second mounting piece 33 are in relative interval setting in first direction Z, first mounting piece 32 is connected with first mould 10, the one end of first elastic component 31 is connected with first mounting piece 32, the other end is connected with second mounting piece 33, second mounting piece 33 is connected with discharge plate 40 for elastic component 30 is more stable with the connection of discharge plate 40 and first mould 10, first elastic component 31 receives the effort from discharge plate 40 more even, the performance stability of elastic component 30 has been improved, and easy installation.

Referring to fig. 2, the elastic assembly 30 further includes a first guiding element 34 and a first limiting element 35, the first limiting element 35 is connected with the first guiding element 34, the first guiding element 34 is connected with the first mounting element 32 and is slidably connected with the second mounting element 33, the first elastic element 31 is sleeved on the first guiding element 34, and the first limiting element 35 is adapted to abut against a surface of the second mounting element 33 facing away from the first mounting element 32.

The first guide 34 is a guide rod, the first guide 34 extends along a first direction Z, the mounting body 331 is provided with a first guide hole (not shown), the first guide 34 penetrates the first guide hole, and the second mounting member 33 slides along a length direction of the first guide 34. Alternatively, the first guide member 34 and the second mounting member 33 may be slidably connected by a rack and pinion, a chute slider, a track pulley, or the like, without limitation.

Alternatively, the first guide member 34 and the first mounting member 32 may be integrally formed, or may be fastened and fixed by fastening, screwing, riveting, or the like, without limitation. Alternatively, the first guide member 34 and the first limiting member 35 may be integrally formed, or may be fixedly connected by fastening, screwing, riveting, or the like, without limitation.

Through setting up first guide 34 and first locating part 35, first locating part 35 is connected with first guide 34, first guide 34 is connected with first installed part 32, and with second installed part 33 sliding connection, first elastic component 31 cover is located first guide 34, first locating part 35 is suitable for the surface butt of second installed part 33 dorsad first installed part 32 for second installed part 33 can do the motion that is close to or keep away from first installed part 32 along first direction Z, and first elastic component 31 cover is established on first guide 34 in order to make first elastic component 31 only follow first direction Z elastic deformation, the performance stability of elastic component 30 has been improved.

Referring to fig. 2, the discharge tray 40 is rotatably coupled to the second mounting member 33. Optionally, the first connecting portion 332 is formed in the first through hole 3321, the second connecting portion 333 is formed with the second through hole 3331, and the first connecting portion 332 and the second connecting portion 333 are rotatably connected to the discharge tray 40 by a latch (not shown). Alternatively, the first connecting portion 332 and the second connecting portion 333 may be rotatably connected to the discharge tray 40 by a hinge, a bearing, or the like, without limitation.

By arranging the discharge tray 40 to be rotatably connected with the second mounting member 33, the discharge tray 40 can be turned up to prevent the discharge tray 40 from protruding out of the outer peripheral surface of the base 70 when the stamping device 100 is carried, so as to avoid damage caused by collision between the discharge tray 40 and the outside.

Referring to fig. 1, 3 and 4, the discharge tray 40 includes a tray body 41 and an abutting portion 42, the abutting portion 42 is connected to one end of the tray body 41 in the second direction Y, the abutting portion 42 includes a first inclined surface 421 and a second inclined surface 422 opposite to each other in the first direction Z, the tray body 41 is connected to the elastic assembly 30, the transmission assembly 50 includes a second guide 51, an abutting member 52 and a second elastic member 53, the abutting member 52 is slidably connected to the second guide 51, one end of the second elastic member 53 abuts against the second guide 51, the other end abuts against the abutting member 52, the abutting member 52 is adapted to abut against the first inclined surface 421 or the second inclined surface 422 and relatively slide, and the first direction Z intersects the second direction Y.

Alternatively, when the abutment member 52 abuts against the first slope 421 or the second slope 422 and slides relatively, the abutment member 52 moves relative to the second guide member 51 along the second direction Y, and the second elastic member 53 is adapted to elastically deform in the second direction Y.

Optionally, referring to fig. 3, the tray body 41 includes a bottom plate 411, a first side plate 412 and a second side plate 413, the first side plate 412 and the second side plate 413 are connected to two ends of the bottom plate 411 in the second direction Y at opposite intervals, the abutting portion 42 is connected to the first side plate 412 or the second side plate 413, and the first side plate 412 and the second side plate 413 protrude from a surface of the bottom plate 411 facing away from the base 70, so as to limit a moving direction of the waste.

