CN204846465U - Automatic blanking machine - Google Patents

Abstract

The utility model discloses an automatic blanking machine, including bottom plate, locating component, clamping components and support flitch subassembly, the bottom plate is equipped with a blanking mouth, and locating component includes that two guide piles, two sets of locating plate and two lead a groove, and two guide piles are relative the setting on the bottom plate of an opposite side of blanking mouth respectively, and two sets of locating plates set up respectively on two guide piles, every group locating plate with the guide pile forms leads a groove, and clamping components includes a clamping components and the 2nd clamping components, and a clamping components and the 2nd clamping components set up on the bottom plate of another opposite side of blanking mouth respectively relatively, asks the flitch subassembly to include first support flitch and second support flitch, and first support flitch sets up in clamping components bottom, and the second asks the flitch setting in the 2nd clamping components's bottom, and first support flitch and second support flitch lie in another opposite side of blanking mouth respectively. This automatic blanking machine blanking frequency is even, reduces intensity of labour, improves work efficiency, reduces accident and takes place.

Description

A kind of automatic blanking machine

Technical field

The utility model relates to mechanical equipment, particularly relates to a kind of automatic blanking machine.

Background technology

In the packaging process of the workpiece such as cutter, fork, spoon, general blanker and the wrapping machine of adopting is in conjunction with workpiece packagings such as tool setting, fork, spoons.Existing blanker is all adopt artificial blanking, and manually the workpiece such as cutter, fork, spoon are put into blanker carries out blanking in utilization.But artificial blanking needs workman's significant attention to prevent contingency, this can cause the labour intensity of workman large, and tensity is high, is more unfavorable for safety in production.In addition, adopt artificial blanking, work efficiency is not high, and the conformability of blowing is poor, and the speed of blowing can not be completely the same, causes the weak effect that workpiece is packed.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of automatic blanking machine, adopts this automatic blanking machine automatically to workpiece blanking, and not only the blanking speed of workpiece is consistent with frequency-flat, and reduces labour intensity, increases work efficiency, and reduces contingency and occurs.

For achieving the above object, the utility model provides a kind of automatic blanking machine, comprise base plate, positioning component, clamp assembly and supporting board assembly, base plate is provided with a blanking port, positioning component comprises two work piles, two groups of locatings plate and two position guiding grooves, two work piles are oppositely arranged on the base plate of an opposite side of blanking port respectively, two groups of locatings plate are separately positioned on two work piles, often group locating plate and work pile form position guiding groove, clamp assembly comprises the first clamp assembly and the second clamp assembly, first clamp assembly and the second clamp assembly are oppositely arranged on the base plate of another opposite side of blanking port respectively, supporting board assembly comprises the first supporting board and the second supporting board, first supporting board is arranged on bottom the first clamp assembly, second supporting board is arranged on the bottom of the second clamp assembly, first supporting board and the second supporting board lay respectively in another opposite side of blanking port.

Preferably, blanking port is in the center of base plate, the center line of two work piles and the middle line parallel of base plate opposite side, the middle line parallel of the center line between the first clamp assembly and the second clamp assembly and another opposite side of base plate.

Preferably, often organize locating plate and comprise the first locating plate and the second locating plate, first locating plate and the second locating plate are separately positioned on the side of close blanking port in work pile, first locating plate, the second locating plate and work pile form position guiding groove, and multiple workpiece overlays between the first clamp assembly and the second clamp assembly along position guiding groove.

Preferably, first clamp assembly comprises the first cylinder, the first top shoe, the first sliding block and the first clamping plate, first cylinder is connected with the first sliding block, first sliding block is provided with the first chute, first top shoe to be placed in the first chute and along the first slide, first Boards wall is in the end of the first top shoe, and the first supporting board to be arranged on below the first sliding block and to be in blanking port.

Preferably, second clamp assembly comprises the second cylinder, the second top shoe, the second sliding block and the second clamping plate, second cylinder is connected with the second sliding block, second sliding block is provided with the second chute, second top shoe to be placed in the second chute and along the second slide, second Boards wall is in the end of the second top shoe, second supporting board to be arranged on below the second sliding block and to be in blanking port, the workpiece of non-position guiding groove bottommost is by the first clamping plate and the clamping of the second clamping plate, and the work piece of position guiding groove bottommost is on the first supporting board and the second supporting board.

