CN110756673B

CN110756673B - Automatic production device for electronic stamping parts

Info

Publication number: CN110756673B
Application number: CN201911115490.9A
Authority: CN
Inventors: 朱寛
Original assignee: Zhejiang Zhongxing Shock Absorber Mfg Co ltd
Current assignee: ZHEJIANG ZHONGXING SHOCK ABSORBER MFG. Co.,Ltd.
Priority date: 2019-11-14
Filing date: 2019-11-14
Publication date: 2020-07-21
Anticipated expiration: 2039-11-14
Also published as: JP2021079439A; CN110756673A; JP6802431B1

Abstract

The invention discloses an automatic production device for electronic stamping parts, which comprises a stamping box, wherein a stamping working cavity is arranged in the stamping box, rotatable belt wheel shafts are arranged in the left side wall and the right side wall of the stamping working cavity, belt wheels are symmetrically arranged on the belt wheel shafts in a front-back and left-right manner, a belt is connected onto the belt wheels, and a chip mainboard can be placed on the belt.

Description

Automatic production device for electronic stamping parts

Technical Field

The invention relates to the field of electronic element production, in particular to an automatic production device for electronic stamping parts.

Background

The electronic stamping part is one of the elements in the production of electronic elements, and can be divided into two categories of electronic stamping parts in a separation process and electronic stamping parts in a forming process according to the classification of the processing technology, wherein the separation process is also called blanking, and the purpose is to separate the electronic stamping parts from a plate material along a certain contour line and ensure the quality requirement of a separation section. The forming process aims to enable a plate to generate plastic deformation under the condition of not breaking a blank to manufacture a workpiece with a required shape and size, and the existing processing device for the electronic stamping part has the problems of low processing efficiency, complex operation and the like, so that a processing device which can simplify the stamping process and realize high-efficiency stamping needs to be developed to improve the production efficiency of the electronic stamping part.

Disclosure of Invention

The technical problem is as follows: the existing processing device for the electronic stamping parts has the problems of low processing efficiency, complex operation and the like.

In order to solve the problems, the embodiment designs an automatic production device of an electronic stamping part, which comprises a stamping box, wherein a stamping working chamber is arranged in the stamping box, rotatable pulley shafts are arranged in the left side wall and the right side wall of the stamping working chamber, belt pulleys are symmetrically arranged on the pulley shafts in the front-back and left-right directions, belts are connected on the belt pulleys, a chip mainboard can be placed on the belts, a rotatable turntable shaft is arranged in the left wall of the stamping box, a turntable is fixedly arranged on the turntable shaft, six friction blocks are symmetrically arranged in the turntable in the left-right direction and in an array manner, the stamping part can be clamped between the friction blocks, one end, away from the stamping part, of each friction block is elastically connected with a damping spring, one end, away from the stamping part, of each damping spring is fixedly connected with the turntable, and a cam cavity is arranged in the upper wall, a stamping mechanism is arranged in the cam cavity, a stamping rod is arranged in the stamping mechanism, a stamping block is arranged at the lower end of the stamping rod, the stamping mechanism can drive the stamping rod to slide up and down, so that the stamping block can press the stamping part on the chip mainboard, a stamping power cavity is arranged in the right wall of the stamping box, a stamping power mechanism is arranged in the stamping power cavity, the stamping power mechanism can provide power for the whole device, a gear cavity is arranged in the lower wall of the stamping power cavity, a gear set mechanism is arranged in the gear cavity, a rotatable power shaft is arranged in the stamping power mechanism, the lower end of the power shaft extends into the gear cavity, a rotatable first bevel gear is arranged in the gear set mechanism, the upper end of the first bevel gear is fixedly connected with the power shaft, and the stamping power mechanism transmits the power to the gear set mechanism through the power shaft and the first bevel gear, the stamping mechanism is characterized in that a rotatable longitudinal transmission shaft is arranged in the stamping power mechanism, a first transmission gear is fixedly arranged at the upper end of the longitudinal transmission shaft, a second transmission gear is arranged at the left end of the first transmission gear in a meshed connection mode, a transverse transmission shaft is fixedly arranged at the left end of the second transmission gear, a rotatable first connecting gear is arranged in the stamping mechanism, and the left end of the transverse transmission shaft is fixedly connected with the first connecting gear so that power can be transmitted to the stamping mechanism.