Optionally, referring to fig. 4, the second guide member 51 is provided with a receiving space (not shown), the second elastic member 53 is received in the receiving space, one end of the abutting member 52 is received in the receiving space and abuts against the second elastic member 53, and the other end extends out of the receiving space to abut against the first inclined plane 421 or the second inclined plane 422. Alternatively, in the orthographic projection in the first direction Z, the contour shape of the portion of the abutment 52 for abutting against the abutment 42 is tapered to match the first slope 421 and the second slope 422, so that the abutment 52 can better transmit the pressure to the abutment 42. Optionally, the end surface of the abutting piece 52 away from the second elastic piece 53 is an arc surface, so as to avoid scratching the first inclined surface 421 or the second inclined surface 422 when the abutting piece 52 slides relative to the abutting portion 42.

By providing the tray body 41 and the abutting portion 42, the abutting portion 42 is connected to one end of the tray body 41 in the second direction Y, the abutting portion 42 includes a first slope 421 and a second slope 422 opposite to each other in the first direction Z, the tray body 41 is connected to the elastic assembly 30, the transmission assembly 50 includes a second guide 51, an abutting piece 52 and a second elastic piece 53, the abutting piece 52 is slidably connected to the second guide 51, one end of the second elastic piece 53 abuts against the second guide 51, the other end abuts against the abutting piece 52, the abutting piece 52 is adapted to abut against the first slope 421 or the second slope 422 and relatively slide, the first direction Z intersects the second direction Y, so that the abutting piece 52 can abut against the first slope 421 and relatively slide to drive the discharge tray 40 to descend and press the first elastic piece 31 when ascending in the first direction Z, and the abutting piece 52 can abut against the second slope 422 to relatively slide to drive the first slope 421 to stretch and lift the first elastic piece 31 when ascending in the first direction Z.

Referring to fig. 4, the transmission assembly 50 further includes a second limiting member 54, the second guiding member 51 is provided with a first guiding groove 511, and the second limiting member 54 is connected to the outer peripheral surface of the abutment member 52 and penetrates through the first guiding groove 511.

Optionally, the second limiting member 54 is adapted to abut against the inner wall surface of the first guiding groove 511 to limit the abutting member 52.

Alternatively, the first guide groove 511 extends along the second direction Y and communicates with the receiving space. Alternatively, the first guide groove 511 may penetrate the inner side wall surface of the accommodating space and the outer circumferential surface of the second guide 51, or may not penetrate the inner side wall surface of the accommodating space and the outer circumferential surface of the second guide 51, without limitation. Optionally, the second limiting member 54 and the abutting member 52 may be integrally formed, or may be detachably connected by clamping, screwing, riveting, or the like, without limitation.

Optionally, the second limiting members 54 and the first guiding grooves 511 may be multiple, the multiple second limiting members 54 are disposed on the outer peripheral surface of the abutting member 52 at intervals, and the multiple first guiding grooves 511 and the multiple second limiting members 54 are disposed in one-to-one correspondence, so as to improve the connection stability of the second guiding member 51 and the abutting member 52.

The transmission assembly 50 further comprises a second limiting piece 54, the second guide piece 51 is provided with a first guide groove 511, the second limiting piece 54 is connected to the outer peripheral surface of the abutting piece 52 and penetrates through the first guide groove 511, so that the abutting piece 52 is separated from the first inclined surface 421 or the second inclined surface 422, the abutting piece 52 and the second elastic piece 53 cannot deviate from the accommodating space, and the connection stability of the second guide piece 51 and the abutting piece 52 is ensured.

Referring to fig. 1 and 4, the transmission assembly 50 further includes a connecting member 55 and a third elastic member 56, wherein the connecting member 55 is connected with the second guiding member 51 and slidably connected with the first mold 10, the third elastic member 56 is sleeved on the connecting member 55, one end of the third elastic member 56 is connected with the connecting member 55, and the other end of the third elastic member is abutted with the surface of the first mold 10 facing the second mold 20.

Optionally, referring to fig. 1, the first mold 10 is provided with a second guiding hole (not shown) extending along the first direction Z, the connecting member 55 is inserted through the second guiding hole, and the third elastic member 56 is disposed on a side of the first mold 10 facing away from the base 70.

