CN212733957U - Automatic cutting mechanism for inductance terminal pins - Google Patents

Abstract

The utility model discloses an automatic cutting mechanism of inductance terminal foot, including cylinder mounting bracket, cut foot lift slip subassembly, lift cylinder, trimming clamp mounting panel, trimming clamp, belt pulley machine case, a plurality of tool bearing, tool pivot, inductance pivot tool and belt pulley. The utility model discloses holistic structural design has not only realized making a plurality of clip that cut can carry out the automation to the different inductance terminal feet in the I-shaped inductance in step and tailor the terminal foot of arbitrary quantity in the I-shaped inductance according to the needs of production, in addition, it still realizes can switch over the inductance terminal foot of difference automatically, can tailor the inductance terminal foot of difference with the realization, and its whole process of tailorring need not the operation of people's hand participation, it has solved traditional adoption manual operation's mode effectively and has tailor the inductance terminal foot and lead to it to have workman's intensity of labour big, the labor cost of enterprise is high and the inductance terminal foot often appears tailorring the phenomenon problem that differs in length.

Description

Automatic cutting mechanism for inductance terminal pins

Technical Field

The utility model relates to an automatic cutting mechanism of inductance terminal foot.

Background

The tradition is pruned the plastic to inductance terminal foot and is mainly gone on through the manual work, and the manual work is handed scissors and is aimed at inductance terminal foot and tailor, and the phenomenon that inductance terminal foot was tailor to length often appears not only in the operation mode of artifical inductance terminal foot of tailorring, and it still has tailorring inefficiency, tailors the effect poor, workman's intensity of labour is big and the high scheduling problem of the labour cost of enterprise, and it does not conform to the requirement of the large-scale batch production of enterprise.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide an automatic cutting mechanism of inductance terminal foot, its holistic structural design has not only realized making a plurality of clip of cutting can carry out the automation to the different inductance terminal feet in the I-shaped inductance and tailor, with the realization can tailor the terminal foot of arbitrary quantity in the I-shaped inductance according to the needs of production, in addition, it still realizes can switch over the inductance terminal foot of difference automatically, with the realization can tailor the inductance terminal foot of difference, and its whole process of tailorring need not the operation of human hand participation, it has solved traditional adoption manual operation's mode effectively and has come to tailor inductance terminal foot and lead to it to have workman's intensity of labour big, the labor cost height of enterprise and inductance terminal foot often appear tailorring the phenomenon problem that differs in size. The utility model discloses a realize through following technical scheme:

automatic cutting mechanism of inductance terminal foot, including the cylinder mounting bracket, the left and right sides of cylinder mounting bracket is provided with respectively cuts foot lift slip subassembly, the rear side of cylinder mounting bracket is provided with the cylinder mounting panel, the higher authority of cylinder mounting panel is provided with the lift cylinder, the downside of cylinder mounting bracket is provided with trimming clamp mounting panel, trimming clamp mounting panel's the parallel distribution of front side is provided with a plurality of trimming clamp, the below of cylinder mounting panel rear side is provided with the belt pulley machine case, the parallel distribution of front side of belt pulley machine case is provided with a plurality of tool bearing, the center that runs through every tool bearing is provided with the tool pivot, the front side of every tool pivot is provided with inductance pivot tool, the front side of every inductance pivot tool has been pegged. The I-shaped inductor is an inductance coil or an inductance terminal with an I-shaped magnetic core. The thread cutting clamp comprises two clamping arms, a hinge shaft is arranged at the joint of the two clamping arms, a thread cutting cylinder is connected with one clamping arm, and the thread cutting cylinder pushes the clamping arm connected with the thread cutting cylinder to enable the thread cutting clamp to fold or unfold; the trimming clamp can shear the inductance terminal pin clamped in the trimming clamp when being folded. The pin shearing lifting sliding assembly comprises a Z-direction sliding rail and sliding blocks arranged on one side of the Z-direction sliding rail in a sliding mode, and each sliding block and a lifting cylinder arranged on the same side of the sliding block are connected with a screw rod.

Preferably, a plurality of belt pulleys are distributed in the belt pulley case in parallel.

Preferably, each inductance rotating shaft jig is connected with one belt pulley through one jig rotating shaft.

Preferably, when each belt pulley rotates, each jig rotating shaft can rotate in the forward and reverse directions through the belt pulley connected with the jig rotating shaft, and each inductance rotating shaft jig can rotate in the forward and reverse directions through the jig rotating shaft connected with the inductance rotating shaft.