More preferably, the first clamp assembly comprises the first spring further, and the both ends of the first spring connect the first clamping plate and the first sliding block respectively, second clamp assembly comprises the second spring further, the both ends of the second spring connect the second clamping plate and the second sliding block respectively, first air cylinder driven first sliding block moves near blanking port direction, distance between first clamping plate and the first sliding block reduces, second air cylinder driven second sliding block moves near blanking port direction, distance between second clamping plate and the second sliding block reduces, distance between the first clamping plate and the first sliding block is minimum, when distance simultaneously between the second clamping plate and the second sliding block is minimum, first clamping plate and the second clamping plate clamp the workpiece of non-position guiding groove bottommost.

More preferably, first air cylinder driven first sliding block moves near blanking port direction, first sliding block moves near the direction of the first top shoe relatively along sliding tray, extrude the first spring, first action of the spring is on the first clamping plate, first clamping plate are fitted the side of workpiece of non-position guiding groove bottommost, and when the distance between the first sliding block and the first clamping plate is minimum, the first clamping plate extrude the side of the workpiece of non-position guiding groove bottommost by the first spring force; Second air cylinder driven second sliding block moves near blanking port direction, second sliding block moves near the direction of the second top shoe relatively along the second chute, extrude the second spring, second action of the spring is on the second clamping plate, second clamping plate are fitted the opposite side of workpiece of non-position guiding groove bottommost, when distance between the second sliding block and the second clamping plate is minimum, the second clamping plate extrude the opposite side of the workpiece of non-position guiding groove bottommost by the second spring force; Such first clamping plate and the second clamping plate extrude the two opposite sides of the workpiece being in position guiding groove bottommost simultaneously, the first clamping plate and the non-workpiece being in position guiding groove bottommost of the second clamping plate clamping; And at the first sliding block in blanking port motion process, the first supporting board be arranged on below the first sliding block moves to the second supporting board direction in blanking port, simultaneously at the second sliding block in blanking port motion process, the second supporting board be arranged on below the second sliding block moves to the first supporting board direction in blanking port, distance between the first sliding block and the first clamping plate is minimum, and distance between the second sliding block and the second clamping plate minimum time, the workpiece being in position guiding groove bottommost falls from the first supporting board and the second supporting board.

More preferably, the cross-sectional area of the second clamping plate is less than the cross-sectional area of the first clamping plate.

Preferably, first supporting board comprises the first horizontal support plate, second horizontal support plate, first longitudinal support plate, second longitudinal support plate, one end of the both ends of first longitudinal support plate support plate horizontal with first and the second horizontal support plate is respectively connected, the other end of first horizontal support plate is connected with the bottom of the first sliding block, one end of second longitudinal support plate is connected with the other end of the second horizontal support plate, the length being shorter in length than first longitudinal support plate of second longitudinal support plate, the first supporting board opening is formed between the other end of second longitudinal support plate and the first horizontal support plate, when at the first sliding block in blanking port motion process, the first supporting board be arranged on below the first sliding block moves to the second supporting board direction in blanking port, the workpiece of position guiding groove bottommost is gradually by the first supporting board opening on the first supporting board.

Preferably, second supporting board comprises the first lateral strut, second lateral strut, first longitudinal holding pole, second longitudinal holding pole and the 3rd longitudinal holding pole, the both ends of the first longitudinal holding pole are connected with an end of the first lateral strut and the second lateral strut respectively, the other end of first lateral strut is connected with the base plate of the second sliding block, one end of the 3rd longitudinal holding pole is connected with the other end of the second lateral strut, one end of the second longitudinal holding pole is connected with the second lateral strut and is between the first longitudinal holding pole and the 3rd longitudinal holding pole, second longitudinal holding pole and the isometric and length being shorter in length than the first longitudinal holding pole of the second longitudinal holding pole of the 3rd longitudinal holding pole, second longitudinal holding pole and the 3rd longitudinal holding pole and the first lateral strut form the second supporting board opening, when at the second sliding block in blanking port motion process, the second supporting board be arranged on below the second sliding block moves to the first supporting board direction in blanking port, the second supporting board opening of workpiece gradually on the second supporting board of position guiding groove bottommost.

More preferably, the work piece of position guiding groove bottommost is on second longitudinal support plate of the first supporting board and the second longitudinal holding pole of the second supporting board and the 3rd pole; Distance between the first sliding block and the first clamping plate is minimum, and when the distance simultaneously between the second sliding block and the second clamping plate is minimum, the first supporting board opening and the second supporting board open communication, workpiece falls from the first supporting board opening and the second supporting board opening.