Alternatively, referring to fig. 4, the connecting member 55 includes a main body 551 and a limiting portion 552, the main body 551 is connected to the second guiding member 51, the third elastic member 56 is sleeved on the main body 551, the limiting portion 552 is connected to an end of the main body 551 away from the second guiding member 51 and is connected to the third elastic member 56, and when the second mold 20 approaches the first mold 10, the second mold 20 pushes the limiting portion 552 to drive the transmission assembly 50 to move.

The transmission assembly 50 further comprises a connecting piece 55 and a third elastic piece 56, the connecting piece 55 is connected with the second guide piece 51 and is in sliding connection with the first die 10, the third elastic piece 56 is sleeved on the connecting piece 55, one end of the third elastic piece 56 is connected with the connecting piece 55, the other end of the third elastic piece 56 is abutted against the surface of the first die 10, which faces the second die 20, so that when the second limiting piece 54 is far away from the first die 10, the connecting piece 55, the second guide piece 51 and the abutting piece 52 can move upwards along the first direction Z under the driving of the third elastic piece 56, and the abutting part 42 can abut against the second inclined surface 422 and slide relatively.

Referring to fig. 1 and 4, the transmission assembly 50 further includes a third limiting member 57, the connecting member 55 is provided with a second guiding slot 553, the third limiting member 57 is disposed through the second guiding slot 553, and the third limiting member 57 is fixedly connected with the first mold 10.

Alternatively, referring to fig. 4, the third limiting member 57 is adapted to abut against an inner wall surface of the second guide slot 553. Alternatively, the second guide slot 553 extends along the second direction Y, and one end of the third elastic member 56 abuts against the third limiting member 57.

Optionally, referring to fig. 1, the first mold 10 is provided with a mounting hole (not shown), the mounting hole is communicated with the second guide hole and the second guide slot 553, and the third limiting piece 57 extends into and passes through the second guide slot 553 from the mounting hole. Optionally, the third limiting member 57 and the first mold 10 may be connected and fixed by a clamping, screwing, welding, etc., without limitation.

The transmission assembly 50 further comprises a third limiting piece 57, the connecting piece 55 is provided with a second guide groove 553, the third limiting piece 57 penetrates through the second guide groove 553, the third limiting piece 57 is fixedly connected with the first die 10, the third limiting piece 57 is suitable for being abutted with the inner wall surface of the second guide groove 553, the transmission assembly 50 cannot excessively ascend or descend under the limiting action of the third limiting piece 57, and the transmission assembly 50 is prevented from falling out of the first die 10.

Referring to fig. 1, the number of the abutting portions 42 and the number of the transmission assemblies 50 are plural, the plurality of abutting portions 42 are respectively disposed on two sides of the disc body 41 in the second direction Y, and the transmission assemblies 50 and the plurality of abutting portions 42 are disposed in one-to-one correspondence. Optionally, at least one abutting portion 42 is connected to the first side plate 412, and at least one abutting portion 42 is connected to the second side plate 413.

Through setting up abutting portion 42 and drive assembly 50 and all being a plurality of, a plurality of abutting portion 42 set up respectively in the both sides of disk body 41 in second direction Y, drive assembly 50 and a plurality of abutting portion 42 one-to-one set up for the atress of discharge plate 40 is even when drive assembly 50 drive discharge plate 40 removes, is difficult for taking place the slope in second direction Y.

Referring to fig. 1, the first mold 10 includes a mold body 12, a first step 13 and a second step 14, wherein the first step 13 and the second step 14 are respectively connected to two ends of the mold body 12 in a first direction Z and protrude from a surface of the mold body 12 in a third direction X, the elastic component 30 is connected to the first step 13, the transmission component 50 is slidably connected to the second step 14, and the first direction Z intersects the third direction X.

Optionally, the first guide hole is formed in the second step 14. Optionally, the first mounting member 32 is fixedly connected to the first step 13. Optionally, the accommodating cavity 11 is formed in the mold body 12.

Alternatively, the first step 13 and the die body 12 may be integrally formed, or may be detachably connected by clamping, screwing, riveting, or the like, without limitation. Alternatively, the second step 14 and the mold body 12 may be integrally formed, or may be detachably connected by clamping, screwing, riveting, or the like, without limitation.