Preferably, the angle that each tool rotating shaft can rotate forward and backward through the belt pulley connected with the tool rotating shaft is 360 degrees, and the angle that each inductance rotating shaft tool can rotate forward and backward through the tool rotating shaft connected with the inductance rotating shaft is 360 degrees.

As preferred, cylinder mounting bracket can carry out elevating movement along cutting foot lift slip subassembly through lift cylinder, and the trimming presss from both sides the mounting panel and can carry out elevating movement through the cylinder mounting bracket, and a plurality of trimming presss from both sides the mounting panel through the trimming and can carry out elevating movement in step.

Preferably, an angle sensor used for sensing the angle of each rotation of each inductance rotating shaft jig can be arranged on each inductance rotating shaft jig according to production requirements, a controller or a control system is connected with the angle sensor, the lifting cylinder, the motor and other components in a control mode, the controller can adopt a PLC (programmable logic controller), the PLC can adopt but is not limited to a PLC sold on Ali-Bar under brand of VIGOR/Fengwu and goods number of 4586, and an operator can set the rotating angles of the jig rotating shaft and the inductance rotating shaft jig according to different numbers of inductance terminal pins in I-shaped inductors with different specifications through the controller, so that the operator can rotate each inductance terminal pin in each I-shaped inductor to the highest position.

The utility model discloses an automatic cutting mechanism of inductance terminal foot, including cylinder mounting bracket, cut foot lift slip subassembly, lift cylinder, trimming clamp mounting panel, trimming clamp, belt pulley machine case, a plurality of tool bearing, tool pivot, inductance pivot tool and belt pulley. The I-shaped inductor to be processed is inserted at the front end of each inductor rotating shaft jig, and is inserted at the front end of each inductor rotating shaft jig in the direction that the electronic pin end of the inductor faces outwards so as to conveniently cut the inductance terminal pin of the I-shaped inductor; because one side of the belt pulley case is provided with the motor, one side of the motor is provided with the driving wheel, the driving wheel and each belt pulley are connected with a belt, when the motor drives the driving wheel to rotate, the driving wheel can drive each belt pulley to rotate through the belt, each belt pulley can drive the inductance rotating shaft jig positioned on the front side of the jig rotating shaft to rotate through the jig rotating shaft connected with the belt pulley, so that the I-shaped inductor inserted in the front side of each inductance rotating shaft jig can rotate along with the belt pulley, and further, each inductance terminal pin in the I-shaped inductor can rotate to the highest point along with the rotation of the inductance rotating shaft jig in an alternating manner; when the lifting cylinder is started, the cylinder mounting frame can be pushed to perform lifting motion along the pin shearing lifting sliding assembly, the cylinder mounting frame can drive the wire shearing clamp mounting plate and the wire shearing clamps to perform lifting motion together when lifted, so that the plurality of wire shearing clamps can synchronously descend to the inductance terminal pin which is positioned in the I-shaped inductor and rotates to the highest point in an opened state, and when the wire shearing clamps are closed, the inductance terminal pin which is clamped in the wire shearing clamps and rotates to the highest position can be sheared; when the lifting cylinder is reset, the trimming clamp mounting plate and the trimming clamp can be driven to lift and reset together; when the motor is started again, the motor can drive each belt pulley to rotate again through the driving wheel and the belt, so that the other inductance terminal pin inserted in the I-shaped inductor at the front side of the inductance rotating shaft jig can rotate to the highest point; the lifting cylinder is started again to drive the trimming clamp mounting plate and the trimming clamp to move downwards, so that the trimming clamp moving downwards shears the inductance terminal pin which is clamped in the trimming clamp and rotates to the highest position according to the same operation, after each trimming clamp shears the other inductance terminal pin of which the I-shaped inductance rotates to the highest position, the lifting cylinder drives the trimming clamp mounting plate and the trimming clamp to move upwards again, and the process is circulated until a plurality of inductance terminal pins in the I-shaped inductance are sheared by the trimming clamp in sequence, the whole structural design not only realizes that a plurality of trimming clamps can automatically trim different inductance terminal pins in the I-shaped inductance synchronously so as to achieve that any number of terminal pins in the I-shaped inductance can be trimmed according to the production requirement, but also realizes that different inductance terminal pins can be automatically switched so as to achieve that different inductance terminal pins can be trimmed, and the whole cutting process does not need the participation of hands in the operation, the cutting device has the advantages of reducing the labor intensity of workers, reducing the labor cost of enterprises, having high cutting efficiency and good cutting effect, and is more convenient and quicker to use and strong in practicability.

Drawings

For the purpose of illustration, the invention is described in detail with reference to the following preferred embodiments and the accompanying drawings.