Beneficially, a first straight gear is fixedly arranged at the right end of the belt pulley shaft, a second straight gear is arranged at the lower end of the first straight gear in a meshed connection mode, a connecting shaft is fixedly arranged at the axis of the second straight gear, a first synchronous gear is fixedly arranged at the left end of the connecting shaft, a second synchronous gear is arranged at the upper end of the first synchronous gear in a meshed connection mode, and the upper end of the second synchronous gear is fixedly connected with the turntable shaft.

The stamping power mechanism comprises a main motor fixedly arranged in the lower wall of the stamping power cavity, the main motor is provided with a power shaft in a power connection mode, a spline shaft is sleeved on the power shaft, the spline shaft is connected with the power shaft through a spline, the upper end of the spline shaft can be meshed with the longitudinal transmission shaft, magnetic sliders are symmetrically arranged at the left end and the right end of the spline shaft, springs are elastically connected to the lower ends of the magnetic sliders, and electromagnets are fixedly arranged at the lower ends of the springs.

The stamping mechanism comprises a rotatable cam shaft arranged in the cam cavity, a second connecting gear is fixedly arranged on the cam shaft, the right end of the second connecting gear is meshed with the first connecting gear, a stamping cam is fixedly arranged on the cam shaft and is located at the rear end of the second connecting gear.

Beneficially, bilateral symmetry has set firmly the damper cylinder on the punching press working chamber roof, be equipped with the oil storage chamber in the damper cylinder, be equipped with gliding piston rod from top to bottom in the oil storage chamber, oil storage chamber left end intercommunication is equipped with branch oil pipe, damper cylinder lower extreme elastic connection is equipped with damping spring, the piston rod lower extreme with the connecting rod links firmly, damping spring lower extreme with connecting rod elastic connection, the connecting rod be close to punching press piece one end with the punching press pole links firmly.

The gear set mechanism comprises a first positioning shaft which is rotatably arranged in a gear cavity, a second bevel gear is fixedly arranged on the first positioning shaft, the upper end of the second bevel gear is in meshed connection with the first bevel gear, a sector gear is fixedly arranged on the first positioning shaft and is positioned at the rear end of the second bevel gear, an intermittent gear is arranged at the lower end of the sector gear in meshed connection, a second positioning shaft is fixedly arranged at the axis of the intermittent gear, a third bevel gear is fixedly arranged on the second positioning shaft and is positioned at the rear end of the intermittent gear, a fourth bevel gear is arranged at the left end of the third bevel gear in meshed connection, and the left end of the fourth bevel gear is fixedly connected with the belt wheel shaft.

The invention has the beneficial effects that: the stamping device is simple in structure, convenient to maintain and convenient to use, the stamping mechanism is arranged in the stamping device, electronic elements can be automatically and quickly stamped on the main board, the processing flow and the operation steps are simplified, the production efficiency of electronic stamping parts is greatly improved, meanwhile, the whole processing process is convenient and quick, and the body of an operator cannot be injured.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of an automatic electronic stamping part production apparatus according to the present invention;

FIG. 2 is an enlarged schematic view of the "A" structure of FIG. 1;

FIG. 3 is an enlarged schematic view of the "B" structure of FIG. 1;

FIG. 4 is an enlarged schematic view of the "C" structure of FIG. 1;

fig. 5 is an enlarged schematic view of the "D" structure of fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to an automatic production device of electronic stamping parts, which is mainly applied to the field of electronic element production, and the invention is further explained by combining the attached drawings of the invention:

