JP2012049068A - Terminal crimp device, and method for manufacturing wire harness - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a terminal crimp device that can suppress the positional shift of an electric wire.SOLUTION: A terminal crimp device includes: a stopper 113 against which the tip part of an electric wire 3 abuts and which is used for the positioning of the electric wire 3 relative to a terminal 4; abutting detection means 25 that detects that the tip part of the electric wire 3 abuts against the stopper 113; clamp means 21 that clamps the electric wire 3; crimping means 111 that crimps the terminal 4 to a core wire 3a of the electric wire 3; and control devices 14 and 24 that control the operation of the clamp means 21 so that the clamp means 21 cramps the electric wire 3, if the abutting detection means 25 detects that the tip part of the electric wire 3 abuts against the stopper 113.

Description

  The present invention relates to a terminal crimping apparatus for crimping a terminal to an electric wire and a method for manufacturing a wire harness using the terminal crimping apparatus.

  In the conventional terminal crimping apparatus, in order to easily position the electric wire with respect to the terminal, a stopper against which the tip of the electric wire is abutted is provided (for example, Patent Document 1).

  When crimping a terminal to an electric wire using this conventional terminal crimping device, the operator holds the wire and starts the terminal crimping device with the tip of the wire abutting against the stopper of the terminal crimping device. Press the operation switch. Thereby, crimping is performed in a state where the electric wire is positioned with respect to the terminal.

Japanese Patent Laid-Open No. 10-223347

  However, in the above prior art, whether or not the electric wire hits the stopper depends on the operator's visual observation and hand feeling (hand feeling). Moreover, even if the electric wire hits the stopper, it may happen that the electric wire is separated from the stopper due to the hand shake of the operator before the start operation switch is pressed and the crimping is started.

  For this reason, in the said prior art, the position of the electric wire with respect to a terminal may shift | deviate and a crimping | compression-bonding defect may arise. In particular, when crimping a very small terminal on a very thin wire, even if there is a slight misalignment of the wire with respect to the terminal, a crimp failure will occur, so it is necessary to position the wire with high precision. It is done.

  An object of this invention is to provide the manufacturing method of the terminal crimping apparatus which can suppress the position shift of an electric wire, and a wire harness using the same in view of the said point.

In order to achieve the above object, in the invention according to claim 1, the tip of the electric wire (3) is abutted, and a stopper (113) used for positioning the electric wire (3) with respect to the terminal (4);
An abutment detecting means (25) for detecting that the tip of the electric wire (3) is abutted against the stopper (113);
Clamping means (21) for clamping the electric wire (3);
A crimping means (111) for crimping the terminal (4) to the core wire (3a) of the electric wire (3);
When the abutting detection means (25) detects that the tip of the electric wire (3) is abutted against the stopper (113), the clamping means (21) clamps the electric wire (3). And control means (14, 24) for controlling the operation of.

  According to this, since the electric wire (3) positioned by the stopper (113) is automatically clamped by the clamping means (21), it is between the positioning of the electric wire (3) and the crimping by the crimping means (111). It can suppress that the position of an electric wire (3) shift | deviates.

In the invention according to claim 2, in the terminal crimping apparatus according to claim 1, the continuous terminal (5) in which the plurality of terminals (4) are connected in a direction orthogonal to the core wire (3a) by the carrier (6). A terminal feed mechanism (12) for feeding in a direction orthogonal to the core wire (3a);
A rolling bearing (115) that supports the stopper (113) rotatably in the feed direction of the continuous terminal (5) is provided.

  According to this, since the stopper (113) is rotatable in the feeding direction of the continuous terminal (5) by the terminal feeding mechanism (12), when the terminal feeding mechanism (12) feeds the continuous terminal (5). It is possible to prevent the stopper (113) from interfering with the continuous terminal (5) and the electric wire (3).

  Furthermore, since it is rotatably supported by the rolling bearing (115) of the stopper (113), wear due to the rotation hardly occurs. Therefore, the stopper (113) is not easily rattled (wobbling in the abutting direction) due to wear, so that the displacement of the electric wire (3) can be further suppressed.

