JP3568795B2 - Wire processing equipment - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an electric wire which is subjected to a terminal treatment such as cutting and peeling an electric wire (covered electric wire) used for a wire harness (automobile assembled electric wire), and crimping a terminal to an end of the peeled electric wire. It relates to a processing device.
[0002]
[Prior art]
As this kind of conventional wire processing apparatus, there is one disclosed in Japanese Patent Application Laid-Open No. 8-102354, and FIG. 7 shows a schematic plan view of the wire processing apparatus.
[0003]
In FIG. 7, a supply station 51 having a large number of electric wire supply pipes 51a is arranged on a base 50, and the supply station 51 is configured to be movable in the direction of arrow e. A swing arm 52 is provided on the discharge side of the supply station 51, and a clamp means (not shown) for clamping the electric wire W supplied from the supply station 51 is provided on the swing arm 52. The pivot arm 52 is configured to be pivotable about the point 50 in FIG. 7 with respect to the base 50, and the head portion 52 a of the pivot arm 52 is rotated by the pivot arm 52 so that the reference position A and the reference position A , And a maximum turning position C, which is the maximum turning angle, and an intermediate processing position B located therebetween. The head portion 52a of the turning arm 52 is configured to face the wire cutting portion 53 at the reference position A, the wire peeling portion 54 at the intermediate position B, and the terminal crimping portion 55 at the maximum turning position C. ing.
[0004]
In addition, a first transport unit 56 is provided on the base 50, and the first transport unit 56 is configured to be movable in the directions of the arrows m and n. The first transport unit 56 is provided with first to fourth four clamp units 56a to 56d at equal intervals. The first clamp unit 56a is located between the reference position A and the first processing position D, and the second clamp unit 56b is between the first processing position D and the second processing position E, the third clamp portion 56c is between the second processing position E and the third processing position F, and the fourth clamp portion 56d is between the first processing position F and the third processing position F. It is respectively moved between the fourth processing position G.
[0005]
Further, a second transport unit 57 is disposed at the first processing position D of the first transport unit 56, and the second transport unit 57 is configured to be movable in the direction of arrow p. The second transport section 57 has a clamp section 57a, and is configured to be able to transport the clamped electric wire W to a position facing the peeling section 58 by moving in the direction of arrow p. A third transfer section 59 is disposed at the second processing position E of the first transfer section 56, and the third transfer section 59 is configured to be movable in an arrow q direction. The third transport section 59 has a clamp section 59a, and is configured to be able to transport the clamped electric wire W to a position facing the terminal crimping section 60 by moving in the direction of arrow q.
[0006]
Further, a clamp portion 61 is provided at a third processing position F of the first transport portion 56, and an electric wire discharge portion 62 is provided at a fourth processing position G of the first transport portion 56.
[0007]
In the above-described configuration, the electric wire W is supplied from the supply station 51 to the turning arm 52, the supplied electric wire W is clamped by a clamp unit (not shown), and the front end side of the electric wire W projects from the head 52 a of the turning arm 52. Is set to Next, the electric wire W protruding from the head portion 52a of the turning arm 52 is cut by the electric wire cutting portion 53, and the turning arm 52 is turned from the reference position A to the intermediate processing position B. Next, the insulating covering material at the end of the cut electric wire W is peeled by the peeling portion 54, and the turning arm 52 is turned from the intermediate position B to the maximum turning processing position C. Next, the terminal is crimped to the conductive wire of the electric wire W by the terminal crimping portion 60, and the turning arm 52 is returned from the maximum turning position C to the reference position A, whereby the terminal processing of one end of the electric wire W is completed. .
[0008]
When returning to the reference position A, the first transport unit 56 moves in the direction of arrow m, the first clamp unit 56a is located at the reference position A, and the electric wire W is drawn out by a predetermined amount from the head unit 52a of the turning arm 52. The drawn wire W is clamped by the first clamp portion 56a of the first transport portion 56, the first transport portion 56 moves in the direction of arrow n, and the first clamp portion 56a is moved to the first processing position D. . Next, the clamp portion 57a of the second transport portion 57 reclamps the electric wire W, and the second transport portion 57 moves in the direction of the arrow p to move the electric wire W to a position near the peeling portion 58.
[0009]
Next, the insulating covering material at the other end of the electric wire W is peeled off at the peeling section 58, and then the second transport section 57 returns to the original position. Next, the second clamp section 56b of the first transport section 56 is located at the first processing position D, and the second clamp section 56b clamps the electric wire W again. Next, the first transport unit 56 moves in the direction of arrow n, and the second clamp unit 56b moves to the second processing position E. Next, the clamp portion 59a of the third transport portion 59 re-clamps the electric wire W, and the third transport portion 59 moves in the direction of arrow q to move the electric wire W to a position near the terminal crimping portion 60.
[0010]
Next, the terminal is crimped to the conductive wire at the terminal at the other end of the electric wire W by the terminal crimping section 60, and then the third transport section 59 returns to the original position. Next, the third clamp portion 56c of the first transport portion 56 is located at the second processing position E, and the third clamp portion 56c clamps the electric wire W again. Next, the first transport unit 56 moves in the direction of arrow n, and the third clamp unit 56c moves to the third processing position F.