More preferably, the region area of the second supporting board is greater than the cross-sectional area of the first supporting board.

Compared with prior art, the beneficial effects of the utility model are, it is simultaneously automatic to bottommost workpiece blanking that this automatic blanking machine adopts air cylinder driven to clamp multiple workpiece, blanking frequency-flat, reduce labour intensity, increase work efficiency, and reduce contingency and occur.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the transparent view of a kind of automatic blanking machine of the utility model;

Fig. 2 is the face upwarding view of a kind of automatic blanking machine of the utility model.

Concrete label: 10 base plates, 11 blanking ports, 20 positioning components, 21 work piles, 22 locatings plate, 221 first locatings plate, 222 second locatings plate, 23 position guiding grooves, 30 clamp assemblies, 31 first clamp assemblies, 311 first cylinders, 312 first top shoes, 313 first sliding blocks, 314 first clamping plate, 315 first springs, 32 second clamp assemblies, 321 second cylinders, 322 second top shoes, 323 second sliding blocks, 324 second clamping plate, 325 second springs, supporting board assembly 40, 41 first supporting boards, 411 first horizontal support plates, 412 second horizontal support plates, 413 first longitudinal support plates, 414 second longitudinal support plates, 415 first supporting board openings, 42 second supporting boards, 421 first lateral strut, 422 second lateral strut, 423 first longitudinal holding poles, 424 second longitudinal holding poles, 425 the 3rd longitudinal holding poles, 426 second supporting board openings.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Fig. 1 to Fig. 2 is the preferred implementation of a kind of automatic blanking machine that the utility model provides.As shown in Figure 1 to Figure 2, this automatic blanking machine comprises base plate 10, positioning component 20, clamp assembly 30 and supporting board assembly 40, base plate 10 is provided with a blanking port 11, positioning component 20 and clamp assembly 20 are all arranged on base plate 10, clamp assembly 30 comprises the first clamp assembly 31 and the second clamp assembly 32, supporting board assembly 40 comprises the first supporting board 41 and the second supporting board 42, first supporting board 41 is arranged on bottom the first clamp assembly 31, second supporting board 42 is arranged on the bottom of the second clamp assembly 32, described first supporting board 41 and the second supporting board 42 lay respectively in blanking port 11, workpiece stacks and overlays between the first clamp assembly 31 and the second clamp assembly 32 along positioning component 20, be in bottommost work piece on the first supporting board 41 and the second supporting board 42, coordinate non-bottommost Workpiece clamping by the first clamp assembly 31 and the second clamp assembly 32, first clamp assembly 31 and the second clamp assembly 32 drive the first supporting board 41 and the motion of the second supporting board 42 to make to be in the workpiece blanking of bottommost simultaneously.Workpiece be in cutter, fork or spoon any one.

Positioning component 20 comprises two work piles 21, two groups of locatings plate 22 and two position guiding grooves 23, two work piles 21 are oppositely arranged on the base plate of an opposite side of blanking port 11 respectively, two groups of locatings plate 22 are separately positioned on two work piles 21, often organize locating plate 22 and comprise the first locating plate 221 and the second locating plate 222, first locating plate 221 and the second locating plate 222 are separately positioned on the side of close blanking port 11 in work pile 21, first locating plate 221, second locating plate 222 forms position guiding groove 23 with work pile 21, multiple workpiece overlays between the first clamp assembly 31 and the second clamp assembly 32 along position guiding groove 23.

It should be noted that, blanking port 11 is in the center of base plate 10, on the base plate 10 that two work piles 21 are oppositely arranged on an opposite side of blanking port 11 respectively and the middle line parallel of the center line of two work piles 21 and base plate 10 opposite side, on the base plate 10 that first clamp assembly 31 and the second clamp assembly 32 are oppositely arranged on another opposite side of blanking port 11 respectively and the first clamp assembly 31 and the center line of the second clamp assembly 32 and the middle line parallel of another opposite side of base plate 10, the first supporting board 41 and the second supporting board 42 lay respectively in another opposite side of blanking port 11.