According to a third aspect of the present invention, in the terminal crimping device according to the first or second aspect, the clamp means (22a) for detecting that the clamp means (21) clamps the electric wire (3) is provided,
The control means (14, 24) allows the crimping means (111) to be activated when the clamp detection means (22a) detects that the clamping means (21) is clamping the electric wire (3). In other cases, activation of the crimping means (111) is prohibited.

  Thereby, since it can prevent that the crimping | compression-bonding means (111) starts when the clamp means (21) has not clamped the electric wire (3) yet, position shift of an electric wire (3) can be suppressed further.

According to a fourth aspect of the present invention, in the terminal crimping apparatus according to any one of the first to third aspects, the crimping means (111) detects that the terminal (4) is crimped to the electric wire (3). Comprising detection means (26);
When the crimping detection means (26) detects that the crimping means (111) has crimped the terminal (4) to the electric wire (3), the clamp means (21) unloads the electric wire (3). The operation of the clamping means (21) is controlled so as to perform clamping.

  Thereby, since the clamping of the electric wire (3) by the clamping means (21) can be reliably performed until the crimping by the crimping means (111) is completed, the positional deviation of the electric wire (3) can be further suppressed.

In invention of Claim 5, it is a manufacturing method of the wire harness using the terminal crimping apparatus as described in any one of Claim 1 thru | or 4,
The abutting detection means (25) detects that the tip of the electric wire (3) is abutted against the stopper (113),
Clamp so that the electric wire (3) is clamped by the clamping means (21) when the abutting detection means (25) detects that the tip of the electric wire (3) is abutted against the stopper (113). The operation of the means (21) is controlled by the control means (14, 24);
The terminal (4) is crimped by the crimping means (111) to the core wire (3a) of the electric wire (3) clamped by the clamping means (21).

  Thereby, a wire harness with high crimping quality can be manufactured.

  In addition, the code | symbol in the bracket | parenthesis of each means described in this column and the claim shows the correspondence with the specific means as described in embodiment mentioned later.

It is a block diagram showing the whole terminal crimping device composition in a 1st embodiment of the present invention. It is an external view of the electric wire and the terminal which were processed by the terminal crimping apparatus of FIG. It is sectional drawing which shows the stopper support structure in the terminal crimping apparatus of FIG. It is a process flow figure of the manufacturing method of the wire harness using the terminal crimping apparatus of FIG. It is a figure explaining the original position of the terminal crimping apparatus of FIG. It is a figure explaining the action | operation of the terminal crimping | compression-bonding apparatus in a setting process. It is a figure explaining the action | operation of the terminal crimping | compression-bonding apparatus in a clamp process. It is a figure explaining the action | operation of the terminal crimping apparatus in a crimping | compression-bonding process. It is a figure explaining the action | operation of the terminal crimping apparatus in an unclamp process. It is a figure explaining the action | operation of the terminal crimping | compression-bonding apparatus in a terminal feed and a workpiece taking-out process. It is a figure explaining the action | operation of the terminal crimping | compression-bonding apparatus in a terminal feed and a workpiece taking-out process. It is a flowchart which shows the outline | summary of the control processing performed by the control apparatus of a crimping machine. It is a flowchart which shows the outline | summary of the control processing performed by the control apparatus of a chuck | zipper apparatus. It is sectional drawing which shows the stopper support structure in a prior art.

  Hereinafter, an embodiment of the present invention will be described. FIG. 1 is a block diagram showing the overall configuration of the terminal crimping apparatus of the present embodiment. The terminal crimping device includes an applicator 1 and a chuck device 2.

  The applicator 1 includes a crimping machine 11, a terminal feed mechanism 12, a carrier cutter 13, a control device 14, and a start operation switch 15.

  The crimping machine 11 includes a crimper 111 that serves as a crimping unit that crimps the terminal 4 to the electric wire 3 and an actuator 112 that drives the crimper 111.

  The crimper 111 is a caulking type that caulks the barrel portion 4a of the terminal 4, and, as shown in FIG. Crimp the.