[0011]
Next, the electric wire W is re-clamped by the clamp unit 61, and the electric wire W is moved to the fourth processing position G by the movement of the first transport unit 56, and is discharged from the electric wire discharge unit 62. The terminal processing on the end side also ends.
[0012]
[Problems to be solved by the invention]
However, in the conventional wire processing apparatus, when the turning arm 52 is located at the intermediate processing position B and processing of the peeling portion 54 is defective, the terminal crimping operation is not performed. Then, the operation of turning the turning arm 52 to the maximum turning position C was performed. Therefore, such an operation was useless in terms of production tact.
[0013]
Therefore, the present invention has been made to solve the above-described problem, and when the turning arm is at the intermediate processing position and there is a processing failure in the processing of the electric wire, the wasteful operation is omitted and the production is omitted. It is an object to provide an electric wire processing device capable of improving tact.
[0014]
[Means for Solving the Problems]
The invention of claim 1, have a pivoting arm which wires are supplied, the swivel arm is pivotably configuration with respect to the base, the head portion is a reference position of said pivot arm by the pivot arm pivots And a maximum turning processing position which is a maximum turning angle with respect to a reference position, wherein the head portion of the turning arm performs terminal processing of the electric wire at the reference position and the maximum turning processing position. The head portion of the turning arm is turned in the order of a reference position, a maximum turning position, and a reference position, and each of the processing means performs terminal processing of an electric wire protruding from the head portion of the turning arm. In the electric wire machining apparatus, at least one machining inspection means for inspecting whether or not machining so far is defective on a turning trajectory from a reference position of the turning arm to a maximum turning machining position. Only, if one of hole inspecting means determines that a defective machining, characterized in that the freely control the pivoting of said pivot arm to return immediately reference position the pivoting arm.
[0015]
In this electric wire processing apparatus, when any of the processing inspection means at the intermediate position determines that the processing is defective, the movement of the turning arm to the maximum turning processing position side is stopped, and the turning arm returns to the reference position.
[0016]
According to a second aspect of the present invention, there is provided the wire processing apparatus according to the first aspect, wherein the processing inspection means is provided at two locations, and is a peeling inspection means and a rubber plug insertion inspection means.
[0017]
In this electric wire machining apparatus, in addition to the operation of the first aspect, when the machining inspection means is provided at two locations, and when the first machining inspection means determines that machining is defective, the turning arm is used for the next machining. It is returned to the reference position without moving to the inspection means side.
[0018]
According to a third aspect of the present invention, in the wire processing apparatus according to the first or second aspect, the processing means at the reference position cuts the electric wire and peels off the insulating coating material on the cutting end side of the electric wire. It is a cutting and peeling machine that performs.
[0019]
In this electric wire processing apparatus, in addition to the operation of the invention of claim 1 or 2, the cutting of the electric wire at the reference position and the peeling of the insulating coating material at the end of the cut electric wire are performed simultaneously.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
[0021]
FIG. 1 is a schematic plan view of a main part of an electric wire processing apparatus according to an embodiment of the present invention, and FIG. 2 is an overall plan view of the electric wire processing apparatus. 1 and 2, a base 1 is provided with an electric wire straightening unit 2 and a scale sending unit 3. The electric wire straightening unit 2 is provided with a large number of straightening rollers 2a at left and right positions, and is supplied to the scale sending unit 3 when the electric wire W passes between the left and right straightening rollers 2a. The measuring scale sending section 3 has a pair of sending rollers 3a, 3a and a pair of measuring rollers 3b, 3b, and the electric wire W passes between the pair of sending rollers 3a, 3a and the measuring rollers 3b, 3b so that the electric wire W is formed. It is supplied to the swing arm 4. The measuring roller 3b is rotated by a servo motor (not shown), and the wire W is sent out in synchronization with the rotation of the measuring roller 3b, so that the amount of the wire W sent out is detected. That is, the electric wire W can be supplied to the revolving arm 4 by a predetermined length by the measuring roller 3b.
[0022]
The swivel arm 4 is arranged so as to be swivelable about the rotation shaft 5 with respect to the base 1, and is swiveled by the rotation of the servomotor M1. An electric wire insertion tube 4a is arranged on the swivel arm 4, and the electric wire W from the scale sending unit 3 is inserted into the electric wire insertion tube 4a. Further, the turning arm 4 is provided with a not-shown clamping means such as an air cylinder for clamping the supplied electric wire W, so that the electric wire W protruding from the head portion 4b of the turning arm 4 can be clamped by this clamping means. It has become.
[0023]
The head portion 4b of the turning arm 4 is located at a reference position A, a maximum turning processing position C, and a first intermediate processing position B1 and a second intermediate processing position B2 between the reference position A, the maximum turning processing position C due to the turning of the turning arm 4. It is configured as follows. The first intermediate processing position B1 is located closer to the reference position, and the second intermediate processing position B2 is located farther than the reference position. At the reference position A, the head portion 4b of the revolving arm 4 is attached to a cutting and peeling machine 6 as a processing means, at a first intermediate processing position B1, to a soldering machine (or a wire tip twisting machine) 7 as a processing means, At the intermediate processing position B2, the rubber plug insertion machine 8 is a processing means, and at the maximum turning processing position C, the terminal crimping machine 9 is a processing means for crimping the terminal 41 to one end of the electric wire W. .