the invention relates to an automatic production device of electronic stamping parts, which comprises a stamping box 11, wherein a stamping working cavity 100 is arranged in the stamping box 11, rotatable pulley shafts 31 are arranged in the left side wall and the right side wall of the stamping working cavity 100, belt pulleys 32 are symmetrically arranged on the pulley shafts 31 in the front, the back, the left side and the right side, a belt 33 is connected on the belt pulley 32, a chip main board 34 can be placed on the belt 33, a rotatable turntable shaft 26 is arranged in the left wall of the stamping box 11, a turntable 25 is fixedly arranged on the turntable shaft 26, six friction blocks 44 are symmetrically arranged in the turntable 25 in the left and the right direction and are arrayed, a stamping part 47 can be clamped between the friction blocks 44, one end, far away from the stamping part 47, of the friction block 44 is elastically connected with a damping spring 45, one end, far away from the stamping part 47, of the damping spring 45 is fixedly connected with the turntable, a stamping mechanism 101 is arranged in the cam cavity 13, a stamping rod 22 is arranged in the stamping mechanism 101, a stamping block 24 is arranged at the lower end of the stamping rod 22, the stamping mechanism 101 can drive the stamping rod 22 to slide up and down, so that the stamping block 24 can press the stamping part 47 on the chip main board 34, a stamping power cavity 200 is arranged in the right wall of the stamping box 11, a stamping power mechanism 201 is arranged in the stamping power cavity 200, the stamping power mechanism 201 can provide power for the whole device, a gear cavity 300 is arranged in the lower wall of the stamping power cavity 200, a gear set mechanism 301 is arranged in the gear cavity 300, a rotatable power shaft 49 is arranged in the stamping power mechanism 201, the lower end of the power shaft 49 extends into the gear cavity 300, a rotatable first bevel gear 55 is arranged in the gear set mechanism 301, and the upper end of the first bevel gear 55 is fixedly connected with the power shaft 49, the punching power mechanism 201 transmits power to the gear set mechanism 301 through the power shaft 49 and the first bevel gear 55, a rotatable longitudinal transmission shaft 21 is arranged in the punching power mechanism 201, a first transmission gear 19 is fixedly arranged at the upper end of the longitudinal transmission shaft 21, a second transmission gear 18 is arranged at the left end of the first transmission gear 19 in a meshed connection mode, a transverse transmission shaft 17 is fixedly arranged at the left end of the second transmission gear 18, a rotatable first connecting gear 16 is arranged in the punching mechanism 101, and the left end of the transverse transmission shaft 17 is fixedly connected with the first connecting gear 16 so that the power can be transmitted to the punching mechanism 101.

Beneficially, a first spur gear 36 is fixedly arranged at the right end of the pulley shaft 31, a second spur gear 35 is fixedly connected to the lower end of the first spur gear 36 in a meshing manner, a connecting shaft 29 is fixedly arranged at the axis of the second spur gear 35, a first synchronizing gear 28 is fixedly arranged at the left end of the connecting shaft 29, a second synchronizing gear 27 is fixedly connected to the upper end of the first synchronizing gear 28 in a meshing manner, and the upper end of the second synchronizing gear 27 is fixedly connected to the turntable shaft 26.

According to an embodiment, the details of the punching power mechanism 201 are described below, the punching power mechanism 201 includes a main motor 48 fixedly disposed in the lower wall of the punching power cavity 200, the power shaft 49 is disposed on the main motor 48 in a power connection manner, a spline shaft 54 is sleeved on the upper end of the power shaft 49, the spline shaft 54 is connected with the power shaft 49 through a spline, the upper end of the spline shaft 54 can be engaged with the longitudinal transmission shaft 21, magnetic sliders 53 are symmetrically disposed at the left and right ends of the spline shaft 54, a spring 52 is elastically connected to the lower end of the magnetic slider 53, and an electromagnet 51 is fixedly disposed at the lower end of the spring 52.

According to an embodiment, the details of the stamping mechanism 101 are described below, the stamping mechanism 101 includes a cam shaft 15 rotatably disposed in the cam cavity 13, a second connecting gear 14 is fixedly disposed on the cam shaft 15, a right end of the second connecting gear 14 is engaged with the first connecting gear 16, a stamping cam 12 is fixedly disposed on the cam shaft 15, and the stamping cam 12 is located at a rear end of the second connecting gear 14.

Beneficially, the damping cylinder 37 is symmetrically and fixedly arranged on the top wall of the stamping working cavity 100 from left to right, an oil storage cavity 39 is arranged in the damping cylinder 37, a piston rod 42 capable of sliding up and down is arranged in the oil storage cavity 39, a branch oil pipe 38 is communicated with the left end of the oil storage cavity 39, a damping spring 43 is arranged at the lower end of the damping cylinder 37 in an elastic connection mode, the lower end of the piston rod 42 is fixedly connected with the connecting rod 23, the lower end of the damping spring 43 is elastically connected with the connecting rod 23, and the connecting rod 23 is close to one end of the stamping block 24 and fixedly connected with the stamping rod.