First clamp assembly 31 comprises the first cylinder 311, first top shoe 312, first sliding block 313 and the first clamping plate 314, first cylinder 311 is connected with the first sliding block 313, first cylinder 311 drives the first sliding block 313 to move, first sliding block 313 is provided with the first chute 3131, first top shoe 312 to be placed in the first chute 313 and to slide along the first chute 3131, first clamping plate 314 are fixed on the end of the first top shoe 312, and the first supporting board 41 to be arranged on below the first sliding block 313 and to be in blanking port 11.

Second clamp assembly 32 comprises the second cylinder 321, second top shoe 322, second sliding block 323 and the second clamping plate 324, second cylinder 321 is connected with the second sliding block 323, second cylinder 321 drives the second sliding block 323 to move, second sliding block 323 is provided with the second chute 3231, second top shoe 322 to be placed in the second chute 3231 and to slide along the second chute 3231, second clamping plate 324 are fixed on the end of the second top shoe 322, second supporting board 42 to be arranged on below the second sliding block 323 and to be in blanking port 11, first supporting board 41 and the second supporting board 42 are in another opposite side of blanking port 11 respectively, the workpiece of non-position guiding groove 23 bottommost is clamped by the first clamping plate 314 and the second clamping plate 324, the work piece of position guiding groove 23 bottommost is on the first supporting board 41 and the second supporting board 42.The cross-sectional area of the second clamping plate 324 is less than the cross-sectional area of the first clamping plate 314.

The both ends that first clamp assembly 31 comprises the first spring 315, first spring 315 further connect the first clamping plate 314 and the first sliding block 313 respectively, the both ends that second clamp assembly 32 comprises the second spring 325, second spring 325 further connect the second clamping plate 324 and the second sliding block 323 respectively, first cylinder 311 drives the first sliding block 313 to move near blanking port 11 direction, first sliding block 313 moves near the direction of the first top shoe 312 relatively along sliding tray 3131, extrude the first spring 315, first spring 315 acts on the first clamping plate 314, first clamping plate 314 are fitted the side of workpiece of non-position guiding groove 23 bottommost, when distance between the first sliding block 313 and the first clamping plate 314 is minimum, the first clamping plate 314 extrude the side of the workpiece of non-position guiding groove 23 bottommost by the first spring 315 elastic force, second cylinder 321 drives the second sliding block 323 to move near blanking port 11 direction, second sliding block 323 moves near the direction of the second top shoe 322 along the second chute 3231 near the second sliding block 323 relatively relatively along the second chute 3231, extrude the second spring 325, second spring 325 acts on the second clamping plate 324, second clamping plate 324 are fitted the opposite side of workpiece of non-position guiding groove 23 bottommost, when distance between the second sliding block 323 and the second clamping plate 324 is minimum, second clamping plate 324 extrude the opposite side of the workpiece of non-position guiding groove 23 bottommost by the second spring 326 elastic force, such first clamping plate 314 and the second clamping plate 324 extrude the two opposite sides of the workpiece being in position guiding groove 23 bottommost simultaneously, and the first clamping plate 314 and the second clamping plate 324 clamp the non-workpiece being in position guiding groove 23 bottommost, and at the first sliding block 313 in blanking port 11 motion process, the first supporting board 41 be arranged on below the first sliding block 313 moves to the second supporting board 42 direction in blanking port 11, simultaneously at the second sliding block 323 in blanking port 11 motion process, the second supporting board 42 be arranged on below the second sliding block 323 moves to the first supporting board 41 direction in blanking port 11, distance between the first sliding block 313 and the first clamping plate 314 is minimum, and distance between the second sliding block 323 and the second clamping plate 324 minimum time, the workpiece being in position guiding groove 23 bottommost falls from the first supporting board 41 and the second supporting board 42.

The region area of the second supporting board 42 is greater than the cross-sectional area of the first supporting board 41.First supporting board 41 comprises the first horizontal support plate 411, second horizontal support plate 412, first longitudinal support plate 413 and second longitudinal support plate 414, one end of the both ends of first longitudinal support plate 413 support plate 411 horizontal with first and the second horizontal support plate 412 is respectively connected, the other end of first horizontal support plate 411 is connected with the bottom of the first sliding block 313, one end of second longitudinal support plate 414 is connected with the other end of the second horizontal support plate 412, the length of second longitudinal support plate 414 is less than the length of first longitudinal support plate 413, the first supporting board opening 415 is formed between the other end of second longitudinal support plate 414 and the first horizontal support plate 411, be in the work piece of position guiding groove 23 bottommost on second longitudinal support plate 414 of the first supporting board 41, when at the first sliding block 313 in blanking port 11 motion process, the first supporting board 41 be arranged on below the first sliding block 313 moves to the second supporting board 42 direction in blanking port 11, be in the workpiece of position guiding groove bottommost gradually by the first supporting board opening 415 on the first supporting board 41.