Fig. 1 is a perspective view of the automatic cutting mechanism for inductance terminal pins of the present invention.

Fig. 2 is a perspective view of the other direction of the automatic cutting mechanism for inductance terminal pins of the present invention.

Fig. 3 is a left side view of the automatic cutting mechanism for inductance terminal pins of the present invention.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

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 invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

In this embodiment, as shown in fig. 1 to 3, the utility model discloses an automatic cutting mechanism of inductance terminal foot, including cylinder mounting bracket 1, the left and right sides of cylinder mounting bracket 1 is provided with respectively cuts foot lift slip subassembly 2, the rear side of cylinder mounting bracket 1 is provided with cylinder mounting panel 12, the higher authority of cylinder mounting panel 12 is provided with lift cylinder 3, the downside of cylinder mounting bracket 1 is provided with clip mounting panel 4, the parallel distribution of front side of clip mounting panel 4 is provided with a plurality of clips 5, the below of 1 rear side of cylinder mounting bracket is provided with belt pulley machine case 6, the parallel distribution of front side of belt pulley machine case 6 is provided with a plurality of tool bearings 7, the center of running through every tool bearing 7 is provided with tool pivot 8, the front side of every tool pivot 8 is provided with inductance pivot tool 9, the front side grafting of every inductance pivot tool 9 has I inductance 10.

In one embodiment, a plurality of pulleys 11 are disposed in parallel in the pulley housing 6.

In one embodiment, each inductance shaft fixture 9 is connected to a pulley 11 via a fixture shaft 8.

In one embodiment, when each belt pulley 11 rotates, each jig rotating shaft 8 can rotate in forward and reverse directions through the belt pulley 11 connected with the jig rotating shaft, and each inductance rotating shaft jig 9 can rotate in forward and reverse directions through the jig rotating shaft 8 connected with the inductance rotating shaft jig.

In one embodiment, the angle of forward and reverse rotation of each jig rotating shaft 8 through the belt pulley 11 connected thereto is 360 degrees, and the angle of forward and reverse rotation of each inductance rotating shaft jig 9 through the jig rotating shaft 8 connected thereto is 360 degrees.

In one embodiment, the cylinder mounting frame 1 can perform lifting motion along the trimming pin lifting sliding assembly 2 through the lifting cylinder 3, the trimming clamp mounting plate 4 can perform lifting motion through the cylinder mounting frame 1, and the plurality of trimming clamps 5 can perform lifting motion synchronously through the trimming clamp mounting plate 4.

In one embodiment, the operation process of the automatic trimming mechanism for the inductance terminal pins comprises the following steps: the I-shaped inductor 10 to be processed is inserted at the front end of each inductor rotating shaft jig 9, and is inserted at the front end of each inductor rotating shaft jig 9 in the direction that the electronic pin end of the inductor faces outwards, so that the terminal pins of the inductor of the I-shaped inductor 10 can be conveniently cut; because a motor is arranged on one side of the belt pulley case 6, a driving wheel is connected with the motor, the driving wheel is connected with a belt with each belt pulley 11, when the motor drives the driving wheel to rotate, the driving wheel can drive each belt pulley 11 to rotate through the belt, and when each belt pulley 11 rotates, the inductance rotating shaft jig 9 positioned on the front side of the jig rotating shaft 8 can be driven to rotate through the jig rotating shaft 8 connected with the belt pulley 11, so that the I-shaped inductor 10 inserted in the front side of each inductance rotating shaft jig 9 can rotate along with the belt pulley, and further, each inductance terminal pin in the I-shaped inductor 10 can rotate to the highest point alternately along with the rotation of the inductance rotating shaft jig 9; when the lifting cylinder 3 is started, the cylinder mounting frame 1 can be pushed to perform lifting motion along the pin shearing lifting sliding assembly 2, the cylinder mounting frame 1 can be driven to perform lifting motion together with the pin shearing clip mounting plate 4 and the wire shearing clip 5 when lifted, so that the plurality of wire shearing clips 5 can synchronously descend to the inductance terminal pin which is positioned in the I-shaped inductor 10 and rotates to the highest point in an opened initial state, and when the wire shearing clips 5 are folded, the inductance terminal pin which is clamped in the wire shearing clips and rotates to the highest position can be sheared; when the lifting cylinder 3 is reset, the trimming clamp mounting plate 4 and the trimming clamp 5 can be driven to reset and rise together; then, when the motor is started again, the motor can drive each belt pulley 11 to rotate again through the driving wheel and the belt, so that the other inductance terminal pin in the I-shaped inductor 10 inserted in front of the inductance rotating shaft jig 9 can rotate to the highest point; the lifting cylinder 3 is started again to drive the trimming clamp mounting plate 4 and the trimming clamp 5 to move downwards, so that the trimming clamp 5 moving downwards shears the inductance terminal pin which is clamped in the trimming clamp and rotates to the highest position according to the same operation, after each trimming clamp 5 rotates the other inductance terminal pin of the I-shaped inductor 10 to the highest position, the lifting cylinder 3 drives the trimming clamp mounting plate 4 and the trimming clamp 5 to move upwards again, the cycle is repeated until all the inductance terminal pins in the I-shaped inductor 10 are sheared by the trimming clamp 5, the integral structural design not only realizes that a plurality of trimming clamps 5 can synchronously and automatically trim different inductance terminal pins in the I-shaped inductor 10, so as to realize that any number of terminal pins in the I-shaped inductor 10 can be trimmed according to the production requirement, but also realizes that different inductance terminal pins can be automatically switched, can tailor to the inductance terminal foot of difference with the realization, and its whole process of tailorring need not the operation of people's hand participation, and it has can reduce workman's intensity of labour, reduces the labour cost of enterprise, tailors efficient and tailors effectual advantage, and it uses more convenient, swift, and the practicality is strong.

