CN214767939U - Storage structure for stamping part size detection device - Google Patents

Abstract

The utility model belongs to the technical field of the stamping workpiece, a stamping workpiece size detection device is with accomodating structure is disclosed, including the operation cabinet body, device casing, be connected through drive arrangement between the operation cabinet body, the device casing, the top fixedly connected with stamping device shell of the operation cabinet body, the top swing joint of device casing has the detection casing, and detects the casing and be located drive arrangement's top, the both sides of drive arrangement are located under the detection casing and have seted up rectangle material delivery mouth, the top edge fixedly connected with location diaphragm of device casing; through promoting diaphragm, rectangle and running through the setting in groove, improved detection device's functionality, use through the cooperation that promotes diaphragm, rectangle run through the groove, can with the automatic detection of stamping workpiece after the detection, take out, not only easy operation, use are convenient, have reduced the work degree of difficulty, have reduced the manual condition of taking, collecting of staff.

Description

Storage structure for stamping part size detection device

Technical Field

The utility model belongs to the technical field of the stamping workpiece, concretely relates to stamping workpiece size detection device is with accomodating structure.

Background

The method is a forming processing method for obtaining the workpiece with the required shape and size by applying external force to plates, strips, pipes, profiles and the like through a punch press and a die to cause plastic deformation or separation, and the obtained workpiece is a stamping part. The warpage is the distortion of the surface of the stamping part which is not formed according to the designed shape, and the warpage is caused by the uneven shrinkage of the formed stamping part, so that the following steps are required: the size and the flatness of the stamping part are measured to prevent the stamping part from warping so as to meet the requirements of customers.

The existing detection device has a certain problem when being used, and because the detection device detects the stamped part, the stamped part can not be automatically collected, the stamping part is manually taken away by workers, so that the operation is complex, the working difficulty is increased, and meanwhile, the stamped part drops into a collection cabinet to generate large sound, so that the noise is large, the working environment is prone to noise, and the storage structure for the stamped part size detection device is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a stamping workpiece size detection device is with accomodating structure to there is certain problem in the current detection device who proposes when using in solving above-mentioned background art, because behind detection device detection stamping workpiece, can't collect the stamping workpiece automation, still needs the staff manual to take it away, and not only complex operation has increased the work degree of difficulty, and the stamping workpiece drops to and can produce great sound scheduling problem in collecting the cabinet simultaneously.

In order to achieve the above object, the utility model provides a following technical scheme: the storage structure for the stamping part size detection device comprises an operation cabinet body and a device shell, wherein the operation cabinet body and the device shell are connected through a driving device, the top of the operation cabinet body is fixedly connected with a stamping device shell, the top of the device shell is movably connected with a detection shell, the detection shell is positioned at the top of the driving device, two sides of the driving device are positioned right below the detection shell and are provided with rectangular conveying ports, the edge of the top of the device shell is fixedly connected with a positioning transverse plate, one side of the positioning transverse plate is movably connected with a pushing transverse plate through a plurality of electric adjusting rods, the pushing transverse plate is positioned at the position of the rectangular conveying ports, and the position, close to the rectangular conveying ports, of the top of the device shell is provided with a rectangular through groove;

the inner wall of the device shell is located under the rectangular through groove and is detachably connected with a rectangular connecting block, one end of the rectangular connecting block is rotatably connected with a rotating inner shaft, a reset torsion spring is embedded in the rotating inner shaft, one side, far away from the rectangular connecting block, of the rotating inner shaft is fixedly connected with an adjusting bottom baffle, and the top of the adjusting bottom baffle is fixedly connected with an adjusting top baffle through a plurality of first springs.

Preferably, the cross section of the pushing transverse plate is rectangular, and the length of the pushing transverse plate is consistent with that of the rectangular material conveying port.

Preferably, a cavity is formed in the device shell, and a rectangular accommodating shell is movably connected in the cavity.

Preferably, the rectangular connecting block is symmetrically distributed with mounting adjusting discs on one side far away from the adjusting bottom baffle, and the inner wall of the device shell is provided with mounting placing grooves matched with the mounting adjusting discs for use.

Preferably, the adjusting top baffle is made of asbestos, and the length of the adjusting top baffle is consistent with that of the adjusting bottom baffle.

Preferably, the number of the first springs is more than eight, and the first springs are symmetrically distributed on the center line of the adjusting bottom baffle.

Preferably, one side of the device shell, which is located on the cavity, is rotatably connected with a pushing door, a touch screen is embedded on the surface of the detection shell, and heat dissipation holes are formed in the side wall of the detection shell.

Compared with the prior art, the beneficial effects of the utility model are that:

through promoting diaphragm, rectangle and running through the setting in groove, improved detection device's functionality, use through the cooperation that promotes diaphragm, rectangle run through the groove, can with the automatic detection of stamping workpiece after detecting, take out, not only easy operation, use are convenient, have reduced the work degree of difficulty, have reduced the manual condition of taking, collecting of staff, have improved work efficiency.