Second supporting board 42 comprises the first lateral strut 421, second lateral strut 422, first longitudinal holding pole 423, second longitudinal holding pole 424 and the 3rd longitudinal holding pole 425, the both ends of the first longitudinal holding pole 423 are connected with an end of the first lateral strut 421 and the second lateral strut 422 respectively, the other end of first lateral strut 421 is connected with the bottom of the second sliding block 323, one end of the 3rd longitudinal holding pole 425 is connected with the other end of the second lateral strut 422, one end of the second longitudinal holding pole 424 is connected with the second lateral strut 422 and is between the first longitudinal holding pole 423 and the 3rd longitudinal holding pole 425, second longitudinal holding pole 424 and the isometric and length that is the second longitudinal holding pole 424 of the 3rd longitudinal holding pole 425 are less than the length of the first longitudinal holding pole 423, second longitudinal holding pole 424 and the 3rd longitudinal holding pole 425 and the first lateral strut 421 form the second supporting board opening 426, be in the work piece of position guiding groove 23 bottommost on the second longitudinal holding pole 424 and the 3rd longitudinal holding pole 425, when at the second sliding block 323 in blanking port 11 motion process, the second supporting board 42 be arranged on below the second sliding block 323 moves to the first supporting board 41 direction in blanking port 11, be in the workpiece of position guiding groove 23 bottommost gradually by the second supporting board opening 426 on the second supporting board 42, distance between the first sliding block 313 and the first clamping plate 41 is minimum, when distance simultaneously between the second sliding block 323 and the second clamping plate 42 is minimum, first supporting board opening 415 is communicated with the second supporting board opening 426, the workpiece being in position guiding groove 23 bottommost falls from the first supporting board opening 415 and the second supporting board opening 426.

In whole automatic blanking machine, clamping process is specially: the first cylinder 311 drives the first sliding block 313 to move near blanking port 11 direction, first sliding block 313 moves near the direction of the first top shoe 312 relatively along sliding tray 3131, extrude the first spring 315, first spring 315 acts on the first clamping plate 314, first clamping plate 314 are fitted the side of workpiece of non-position guiding groove 23 bottommost, when distance between the first sliding block 313 and the first clamping plate 314 is minimum, the first clamping plate 314 extrude the side of the workpiece of non-position guiding groove 23 bottommost by the first spring 315 elastic force; Second cylinder 321 drives the second sliding block 323 to move near blanking port 11 direction, second sliding block 323 moves near the direction of the second clamping plate 324 relatively along the second chute 3231, extrude the second spring 325, second clamping plate 324 are fitted the opposite side of workpiece of non-position guiding groove 23 bottommost, when distance between the second slide block 323 and the second clamping plate 324 is minimum, the second clamping plate 324 extrude the opposite side of the workpiece of non-position guiding groove 23 bottommost by the second spring 325 elastic force; Such first clamping plate 314 and the second clamping plate 324 extrude the two opposite sides of the workpiece being in position guiding groove 23 bottommost simultaneously, and the first clamping plate 314 and the second clamping plate 324 clamp the non-workpiece being in position guiding groove 23 bottommost.