  Although not shown, the crimping machine 11 includes a mechanical mechanism that causes the crimper 111 to descend and rise as a series of operations by a single drive of the actuator 112.

  As shown in FIG. 1, the crimping machine 11 includes a stopper 113 for positioning the electric wire 3. As shown in FIG. 3, the stopper 113 is rotatably supported by a stay member 114 of the crimping machine 11 via a rolling bearing 115.

  The stopper 113 is for positioning the electric wire 3 by abutting the tip of the electric wire 3 on the core wire 3a side, and is formed in a flat plate shape as a whole.

  The stopper 113 is formed with a hole used for attachment to the stay member 114. Although not shown in FIG. 3, the portion of the stopper 113 against which the tip of the electric wire 3 is abutted is formed in a tongue shape protruding from a flat plate-like portion having a hole and bent in a step shape. (See FIGS. 5 to 11 described later).

  The stay member 114 is a member fixed to a frame (not shown) of the crimping machine 11, and has a recess 114 a that accommodates the rolling bearing 115. The rolling bearing 115 is composed of a ball bearing having an outer ring 115a and an inner ring 115b.

  The outer ring 115 a is fitted into the hole of the stopper 113. At both ends in the axial direction of the outer ring 115a, hook-shaped portions 115c protruding outward in the radial direction are formed. A stopper 113 and a cylindrical collar 116 are sandwiched between the two flange portions 115c.

  A bolt 117 is fitted in the center hole of the inner ring 115b. The bolt 117 is screwed to the stay member 114. The inner ring 115b is sandwiched between the head of the bolt 117 and the bottom surface of the recess 114a of the stay member 114.

  Accordingly, the stopper 113, the outer ring 115a, and the collar 116 are rotatable with respect to the stay member 114, the inner ring 115b, and the bolt 117, so that the stopper 113 is rotatably supported on the stay member 114 via the rolling bearing 115. Will be.

  In the example of FIG. 3, the spacer 118 is disposed between the inner ring 115 b and the head of the bolt 117, and the spacer 119 is also disposed between the inner ring 115 b and the bottom surface of the recess 114 a of the stay member 114.

  The terminal feed mechanism 12 shown in FIG. 1 sends the continuous terminal 5 to the crimping machine 11. The continuous terminal 5 is formed by integrally forming a plurality of terminals 4 and a carrier 6 (see FIGS. 5 to 11 to be described later) that connect the plurality of terminals 4. It is connected in the direction orthogonal to the axial direction (longitudinal direction). Therefore, the terminal feed mechanism 12 sends the continuous terminal 5 in a direction orthogonal to the axial direction of the terminal 4 (direction orthogonal to the core 3a of the electric wire 3).

  Since the rotation axis of the stopper 113 is arranged in parallel with the axial direction of the terminal 4, the stopper 113 can be rotated in the feeding direction of the continuous terminal 5 by the terminal feeding mechanism 12 (see FIG. 10 described later). ). For this reason, when the terminal feed mechanism 12 sends the continuous terminal 5, it can avoid that the stopper 113 interferes with the continuous terminal 5 or the electric wire 3. FIG.

  The carrier cutter 13 shown in FIG. 1 separates the terminal 4 after crimping from the carrier 6. Although not shown, the crimping machine 11 includes a mechanical mechanism that allows the terminal feed mechanism 12 and the carrier cutter 13 to be operated in conjunction with the lowering / raising operation of the crimper 111 by the actuator 112. .

  The control device 14 is a control unit configured by a computer or the like, and outputs a drive signal to the actuator 112. The activation operation switch 15 outputs a crimping operation start signal to the control device 14 when turned on by the operator.

  As shown in FIG. 1, the chuck device 2 includes a chuck 21, an air cylinder 22, a solenoid valve 23, and a control device 24.

  The chuck 21 constitutes a clamping means for holding the electric wire 3 positioned by the stopper 113 and fixing the position of the electric wire 3, and is driven by the air cylinder 22. Specifically, the chuck 21 grasps the electric wire 3 when the air cylinder 22 is operated to the extended end, and the chuck 21 opens the electric wire 3 when the air cylinder 22 is operated to the return end.