The utility model discloses an automatic cutting mechanism of inductance terminal foot, including cylinder mounting bracket, cut foot lift slip subassembly, lift cylinder, trimming clamp mounting panel, trimming clamp, belt pulley machine case, a plurality of tool bearing, tool pivot, inductance pivot tool and belt pulley. The utility model discloses holistic structural design has not only realized making a plurality of clip that cut can carry out the automation to the different inductance terminal feet in the I-shaped inductance in step and tailor the terminal foot of arbitrary quantity in the I-shaped inductance according to the needs of production, in addition, it still realizes can switch over the inductance terminal foot of difference automatically, can tailor the inductance terminal foot of difference with the realization, and its whole process of tailorring need not the operation of people's hand participation, it has solved traditional adoption manual operation's mode effectively and has tailor the inductance terminal foot and lead to it to have workman's intensity of labour big, the labor cost of enterprise is high and the inductance terminal foot often appears tailorring the phenomenon problem that differs in length.

The above-mentioned embodiment is only an example of the present invention, and is not intended to limit the scope of the present invention, and all technical solutions that are the same as or equivalent to the content of the claims of the present invention should be included in the scope of the present invention.

Claims (6)

1. Inductance terminal foot automatic cutting mechanism, its characterized in that: including the cylinder mounting bracket, the left and right sides of cylinder mounting bracket is provided with cuts foot lift slip subassembly respectively, the rear side of cylinder mounting bracket is provided with the cylinder mounting panel, the higher authority of cylinder mounting panel is provided with lift cylinder, the downside of cylinder mounting bracket is provided with trimming clamp mounting panel, the parallel distribution of front side of trimming clamp mounting panel is provided with a plurality of trimming clamp, the below of cylinder mounting panel rear side is provided with belt pulley machine case, the parallel distribution of front side of belt pulley machine case is provided with a plurality of tool bearing, the center that runs through every tool bearing is provided with the tool pivot, the front side of every tool pivot is provided with inductance pivot tool, the front side grafting of every inductance pivot tool has the I inductance.

2. The automatic trimming mechanism for inductance terminal pins according to claim 1, characterized in that: a plurality of belt pulleys are distributed in the belt pulley case in parallel.

3. The automatic trimming mechanism for inductance terminal pins according to claim 2, characterized in that: each inductance rotating shaft jig is connected with one belt pulley through one jig rotating shaft.

4. The automatic trimming mechanism for inductance terminal pins according to claim 3, wherein: when each belt pulley rotates, each jig rotating shaft can rotate forward and backward through the belt pulley connected with the jig rotating shaft, and each inductance rotating shaft jig can rotate forward and backward through the jig rotating shaft connected with the inductance rotating shaft.

5. The automatic trimming mechanism for inductance terminal pins according to claim 4, wherein: every tool pivot can carry out forward and reverse direction rotation's angle through the belt pulley of being connected with it and be 360 degrees, and every inductance pivot tool can carry out forward and reverse direction rotation's angle through the tool pivot of being connected with it and be 360 degrees.

6. The automatic trimming mechanism for inductance terminal pins according to claim 1, characterized in that: the cylinder mounting bracket can carry out elevating movement along cutting foot lift slip subassembly through the lift cylinder, and the trimming clamp mounting panel can carry out elevating movement through the cylinder mounting bracket, and a plurality of trimming clamp can carry out elevating movement in step through the trimming clamp mounting panel.

Images