In whole automatic blanking machine, blanking operation is specially: at the first sliding block 313 in blanking port 11 motion process, the first supporting board 41 be arranged on below the first sliding block 313 moves to the second supporting board 42 direction in blanking port 11, is in the workpiece of position guiding groove 23 bottommost gradually by the first supporting board opening 415 on the first supporting board 41; At the second sliding block 323 in blanking port 11 motion process, the second supporting board 42 be arranged on below the second sliding block 323 moves to the first supporting board 41 direction in blanking port 11, is in the workpiece of position guiding groove 23 bottommost gradually by the second supporting board opening 426 on the second supporting board 42; Distance between the first sliding block 313 and the first clamping plate 314 is minimum, and distance between the second sliding block 323 and the second clamping plate 324 minimum time, first supporting plate sawing sheet mouth 415 is communicated with the second supporting board opening 426, and the workpiece being in position guiding groove 23 bottommost falls from the first supporting board opening 415 and the second supporting board opening 426.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. an automatic blanking machine, it is characterized in that, comprise: base plate, positioning component, clamp assembly and supporting board assembly, described base plate is provided with a blanking port, described positioning component comprises two work piles, two groups of locatings plate and two position guiding grooves, described two work piles are oppositely arranged on the base plate of an opposite side of blanking port respectively, described two groups of locatings plate are separately positioned on described two work piles, described often group locating plate and described work pile form position guiding groove, described clamp assembly comprises the first clamp assembly and the second clamp assembly, described first clamp assembly and the second clamp assembly are oppositely arranged on the base plate of another opposite side of blanking port respectively, described supporting board assembly comprises the first supporting board and the second supporting board, described first supporting board is arranged on bottom the first clamp assembly, described second supporting board is arranged on the bottom of the second clamp assembly, described first supporting board and the second supporting board lay respectively in another opposite side of blanking port.

2. automatic blanking machine according to claim 1, it is characterized in that: described blanking port is in the center of base plate, the center line of described two work piles and the middle line parallel of described base plate opposite side, the middle line parallel of the center line between described first clamp assembly and described second clamp assembly and another opposite side of described base plate.

3. automatic blanking machine according to claim 1, it is characterized in that: described locating plate of often organizing comprises the first locating plate and the second locating plate, described first locating plate and described second locating plate are separately positioned in described work pile on the side of blanking port, and described first locating plate, described second locating plate and described work pile form position guiding groove.

4. according to the arbitrary described automatic blanking machine of claims 1 to 3, it is characterized in that: described first clamp assembly comprises the first cylinder, the first top shoe, the first sliding block and the first clamping plate, described first cylinder is connected with described first sliding block, described first sliding block is provided with the first chute, described first top shoe to be placed in described first chute and along the first slide, described first Boards wall is in the end of described first top shoe, and described first supporting board to be arranged on below described first sliding block and to be in blanking port.

5. automatic blanking machine according to claim 1, it is characterized in that: described second clamp assembly comprises the second cylinder, the second top shoe, the second sliding block and the second clamping plate, described second cylinder is connected with described second sliding block, described second sliding block is provided with the second chute, described second top shoe to be placed in described second chute and along the second slide, described second Boards wall is in the end of the second top shoe, and described second supporting board to be arranged on below described second sliding block and to be in blanking port.

6. automatic blanking machine according to claim 4, is characterized in that: described first clamp assembly comprises the first spring, and the both ends of described first spring connect described first clamping plate and described first sliding block respectively.

7. automatic blanking machine according to claim 5, is characterized in that: described second clamp assembly comprises the second spring, and the both ends of described second spring connect described second clamping plate and described second sliding block respectively.

8. automatic blanking machine according to claim 4, it is characterized in that: described first supporting board comprises the first horizontal support plate, second horizontal support plate, first longitudinal support plate, second longitudinal support plate, one end of the both ends of described first longitudinal support plate support plate horizontal with first and the second horizontal support plate is respectively connected, the other end of described first horizontal support plate is connected with the bottom of described first sliding block, one end of described second longitudinal support plate is connected with the other end of described second horizontal support plate, the length of described second longitudinal support plate is less than the length of first longitudinal support plate, the first supporting board opening is formed between the other end of described second longitudinal support plate and described first horizontal support plate.

9. automatic blanking machine according to claim 5, it is characterized in that: described second supporting board comprises the first lateral strut, second lateral strut, first longitudinal holding pole, second longitudinal holding pole and the 3rd longitudinal holding pole, the both ends of described first longitudinal holding pole are connected with an end of described first lateral strut and described second lateral strut respectively, the other end of described first lateral strut is connected with the base plate of described second sliding block, one end of described 3rd longitudinal holding pole is connected with the other end of described second lateral strut, one end of described second longitudinal holding pole is connected with described second lateral strut and is between the first longitudinal holding pole and the 3rd longitudinal holding pole, described second longitudinal holding pole and the isometric and length that is described second longitudinal holding pole of the 3rd longitudinal holding pole are less than the length of described first longitudinal holding pole, described second longitudinal holding pole and described 3rd longitudinal holding pole and described first lateral strut form the second supporting board opening.

10. automatic blanking machine according to claim 9, is characterized in that: the region area of described second supporting board is greater than the cross-sectional area of described first supporting board.