  The solenoid valve 23 operates the air cylinder 22 between the output end position and the return end position by switching the flow direction of the air supplied to the air cylinder 22, and is controlled by the control device 24.

  The air cylinder 22 is provided with a cylinder switch 22a that constitutes a clamp detection means. The cylinder switch 22 a detects the extended end of the air cylinder 22. The detection signal of the cylinder switch 22a is input to the control device 24.

  The control device 24 is a control means configured by a computer or the like, and outputs an interlock signal to the control device 14 of the crimping machine 11 according to the detection signal of the cylinder switch 22a.

  Further, the chuck device 2 includes a laser sensor 25 and a descending end switch 26. The laser sensor 25 serves as an abutting detection unit that detects that the tip of the electric wire 3 is abutted against the stopper 113, and a detection signal of the laser sensor 25 is input to the control device 24.

  In this example, the laser sensor 25 is constituted by a reflection type laser sensor, which irradiates a laser beam toward the tip of the electric wire 3 abutted against the stopper 113 and is reflected by the tip of the electric wire 3. Receives light. In order to prevent erroneous detection of the laser sensor 25, the stopper 113 is preferably painted black.

  The descending end switch 26 serves as a crimp detecting means for detecting the descending end of the crimper 111 of the crimping machine 11, and the detection signal of the descending end switch 26 is input to the control device 24.

  Next, the manufacturing method (terminal crimping method) of the wire harness using the terminal crimping apparatus of the said structure is demonstrated with the action | operation of a terminal crimping apparatus. FIG. 4 is a process flow chart of the terminal crimping method, and FIGS. 5 to 11 are diagrams for explaining the operation of the terminal crimping apparatus in each process shown in FIG.

  FIG. 5A is a view of the main part of the terminal crimping apparatus as viewed in the horizontal direction from the front side of the stopper 113, and FIG. 5B is a top view of FIG. 5A. The same applies to FIGS.

  FIG. 12 is a flowchart showing an outline of control processing executed by the control device 14 of the crimping machine 11. FIG. 13 is a flowchart showing an outline of control processing executed by the control device 24 of the chuck device 2.

  The setting process shown in FIG. 4 is performed with the terminal crimping apparatus in the original position. FIG. 5 shows a state where the terminal crimping apparatus is in its original position. The state in which the terminal crimping device is in the original position refers to a state in which a predetermined terminal 4 of the continuous terminals 5 is set on a terminal receiver (not shown) of the crimping machine 11.

  In the setting step, the core wire 3a of the electric wire 3 is set in the barrel portion 4a of the terminal 4 set in the crimping machine 11 as shown in FIG. The work of setting the electric wire 3 is performed by an operator.

  Specifically, the operator holds the electric wire 3 by hand and positions the tip of the electric wire 3 on the core wire 3 a side against the stopper 113 to position the electric wire 3 with respect to the terminal 4. Thereby, the laser sensor 25 receives the laser beam reflected by the front-end | tip part of the core wire 3a. That is, the laser sensor 25 detects that the tip of the electric wire 3 is abutted against the stopper 113.

  In this example, as shown in FIG. 2, as the electric wire 3, the core wire 3 a having a diameter of φ1 mm is used, and the protruding margin of the core wire 3 a of the electric wire 3 from the barrel portion 4 a of the terminal 4 is set to 0.5 mm. The tolerance of the protrusion allowance is set to +0.5 mm and -0.4 mm.

  Next, the clamping step shown in FIG. 4 is performed, and the electric wire 3 is clamped by the chuck 21 as shown in FIG. In this clamping step, the control device 24 of the chuck device 2 performs steps S200 and S210 in FIG.