Through setting up first mould 10 and including mould body 12, first step 13 and second step 14 are connected respectively in the both ends of mould body 12 in first direction Z to outstanding in the surface of mould body 12 in third direction X, elastic component 30 connects in first step 13, drive assembly 50 and second step 14 sliding connection, first direction Z and third direction X intersect for drive assembly 50 is more convenient with the installation of first mould 10, and the position that discharge plate 40 and drive assembly 50 contacted is located between first step 13 and the second step 14, is difficult for receiving external environmental factor and influences.

In the description of the embodiments of the present utility model, it should be noted that, the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like refer to the orientation or positional relationship described based on the drawings, which are merely for convenience of description and simplification of the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

The above disclosure is only a preferred embodiment of the present utility model, and it should be understood that the scope of the utility model is not limited thereto, but all or part of the procedures for implementing the above embodiments can be modified by one skilled in the art according to the scope of the appended claims.

Claims (11)

1. A stamping device, comprising:

A first mold;

the second die is arranged opposite to the first die at intervals;

an elastic component connected with the first die;

The discharging disc is elastically connected with the elastic component;

the transmission assembly is in sliding connection with the first die and is suitable for being elastically abutted with the discharge disc;

The second die is suitable for being close to or far away from the first die so as to drive the transmission assembly and the elastic assembly to move, so that the discharge disc vibrates.

2. The stamping device of claim 1, wherein the elastic assembly comprises a first elastic member, one end of the first elastic member is fixedly connected with the first die, the other end of the first elastic member is fixedly connected with the discharge tray, and the second die is suitable for being close to or far away from the first die along a first direction so as to drive the transmission assembly to move along the first direction and drive the first elastic member to elastically deform along the first direction so as to vibrate the discharge tray.

3. The stamping device of claim 2, wherein the elastic assembly further comprises a first mounting member and a second mounting member, the first mounting member and the second mounting member being disposed in the first direction at opposite intervals, the first mounting member being connected to the first die, one end of the first elastic member being connected to the first mounting member, the other end being connected to the second mounting member, and the second mounting member being connected to the discharge tray.

4. A stamping device as defined in claim 3, wherein the elastic assembly further comprises a first guide member and a first stop member, the first stop member being connected to the first guide member, the first guide member being connected to the first mounting member and being slidably connected to the second mounting member, the first elastic member being sleeved on the first guide member, the first stop member being adapted to abut against a surface of the second mounting member facing away from the first mounting member.

5. A stamping device as claimed in claim 3, wherein the discharge disc is rotatably connected to the second mounting member.

6. The stamping device of claim 2, wherein the discharge tray comprises a tray body and an abutment connected to one end of the tray body in a second direction, the abutment comprising a first slope and a second slope opposite in the first direction, the tray body being connected to the elastic assembly;

The transmission assembly comprises a second guide piece, an abutting piece and a second elastic piece, wherein the abutting piece is in sliding connection with the second guide piece, one end of the second elastic piece abuts against the second guide piece, the other end of the second elastic piece abuts against the abutting piece, and the abutting piece is suitable for abutting against the first inclined plane or the second inclined plane and sliding relatively;

The first direction intersects the second direction.

7. The stamping device of claim 6, wherein the transmission assembly further comprises a second limiting member, the second guiding member is provided with a first guiding groove, and the second limiting member is connected to the outer peripheral surface of the abutting member and penetrates through the first guiding groove.

8. The stamping device of claim 7, wherein the transmission assembly further comprises a connecting piece and a third elastic piece, the connecting piece is connected with the second guide piece and is in sliding connection with the first die, the third elastic piece is sleeved on the connecting piece, one end of the third elastic piece is connected with the connecting piece, and the other end of the third elastic piece is abutted against the surface of the first die facing the second die.

9. The stamping device of claim 8, wherein the transmission assembly further comprises a third limiting member, the connecting member is provided with a second guiding groove, the third limiting member is arranged in the second guiding groove in a penetrating manner, and the third limiting member is fixedly connected with the first die.

10. The stamping device of claim 6, wherein the plurality of abutment portions and the plurality of transmission members are respectively disposed on both sides of the disc body in the second direction, and the plurality of transmission members and the plurality of abutment portions are disposed in one-to-one correspondence.

11. The stamping device of claim 1, wherein the first die comprises a die body, a first step and a second step, the first step and the second step are respectively connected to two ends of the die body in a first direction and protrude from a surface of the die body in a third direction, the elastic component is connected to the first step, the transmission component is slidably connected to the second step, and the first direction intersects the third direction.