Through adjusting the setting of axle in baffle, the rotation of top, improved detection device's practicality, through adjusting the cooperation use of axle in baffle, the rotation, can make and run through the groove from the rectangle and get into the stamping workpiece in the device and can not directly drop in the rectangle storage shell, the effectual sound of avoiding the stamping workpiece directly to drop the production has reduced the noise, has improved operational environment.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a perspective view of the electric adjusting rod and the pushing transverse plate of the present invention;

FIG. 3 is a side cross-sectional view of the structural device housing of the present invention;

FIG. 4 is a perspective view of the rectangular connecting block of the present invention;

FIG. 5 is a front view of the mounting groove of the present invention;

in the figure: 1. an operating cabinet body; 2. a stamping device housing; 3. heat dissipation holes; 4. a touch screen; 5. detecting the shell; 6. a drive device; 7. pushing the door; 8. a device housing; 9. positioning a transverse plate; 10. an electric adjusting rod; 11. pushing the transverse plate; 12. a rectangular material conveying port; 13. a rectangular housing case; 14. adjusting the bottom baffle; 15. a first spring; 16. a return torsion spring; 17. rotating the inner shaft; 18. adjusting a top baffle; 19. a rectangular connecting block; 20. a rectangular through slot; 21. installing an adjusting disc; 22. and installing a placing groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 5, the present invention provides a technical solution: the accommodating structure for the stamping part size detection device comprises an operation cabinet body 1 and a device shell 8, wherein the operation cabinet body 1 and the device shell 8 are connected through a driving device 6, the top of the operation cabinet body 1 is fixedly connected with a stamping device shell 2, one side, located on a cavity, of the device shell 8 is rotatably connected with a push door 7, a touch screen 4 is embedded on the surface of a detection shell 5, and heat dissipation holes 3 are formed in the side wall of the detection shell 5;

referring to fig. 2, 3 and 4, the top of the device housing 8 is movably connected with the detection housing 5, the detection shell 5 is positioned at the top of the driving device 6, the detection shell 5 can detect and measure the size of a stamping part positioned on the driving device 6, the detection shell 5 is the prior art, two sides of the driving device 6 are positioned under the detection shell 5 and are provided with a rectangular material conveying opening 12, the edge of the top of the device shell 8 is fixedly connected with a positioning transverse plate 9, one side of the positioning transverse plate 9 is movably connected with a pushing transverse plate 11 through a plurality of electric adjusting rods 10, the pushing transverse plate 11 is located at the position of the rectangular material conveying opening 12, the pushing transverse plate 11 can be pushed through the electric adjusting rod 10, a rectangular through groove 20 is formed in the position, close to the rectangular material conveying opening 12, of the top of the device shell 8, and the pushing transverse plate 11 can push a stamping part at the top of the driving device 6 into the rectangular through groove 20;

referring to fig. 3 and 4, the inner wall of the device housing 8 is located right below the rectangular through groove 20 and is detachably connected with a rectangular connecting block 19, one end of the rectangular connecting block 19 is rotatably connected with a rotating inner shaft 17, the outer ring of the rotating inner shaft 17 is connected with the rectangular connecting block 19, a reset torsion spring 16 is embedded in the rotating inner shaft 17, one side of the rotating inner shaft 17 away from the rectangular connecting block 19 is fixedly connected with an adjusting bottom baffle 14, the inner ring of the rotating inner shaft 17 is connected with the adjusting bottom baffle 14, the top of the adjusting bottom baffle 14 is fixedly connected with an adjusting top baffle 18 through a plurality of first springs 15, the adjusting top baffle 18 is made of asbestos material, the length of the adjusting top baffle 18 is consistent with that of the adjusting bottom baffle 14, so that when a stamping part is in contact with the adjusting top baffle 18, the stamping part has small sound, the first springs 15 are made of elastic material, are deformed under the action force, and lose the action force to restore the original state, the device shell 8 is internally provided with a cavity, the rectangular containing shell 13 is movably connected in the cavity, when in use, only the stamping parts which do not conform to the size are detected by the detection shell 5, then the electric adjusting rod 10 is operated, so that the electric adjusting rod 10 drives the pushing transverse plate 11 to push in the rectangular material conveying opening 12, so that the stamping part at the top of the driving device 6 is pushed into the rectangular through groove 20 by pushing the transverse plate 11, the stamping part falling from the rectangular through groove 20 will contact the adjusting top baffle 18 first, the first spring 15 and the adjusting top baffle 18 play a role in buffering, reduce the generation of noise, then the rotating inner shaft 17 is acted by force to rotate, so that the adjusting bottom baffle 14 and the adjusting top baffle 18 are in an inclined state, so that the stamped parts on the top of the adjusting top baffle 18 fall onto the rectangular receiving shell 13, and therefore stamped parts which do not conform to the size can be received into the rectangular receiving shell 13.

