CN218513842U - Large-scale terminal line copper sheathing crimping power separating mechanism - Google Patents

Abstract

The utility model discloses a large-scale terminal line copper sheathing crimping power separating mechanism, include: the terminal machine comprises a terminal machine, a power mechanism arranged on the terminal machine, a punch connected with the output end of the power mechanism, a terminal machine sliding block connected with the output end of the power mechanism, a connecting rod connected with the terminal machine sliding block, a copper sleeve pressing knife arranged at the other end of the connecting rod and a terminal machine die arranged at the bottom of the terminal machine, wherein the punch is inserted into the terminal machine die, and a sensor is embedded in the punch. The utility model discloses an adopt the connecting rod to set up copper sheathing press knife in the outside of terminal machine mould for mutual independence between copper sheathing press knife and other crimping swoves, and acquire the crimping power through the sensor that inlays in the drift, consequently the power on the external copper sheathing press knife can cross the drift and directly transmit to terminal machine slider on, avoid the power on the copper sheathing press knife to cause the interference to the data that the sensor detected with this.

Description

Large-scale terminal line copper sheathing crimping power separating mechanism

Technical Field

The utility model relates to a terminal machine drift technical field especially relates to a large-scale terminal line copper sheathing crimping power separating mechanism.

Background

As a key part of the harness production, the operation of the terminal machine is decisive for producing a qualified terminal harness. In order to obtain the qualified rate of terminal production and quickly and accurately detect defective products produced by the terminals, most terminal machines are provided with an intelligent pressure management system, and the defective products in the terminal production are reflected by monitoring the pressure in the terminal crimping process and displaying a pressure waveform. For some special wire harness products, a copper sleeve is additionally crimped while the core wire and the rubber sheet are crimped, when the pressure of the copper sleeve is close to or larger than that of the terminal wire, interference can be caused, the detection of pressure management is affected, and the correct crimping force cannot be obtained by using a common detection mode. The existing pressure management system cannot eliminate the interference and cannot distinguish the copper bush pressing force from the terminal pressing force, so that the detection capability is insufficient.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, provide a large-scale terminal line copper sheathing crimping power separating mechanism.

The technical scheme of the utility model as follows: the utility model provides a large-scale terminal line copper sheathing crimping force separating mechanism includes: the punching head is inserted into the terminal machine die, and a sensor is embedded into the punching head.

Furthermore, the terminal machine die is provided with a copper bush pressing tool seat corresponding to the copper bush pressing tool, and the power mechanism drives the punch and the copper bush pressing tool to reciprocate up and down to enable the copper bush pressing tool to be in movable contact with the copper bush pressing tool seat.

Further, a crimping cutter set is connected to an end of the punch, and the crimping cutter set moves in the terminal machine die along with the punch.

Furthermore, the connecting rod adopts an arch structure, a pressing cutter stop block is arranged on the side face of the pressing cutter group corresponding to the connecting rod, and the connecting rod is locked on the pressing cutter stop block.

Further, the crimping knife tackle includes last outer sword, last inner knife and the pressure cutter of being connected with the drift, the terminal machine mould corresponds crimping knife tackle and is provided with the cutter seat.

Furthermore, a guide rail is arranged on the terminal machine, the sliding block of the terminal machine is erected on the guide rail, and the trend of the guide rail corresponds to the moving direction of the punch.

Adopt above-mentioned scheme, the utility model discloses an adopt the connecting rod to set up the copper sheathing press knife in the outside of terminal machine mould for mutual independence between copper sheathing press knife and other crimping sword, and acquire the crimping power through the sensor that inlays in the drift, consequently the power on the external copper sheathing press knife can cross on the drift directly transmits the terminal machine slider, with this avoid the power on the copper sheathing press knife to cause the interference to the data that the sensor detected.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1, the present invention provides a large terminal wire copper bush crimping force separating mechanism, which includes: the terminal machine comprises a terminal machine 1, a power mechanism arranged on the terminal machine 1, a punch 2 connected with the output end of the power mechanism, a terminal machine sliding block 31 connected with the output end of the power mechanism, a connecting rod 32 connected with the terminal machine sliding block 31, a copper bush pressing knife 33 arranged at the other end of the connecting rod 32, and a terminal machine die 4 arranged at the bottom of the terminal machine 1. The punch 2 is inserted into a terminal machine die 4, and a sensor is embedded in the punch 2.

In the crimping process, the crimping position of the copper sleeve is more outward and far away compared with the positions of the wire core and the rubber, and the copper sleeve is located at a position which is relatively easy to separate in the crimping structure of the terminal machine die 4. The copper bush pressing knife 33 is arranged outside the terminal machine die 4 by adopting the connecting rod 32, so that the copper bush pressing knife 33 is independent from other pressing knives. As the sequence of the transmission motion of the crimping link of the terminal machine 1 from top to bottom is motor-slide block-punch head-die-crimping cutter, and the position for acquiring the crimping force is on the punch head 2, and the crimping force is acquired by a sensor embedded in the punch head 2, the force on the external copper bush pressing cutter 33 can be directly transmitted to the slide block 31 of the terminal machine over the punch head 2, so as to avoid the interference of the force on the copper bush pressing cutter 33 on the data detected by the sensor. Compared with the prior art, the utility model discloses increased the detection capability of punch head formula pressure management to unconventional terminal line, promoted the general nature of detecting, had very big improvement to pressure management's detection performance.