In the following, the gear train mechanism 301 is described in detail according to an embodiment, the gear train mechanism 301 includes a first positioning shaft 57 rotatably disposed in the gear chamber 300, a second bevel gear 56 is fixedly arranged on the first positioning shaft 57, the upper end of the second bevel gear 56 is meshed and connected with the first bevel gear 55, a sector gear 58 is fixedly arranged on the first positioning shaft 57, the sector gear 58 is positioned at the rear end of the second bevel gear 56, the lower end of the sector gear 58 is engaged and connected with an intermittent gear 61, the axle center of the intermittent gear 61 is fixedly provided with a second positioning shaft 62, a third bevel gear 59 is fixedly arranged on the second positioning shaft 62, the third bevel gear 59 is positioned at the rear end of the intermittent gear 61, the left end of the third bevel gear 59 is engaged and connected with a fourth bevel gear 63, and the left end of the fourth bevel gear 63 is fixedly connected with the pulley shaft 31.

The following describes in detail the use steps of an automatic electronic stamping part production device in the present disclosure with reference to fig. 1 to 5: in the initial state, the electromagnet 51 is not electrified, the spline shaft 54 is separated from the longitudinal transmission shaft 21, the main motor 48 is not started, and the stamping block 24 is positioned at the upper end of the turntable 25;

when the device is operated, firstly the stamping part 47 is placed in the rotating disc 25, so that the friction block 44 can clamp the stamping part 47, then the main motor 48 is started, the main motor 48 drives the power shaft 49 to rotate, the power shaft 49 drives the first positioning shaft 57 to rotate through the first bevel gear 55 and the second bevel gear 56, the first positioning shaft 57 drives the second positioning shaft 62 to rotate through the sector gear 58 and the intermittent gear 61, the second positioning shaft 62 drives the pulley shaft 31 to rotate through the third bevel gear 59 and the fourth bevel gear 63, the pulley shaft 31 drives the belt 33 to rotate through the pulley 32, and then the belt 33 can convey the chip main board 34 to a designated position, meanwhile, the pulley shaft 31 drives the connecting shaft 29 to rotate through the first spur gear 36 and the second spur gear 35, the connecting shaft 29 drives the rotating disc shaft 26 to rotate through the first synchronous gear 28 and the second synchronous gear 27, and the rotating disc shaft 26 drives the rotating disc 25 to rotate, then the stamping part 47 is rotated to a designated position, then the intermittent gear 61 is separated from the sector gear 58, the belt 33 and the rotating disc 25 stop rotating, at the same time, the power shaft 49 drives the spline shaft 54 to rotate, at this time, the electromagnet 51 is electrified, the electromagnet 51 generates magnetism to repel the magnetic slide block 53 to slide upwards, the magnetic slide block 53 drives the spline shaft 54 to slide upwards, so that the spline shaft 54 is meshed with the longitudinal transmission shaft 21, the power shaft 49 drives the longitudinal transmission shaft 21 to rotate through the spline shaft 54, the longitudinal transmission shaft 21 drives the transverse transmission shaft 17 to rotate through the first transmission gear 19 and the second transmission gear 18, the transverse transmission shaft 17 drives the cam shaft 15 to rotate through the first connecting gear 16 and the second connecting gear 14, the cam shaft 15 drives the stamping cam 12 to rotate, the stamping cam 12 further pushes the stamping rod 22 to slide downwards, the stamping rod 22 drives the stamping block, the punch block 24 in turn pushes the punch 47 downward and punches the punch 47 onto the chip motherboard 34, ending the entire process.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. An automatic production device for electronic stamping parts comprises a stamping box, wherein a stamping working cavity is arranged in the stamping box, rotatable pulley shafts are arranged in the left side wall and the right side wall of the stamping working cavity, belt pulleys are symmetrically arranged on the pulley shafts in a front-back and left-right mode, a belt is connected onto the belt pulleys, and a chip mainboard can be placed on the belt;