  Specifically, in step S200, based on the detection signal of the laser sensor 25, it is determined whether or not the tip of the electric wire 3 is abutted against the stopper 113. When it is determined that the tip of the electric wire 3 is abutted against the stopper 113 (in the case of YES determination), the process proceeds to step S210, and the solenoid valve 23 is turned on. Thereby, the air cylinder 22 is operated to the extended end, and the chuck 21 grips (clamps) the electric wire 3. At this time, it is detected by the cylinder switch 22a that the air cylinder 22 is at the extended end.

  If it is determined that the tip of the electric wire 3 is not abutted against the stopper 113 (NO determination), step S200 is repeated.

  Here, the control device 24 of the chuck device 2 performs steps S220 and S230 of FIG. 13 subsequent to step S210. The processes in steps S220 and S230 are processes for releasing the interlock for the control device 14 of the applicator 1.

  Specifically, in step S220, based on the detection signal of the cylinder switch 22a, it is determined whether or not the air cylinder 22 is at the extended end, that is, whether or not the chuck 21 is clamping the electric wire 3. When it is determined that the air cylinder 22 is at the extended end, that is, the chuck 21 is clamping the electric wire 3 (in the case of YES determination), the process proceeds to step S230 and the applicator 1 is interlocked with the control device 14. Release (OFF) by the interlock signal.

  If it is determined in step S220 that the air cylinder 22 is not at the extended end, that is, the chuck 21 is not gripping the electric wire 3 (NO determination), step S220 is repeated.

  When the solenoid valve 23 is turned on (ON) in step S210 and the chuck 21 clamps the electric wire 3, the crimping process shown in FIG. 4 is performed, and the terminal 4 is connected to the electric wire 3 by the crimper 111 as shown in FIGS. Crimp. In this crimping process, the control device 14 of the applicator 1 performs the processes of steps S100 to S120 in FIG.

  Specifically, in step S100, it is determined whether or not the activation operation switch 15 is turned on. When it is determined that the activation operation switch 15 is turned on (in the case of YES determination), the process proceeds to step S110, and when it is determined that the activation operation switch 15 is not turned on (in the case of NO determination). Step S100 is repeated.

  In step S110, based on the interlock signal from the control device 24 of the chuck device 2, it is determined whether or not the interlock is released (OFF). When it is determined that the interlock is released (in the case of YES determination), the process proceeds to step S120, and a drive signal is output to the actuator 112 to operate the crimper 111.

  If it is determined in step S110 that the interlock is set (ON) (not released) (in the case of NO determination), the process returns to step S100, so that the activation operation switch 15 is turned on. However, the crimper 111 does not work.

  When a drive signal is output to the actuator 112 in step S120, the actuator 112 is driven and the crimper 111 is lowered (FIG. 8). When the crimper 111 reaches the descending end, the terminal 4 is crimped by the crimper 111 so as to wrap the core wire of the electric wire 3 (FIG. 9). That is, the terminal 4 is crimped to the electric wire 3. At this time, the descending end switch 26 detects that the crimper 111 has reached the descending end.

  When the crimper 111 reaches the descending end and the terminal 4 is crimped to the electric wire 3, the unclamping process shown in FIG. 4 is performed, and the chuck 21 opens (unclamps) the electric wire 3 as shown in FIG. In this unclamping process, the control device 24 of the chuck device 2 performs steps S240 to S260 in FIG.

  Specifically, in step S240, based on the detection signal of the lowering end switch 26, it is determined whether or not the crimper 111 of the crimping machine 11 is at the lowering end. When it is determined that the crimper 111 is at the lower end (in the case of YES determination), the process proceeds to step S250, and the solenoid valve 23 is turned off. As a result, the air cylinder 22 is operated to the return end, and the chuck 21 opens (unclamps) the electric wire 3.

  If it is determined in step S240 that the crimper 111 is not at the descending end (in the case of NO determination), step S240 is repeated.

  When the solenoid valve 23 is turned off (OFF) in step S250 and the chuck 21 unclamps the electric wire 3, the process proceeds to step S260, where the interlock of the applicator 1 with respect to the control device 14 is set (ON) by the interlock signal.