The terminal machine die 4 is provided with a copper bush pressing knife seat 41 corresponding to the copper bush pressing knife 33, and the power mechanism drives the punch 2 and the copper bush pressing knife 3 to reciprocate up and down, so that the copper bush pressing knife 33 is in movable contact with the copper bush pressing knife seat 41. The copper sleeve pressing knife seat 41 is arranged below the copper sleeve pressing knife 33, so that the placing position of the terminal wire and the acting point of crimping work are provided in the process of pressing the copper sleeve pressing knife, and the copper sleeve is crimped through the interaction between the copper sleeve pressing knife and the copper sleeve pressing knife seat.

A crimping cutter group 43 is connected to an end of the punch 2, and the crimping cutter group 43 moves in the terminal die 4 along with the punch. The punch 1 is driven to move up and down by the power mechanism, so that the crimping cutter set 43 is driven to move up and down, and the crimping work of the core wire and the rubber and the cutting work of the terminal are realized.

The connecting rod 32 adopts an arch structure, the side surface of the crimping cutter group 43 is provided with a cutter pressing stop block 42 corresponding to the connecting rod 32, and the connecting rod 32 is locked on the cutter pressing stop block 42. The pressing cutter stop block 42 is connected with the connecting rod 32, so that in the process that the punch 2 drives the pressing cutter set 43 to move up and down, the synchronous movement of the copper sleeve pressing cutter 33 is guaranteed, the pressing cutter set 43 and the copper sleeve pressing cutter 33 are driven to perform pressing connection work simultaneously through the movement of the punch 2, acting force borne by the copper sleeve pressing cutter 33 is transmitted to the terminal machine sliding block 31 through the connecting rod 32, and interference caused by data detected by a sensor in the punch 2 is reduced. Meanwhile, the pressing cutter block 42 is used for connecting the pressing cutter group 43 with the copper sleeve pressing cutter 33, so that the modification of the mechanism on the existing terminal machine 1 is facilitated, the modification cost is reduced, and the modification efficiency is improved.

The crimping cutter set 43 comprises an upper outer cutter, an upper inner cutter and a crimping cutter which are connected with the punch 2, and the terminal machine die 4 is provided with a cutter seat 44 corresponding to the crimping cutter set 43. When punch 2 drives the outer cutter, the inner cutter and the pressing cutter to press down, cutter holder 44 can provide the placing position of the terminal wire and the acting point of crimping work, and the crimping and the cutting of the terminal wire are realized through the interaction between the outer cutter, the inner cutter and the pressing cutter and the cutter holder. Go up outer sword and be used for carrying out the crimping to the rubber, go up inner sword and be used for carrying out the crimping to the heart yearn, press the cutter and be used for cutting off the terminal, realize different work through different crimping sword, satisfy terminal crimping and the demand that cuts off.

The terminal machine 1 is provided with a guide rail 11, the terminal machine sliding block 31 is erected on the guide rail 11, and the trend of the guide rail 11 corresponds to the moving direction of the punch 2. The guide rail 11 is used for guiding the movement of the terminal machine sliding block 31, the friction force in the moving process can be effectively reduced, and the stability of the terminal machine sliding block 31 in the moving process is ensured.

To sum up, the utility model discloses an adopt the connecting rod to set up the copper sheathing press knife in the outside of terminal machine mould for mutual independence between copper sheathing press knife and other crimping sword, and acquire the crimping power through the sensor that inlays in the drift, consequently the power on the external copper sheathing press knife can cross on the drift directly transmits the terminal machine slider, avoids the power on the copper sheathing press knife to cause the interference to the data that the sensor detected with this.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a large-scale terminal line copper sheathing crimping power separating mechanism which characterized in that includes: the terminal machine comprises a terminal machine, a power mechanism arranged on the terminal machine, a punch connected with the output end of the power mechanism, a terminal machine sliding block connected with the output end of the power mechanism, a connecting rod connected with the terminal machine sliding block, a copper bush pressing knife arranged at the other end of the connecting rod and a terminal machine die arranged at the bottom of the terminal machine, wherein the punch is inserted into the terminal machine die, and a sensor is embedded in the punch.

2. The large-scale terminal wire copper sheathing crimping force separating mechanism of claim 1, wherein the terminal machine die is provided with a copper sheathing press knife seat corresponding to the copper sheathing press knife, and the power mechanism drives the punch and the copper sheathing press knife to reciprocate up and down and enables the copper sheathing press knife to movably contact with the copper sheathing press knife seat.

3. The large terminal wire copper sheathing crimping force separating mechanism of claim 1, wherein a crimping cutter set is connected to an end of the punch, the crimping cutter set moving with the punch in a terminal machine die.

4. The large-scale terminal wire copper sheathing crimping force separating mechanism of claim 3, wherein the connecting rod adopts an arch structure, the side of the crimping cutter group is provided with a pressing cutter stop block corresponding to the connecting rod, and the connecting rod is locked on the pressing cutter stop block.

5. The large-scale terminal wire copper sheathing crimping force separating mechanism of claim 3, wherein the crimping cutter set includes an upper outer cutter, an upper inner cutter and a crimping cutter connected with a punch, and the terminal machine die is provided with a cutter seat corresponding to the crimping cutter set.

6. The large-sized terminal wire copper bush crimping force separating mechanism according to claim 1, wherein a guide rail is arranged on the terminal machine, the terminal machine sliding block is erected on the guide rail, and the direction of the guide rail corresponds to the moving direction of the punch.

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