In this embodiment, preferably, referring to fig. 2, the cross section of the pushing horizontal plate 11 is rectangular, and the length of the pushing horizontal plate 11 is the same as the length of the rectangular material conveying opening 12.

In this embodiment, preferably, referring to fig. 3, 4 and 5, mounting adjustment discs 21 are symmetrically distributed on one side of the rectangular connection block 19 away from the adjusting bottom baffle 14, a mounting placement groove 22 used in cooperation with the mounting adjustment disc 21 is formed in the inner wall of the device housing 8, the mounting adjustment disc 21 on one side of the rectangular connection block 19 is only required to be aligned to the position of the mounting placement groove 22, and then the rectangular connection block 19 slowly slides down, so that the mounting adjustment disc 21 slides in the mounting placement groove 22, and the rectangular connection block 19 can be mounted.

In this embodiment, it is preferable that the number of the first springs 15 is more than eight, and the first springs 15 are symmetrically distributed on the center line of the adjusting bottom baffle 14.

The utility model discloses a theory of operation and use flow: during the use, only need detect out the stamping workpiece that is not conform to the size through detecting casing 5, operation electric adjusting rod 10 afterwards, make electric adjusting rod 10 drive and promote diaphragm 11 and promote in rectangle material conveying mouth 12, make the stamping workpiece that is located drive arrangement 6 top promote to the rectangle through groove 20 in through promoting diaphragm 11, the stamping workpiece that drops in through groove 20 from the rectangle at first can contact regulation top baffle 18, through first spring 15, regulation top baffle 18 has played the buffering, the production of noise has been reduced, it can rotate to rotate interior axle 17 and receive the effort after that, make and adjust bottom baffle 14, it is in the tilt state to adjust top baffle 18, make the stamping workpiece that adjusts top baffle 18 top drop to rectangle and accomodate on shell 13 along with it, thereby can accomodate the stamping workpiece that is not conform to the size in rectangle accomodates shell 13.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent replacements made by those of ordinary skill in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (7)

1. Stamping workpiece size detection device is with accomodating structure, including the operation cabinet body (1), device casing (8), be connected through drive arrangement (6) between the operation cabinet body (1), device casing (8), the top fixedly connected with stamping device shell (2) of the operation cabinet body (1), its characterized in that: the top swing joint of device casing (8) has detection casing (5), and detects casing (5) and be located the top of drive arrangement (6), the both sides of drive arrangement (6) are located and have seted up rectangle material conveying mouth (12) under detection casing (5), the top edge fixedly connected with location diaphragm (9) of device casing (8), one side of location diaphragm (9) has promotion diaphragm (11) through a plurality of electric adjusting rod (10) swing joint, and promotes diaphragm (11) and be located the position department of rectangle material conveying mouth (12), the top of device casing (8) is close to the position department of rectangle material conveying mouth (12) and has seted up the rectangle and has run through groove (20).

2. A receiving structure for a stamping part size detection apparatus according to claim 1, characterized in that: the device is characterized in that the inner wall of the device shell (8) is located under a rectangular through groove (20) and detachably connected with a rectangular connecting block (19), one end of the rectangular connecting block (19) is rotatably connected with a rotating inner shaft (17), a reset torsion spring (16) is embedded in the rotating inner shaft (17), one side of the rotating inner shaft (17) far away from the rectangular connecting block (19) is fixedly connected with an adjusting bottom baffle (14), the top of the adjusting bottom baffle (14) is fixedly connected with an adjusting top baffle (18) through a plurality of first springs (15), the cross section of the pushing transverse plate (11) is rectangular, and the length of the pushing transverse plate (11) is consistent with that of the rectangular conveying port (12).

3. A receiving structure for a stamping part size detection apparatus according to claim 1, characterized in that: a cavity is formed in the device shell (8), and a rectangular storage shell (13) is movably connected in the cavity.

4. A receiving structure for a stamping part size detection apparatus according to claim 2, characterized in that: and mounting adjusting discs (21) are symmetrically distributed on one side, away from the adjusting bottom baffle (14), of the rectangular connecting block (19), and mounting placing grooves (22) matched with the mounting adjusting discs (21) in use are formed in the inner wall of the device shell (8).

5. A receiving structure for a stamping part size detection apparatus according to claim 2, characterized in that: the adjusting top baffle (18) is made of asbestos, and the length of the adjusting top baffle (18) is consistent with that of the adjusting bottom baffle (14).

6. A receiving structure for a stamping part size detection apparatus according to claim 2, characterized in that: the number of the first springs (15) is more than eight, and the first springs (15) are symmetrically distributed on the center line of the adjusting bottom baffle (14).

7. A receiving structure for a stamping part size detection apparatus according to claim 1, characterized in that: one side of the device shell (8) located in the cavity is rotatably connected with a push door (7), a touch screen (4) is embedded in the surface of the detection shell (5), and heat dissipation holes (3) are formed in the side wall of the detection shell (5).

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