a rotatable turntable shaft is arranged in the left wall of the stamping box, a turntable is fixedly arranged on the turntable shaft, six friction blocks are bilaterally symmetrical and arrayed in the turntable, a stamping part can be clamped between the friction blocks, one end, away from the stamping part, of each friction block is elastically connected with a damping spring, one end, away from the stamping part, of each damping spring is fixedly connected with the turntable, a cam cavity is arranged in the upper wall of the stamping box, a stamping mechanism is arranged in the cam cavity, a stamping rod is arranged in the stamping mechanism, a stamping block is arranged at the lower end of the stamping rod, and the stamping mechanism can drive the stamping rod to slide up and down so that the stamping part can be pressed on the chip mainboard by the stamping block;

a stamping power cavity is arranged in the right wall of the stamping box, a stamping power mechanism is arranged in the stamping power cavity, the stamping power mechanism can provide power for the whole device, a gear cavity is arranged in the lower wall of the stamping power cavity, a gear set mechanism is arranged in the gear cavity, a rotatable power shaft is arranged in the stamping power mechanism, the lower end of the power shaft extends into the gear cavity, a rotatable first bevel gear is arranged in the gear set mechanism, the upper end of the first bevel gear is fixedly connected with the power shaft, and the stamping power mechanism transmits power to the gear set mechanism through the power shaft and the first bevel gear;

a rotatable longitudinal transmission shaft is arranged in the stamping power mechanism, a first transmission gear is fixedly arranged at the upper end of the longitudinal transmission shaft, a second transmission gear is arranged at the left end of the first transmission gear in a meshed connection mode, a transverse transmission shaft is fixedly arranged at the left end of the second transmission gear, a rotatable first connecting gear is arranged in the stamping mechanism, and the left end of the transverse transmission shaft is fixedly connected with the first connecting gear so that power can be transmitted to the stamping mechanism;

a first straight gear is fixedly arranged at the right end of the belt pulley shaft, a second straight gear is arranged at the lower end of the first straight gear in a meshed connection mode, a connecting shaft is fixedly arranged at the axis of the second straight gear, a first synchronous gear is fixedly arranged at the left end of the connecting shaft, a second synchronous gear is arranged at the upper end of the first synchronous gear in a meshed connection mode, and the upper end of the second synchronous gear is fixedly connected with the turntable shaft;

the stamping power mechanism comprises a main motor fixedly arranged in the lower wall of the stamping power cavity, the main motor is provided with a power shaft in a power connection mode, a spline shaft is sleeved at the upper end of the power shaft and connected with the power shaft through a spline, the upper end of the spline shaft can be meshed with the longitudinal transmission shaft, magnetic sliders are symmetrically arranged at the left end and the right end of the spline shaft, the lower end of each magnetic slider is elastically connected with a spring, and an electromagnet is fixedly arranged at the lower end of the spring;

the stamping mechanism comprises a rotatable cam shaft arranged in the cam cavity, a second connecting gear is fixedly arranged on the cam shaft, the right end of the second connecting gear is meshed with the first connecting gear, a stamping cam is fixedly arranged on the cam shaft, and the stamping cam is positioned at the rear end of the second connecting gear;

damping cylinders are symmetrically and fixedly arranged on the top wall of the stamping working cavity in a bilateral mode, an oil storage cavity is arranged in each damping cylinder, a piston rod capable of sliding up and down is arranged in each oil storage cavity, a branch oil pipe is communicated with the left end of each oil storage cavity, a damping spring is elastically connected to the lower end of each damping cylinder, the lower end of each piston rod is fixedly connected with the corresponding connecting rod, the lower end of each damping spring is elastically connected with the corresponding connecting rod, and one end, close to the corresponding stamping block, of each connecting rod is fixedly connected with the corresponding;

the gear set mechanism comprises a first positioning shaft which is rotatably arranged in a gear cavity, a second bevel gear is fixedly arranged on the first positioning shaft, the upper end of the second bevel gear is in meshed connection with the first bevel gear, a sector gear is fixedly arranged on the first positioning shaft and is located at the rear end of the second bevel gear, an intermittent gear is arranged at the lower end of the sector gear in meshed connection, a second positioning shaft is fixedly arranged at the axis of the intermittent gear, a third bevel gear is fixedly arranged on the second positioning shaft and is located at the rear end of the intermittent gear, a fourth bevel gear is arranged at the left end of the third bevel gear in meshed connection, and the left end of the fourth bevel gear is fixedly connected with the belt wheel shaft.