  Next, the terminal feed / work take-out step shown in FIG. 4 is performed. In this terminal feed / work take-out process, as shown in FIGS. 10 and 11, the continuous terminals 5 are fed by one pitch to the crimping machine 11 side, and the crimped wires and the terminals 4 are separated from the carrier 6 to be crimped. Take out from.

  Specifically, the terminal feed mechanism 12 and the carrier cutter 13 operate in conjunction with a series of descending / raising operations of the crimper 111 by the actuator 112. The terminal feed mechanism 12 sends the continuous terminal 5 by one pitch to the crimping machine 11 side, whereby the terminal 4 next to the continuous terminal 5 is set in the crimping machine 11. An operator takes out the electric wires and the terminals 4 cut by the carrier cutter 13.

  When the continuous terminal 5 is fed by the terminal feed mechanism 12, the stopper 113 rotates in the feed direction of the continuous terminal 5 as shown in FIG. 10, and when the feed of the continuous terminal 5 is completed, the stopper 113 is shown in FIG. Returns to its original position under its own weight. Thereby, even if the stopper 113 is provided, the continuous terminal 5 can be sent without trouble by the terminal feed mechanism 12.

  By repeating the above steps and operations, the wire harness manufacturing operation (crimping operation between the electric wire 3 and the terminal 4) can be performed continuously.

  As described above, in this example, the wire 3 has a very thin core wire 3a with a diameter of φ1 mm, the allowance of the core wire 3a of the wire 3 from the barrel portion 4a of the terminal 4 is set to 0.5 mm, and the wire 3 is projected. Allowance tolerances are set to +0.5 mm and -0.4 mm. That is, the required machining accuracy is extremely high.

  In this regard, according to the present embodiment, the tip of the electric wire 3 on the side of the core wire 3a is abutted against the stopper 113, so that the electric wire 3 can be easily positioned.

  Further, since the electric wire 3 positioned by the stopper 113 is automatically clamped by the chuck 21, the position of the electric wire 3 is not changed until the activation operation switch 15 is turned on and crimped by the crimper 111 after the electric wire 3 is positioned. It can prevent shifting.

  Moreover, since the chuck 21 automatically unclamps the electric wire 3 when the crimper 111 reaches the descending end and the crimping is performed, the clamping of the electric wire 3 by the chuck 21 can be surely performed until the crimping is completed, As a result, the position shift of the electric wire 3 can be reliably prevented.

  As described above, the stopper 113 is rotatable in the feeding direction of the continuous terminal 5 by the terminal feeding mechanism 12, so that when the terminal feeding mechanism 12 sends the continuous terminal 5, the stopper 113 is connected to the continuous terminal 5 or the electric wire 3. Interference can be avoided.

  Here, FIG. 14 shows a comparative example of a support structure that rotatably supports the stopper 113. In this comparative example, the rolling bearing 115 is not used, the bolt 117 is directly inserted into the hole of the stopper 113, and the stopper 113 is configured to slide by sliding with respect to the bolt 117. ing.

  According to this comparative example, the stopper 113 and the bolt 117 are worn by the rotation of the stopper 113. When the stopper 113 and the bolt 117 are worn, the stopper 113 is loose (the fluctuation in the abutting direction), so that the positioning accuracy of the electric wire 3 is deteriorated.

  On the other hand, in the present embodiment, since the rolling bearing 115 is used as a support structure for rotatably supporting the stopper 113, wear due to the rotation of the stopper 113 is less likely to occur compared to the comparative example of FIG. . For this reason, the play of the stopper 113 (the fluctuation in the abutting direction) hardly occurs, so that the positioning accuracy of the electric wire 3 can be improved.

  In this embodiment, the interlock is set based on the operation state of the chuck 21 with respect to the operation of the crimper 111. Specifically, when the electric wire 3 is clamped by the chuck 21, that is, when the air cylinder 22 is at the extended end, the crimper 111 is allowed to start. Therefore, when the operator turns on the start operation switch 15, the crimper 111 is started. When the wire 3 is not clamped by the chuck 21, that is, when the air cylinder 22 is not at the extended end, the crimper 111 is prohibited from starting. The crimper 111 does not operate even when turned on. For this reason, it can prevent crimping | bonding in the state which the position of the electric wire 3 shifted | deviated.

  From the above, since the positional deviation of the electric wire 3 can be suppressed, the protrusion margin of the core wire 3a of the electric wire 3 from the barrel portion 4a of the terminal 4 can be managed with high accuracy. For this reason, the crimping quality can be ensured satisfactorily even in a wire harness with high required processing accuracy.

(Other embodiments)
In the above embodiment, the laser sensor 25 is used as the butting detection means for detecting that the tip of the electric wire 3 is butted against the stopper 113. However, the present invention is not limited to this. Various non-contact sensors can be used as the contact detection means. Moreover, you may use a contact-type sensor as an abutting detection means.

  Moreover, in the said embodiment, although the rolling bearing 115 is comprised with the ball bearing, it is not limited to this, The rolling bearing 115 may be comprised with the roller bearing etc.

  Moreover, in the said embodiment, although the control apparatus 14 of the applicator 1 and the control apparatus 24 of the chuck apparatus 2 are provided separately, the control apparatus 14 of the applicator 1 and the control apparatus 24 of the chuck apparatus 2 are integrated. It may be made.

DESCRIPTION OF SYMBOLS 3 Electric wire 3a Core wire 4 Terminal 4a Barrel part 6 Carrier 12 Terminal feed mechanism 14 Control apparatus (control means) of crimping machine
15 Start operation switch 21 Chuck (clamping means)
22a Cylinder switch (clamp detection means)
24 Control device (control means) of chuck device
25 Laser sensor (Abutting detection means)
26 Lower end switch (crimp detection means)
111 crimper (crimping means)
113 Stopper 115 Rolling bearing

Claims (5)

A stopper (113) used for positioning the electric wire (3) with respect to the terminal (4), with the tip of the electric wire (3) being abutted;
An abutment detecting means (25) for detecting that the tip of the electric wire (3) is abutted against the stopper (113);
Clamping means (21) for clamping the electric wire (3);
A crimping means (111) for crimping the terminal (4) to the core wire (3a) of the electric wire (3);
When the abutting detection means (25) detects that the tip of the electric wire (3) is abutted against the stopper (113), the clamping means (21) clamps the electric wire (3). And a control means (14, 24) for controlling the operation of the clamping means (21). A terminal feed mechanism (12) for feeding a continuous terminal (5) in which a plurality of the terminals (4) are connected in a direction orthogonal to the core wire (3a) by a carrier (6) in a direction orthogonal to the core wire (3a); ,
The terminal crimping device according to claim 1, further comprising a rolling bearing (115) that supports the stopper (113) so as to be rotatable in a feeding direction of the continuous terminal (5). Clamp detection means (22a) for detecting that the clamp means (21) is clamping the electric wire (3),
When the clamp detecting means (22a) detects that the clamp means (21) clamps the electric wire (3), the control means (14, 24) is configured to press the crimp means (111). 3. The terminal crimping device according to claim 1, wherein activation of the crimping means is allowed, and in other cases, the crimping means is prohibited from starting. Crimp detection means (26) for detecting that the crimp means (111) crimps the terminal (4) to the electric wire (3),
When the crimp detection means (26) detects that the crimping means (111) has crimped the terminal (4) to the electric wire (3), the control means (14, 24) The terminal crimping device according to any one of claims 1 to 3, wherein the operation of the clamping means (21) is controlled so as to unclamp the electric wire (3). A method of manufacturing a wire harness using the terminal crimping device according to any one of claims 1 to 4,
The abutting detection means (25) detects that the tip of the electric wire (3) is abutted against the stopper (113),
When the abutting detecting means (25) detects that the tip of the electric wire (3) is abutted against the stopper (113), the electric wire (3) is clamped by the clamping means (21). The operation of the clamping means (21) is controlled by the control means (14, 24),
A method for manufacturing a wire harness, comprising: crimping the terminal (4) onto the core wire (3a) of the electric wire (3) clamped by the clamping means (21) with the crimping means (111).

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