[0024]
As shown in FIG. 5, the cutting and peeling machine 6 has a pair of upper and lower moving members 10 and 10, and a central cutting blade 11 and left and right skinning blades 12 are provided on opposing surfaces of the moving members 10. Are erected respectively. An electric wire clamp 13 is provided at the end of the moving member 10 on the side opposite to the head 4 b of the swivel arm 4, and a cutting and peeling machine is provided by the electric wire clamp 13 and the clamp means of the swivel arm 4. 6, both sides of the electric wire W can be gripped. Further, the pair of moving members 10, 10 and the electric wire clamp portion 13 are configured to be able to move in the left-right direction independently and independently. The wire W is cut by the pair of cutting blades 11 and 11 by moving the pair of moving members 10 and 10 in a direction in which the pair of moving members 10 and 10 narrows, or the pair of left and right skinning blades 12 and 12 is insulated by the insulating coating material of the wire W. Wa is cut off only to separate the head portion 4b of the revolving arm 4 from the pair of moving members 10 and 10 and to separate the pair of moving members 10 and 10 from the wire clamp portion 13 for cutting. The insulating covering material Wa at both ends of each of the thus-formed electric wires W is peeled off (see FIG. 6A).
[0025]
The soldering machine 7 automatically attaches the solder 40 to the conductive wire Wb at the terminal where the wire W is peeled (see FIGS. 6A and 6B). The processing means at the first intermediate processing position B1 may be other than soldering. The rubber plug insertion machine 8 automatically attaches the rubber plug 33 to the end of the electric wire W (see FIGS. 6B and 6C). The terminal crimping machine 9 automatically crimps the terminal 41 to the conductive wire W2 of the stripped end of the electric wire W (see FIG. 6D).
[0026]
Returning to FIG. 2 again, the first transport unit 20 is disposed on the base 1, and the first transport unit 20 is configured to be movable in the direction of arrow a in FIG. The first transport section 20 is provided with four clamp sections 20a to 20d at equal intervals in the direction of arrow a. Here, FIG. 2 shows only the terminal crimping machine 21 and the electric wire discharging unit 22, and other structures are omitted. For example, the other end of the electric wire W is processed by the same structure as the conventional example. It is configured as follows. The terminal processing on the other end of the electric wire W is omitted.
[0027]
FIG. 3 is a circuit block diagram of the electric wire processing apparatus. In FIG. 3, at a first intermediate processing position B1, a peeling inspection means 30 as a processing inspection means is provided, and the peeling inspection means 30 inspects whether or not the one end of the electric wire W is peeled, and the inspection result is obtained. Is output to the control unit 31. Note that a configuration for inspecting up to the peeling size may be adopted. At the second intermediate processing position B2, there is provided a rubber plug insertion inspection means 32, which is a processing inspection means, and the rubber plug insertion inspection means 32 inspects whether the rubber plug 33 has been normally inserted into the end of the electric wire W. Then, the inspection result is output to the control unit 31.
[0028]
The terminal detection unit 45 is provided at a position D near the first intermediate processing position B1, checks the turning arm 4 returning from the maximum turning processing position C to the reference position A, and connects the terminal 41 to the electric wire W protruding from the turning arm 4. Detect whether or not it has been performed.
[0029]
The control unit 31 controls the servo motor M1 via the drive circuit 34 based on the flowchart shown in FIG. 4, and also controls the cutting and peeling machine 6, the soldering machine 7, the rubber plug inserting machine 8, the terminal crimping machine 9, and the like. Are respectively controlled. The contents of the flowchart of FIG. 4 will be described in the section of the operation.
[0030]
Next, the operation of the above configuration will be described with reference to FIG. After confirming that the turning arm 4 is located at the reference position A (step S1), the electric wire W is supplied to the turning arm 4 via the electric wire straightening unit 2 and the scale sending unit 3 (step S2). The electric wire W is disposed so as to protrude from the head portion 4 b of the turning arm 4, and the electric wire W is clamped by the clamping means of the turning arm 4. As shown in FIG. 6 (a), the clamped electric wire W is cut using the cutting and peeling machine 6 and the electric wire clamp unit 13, and the insulating covering material Wa at both ends of the cut electric wire W is cut. Is stripped (step S3).
[0031]
Next, with the wire W clamped, the turning arm 4 is turned from the reference position A to the first intermediate processing position B1 (step S4), and the soldering machine 7 conducts the solder 40 as shown in FIG. Attach to line Wb. Alternatively, the conductive wire Wb is twisted by the wire tip twisting machine (step S5). Further, the peeling inspecting means 30 determines whether or not the peeling processing is good (step S6). If it is determined that the peeling processing is defective, the control unit 31 controls the turning arm 4 to return to the reference position A immediately. I do. Further, when it is determined that the peeling is good, the control unit 31 rotates the turning arm 4 from the first intermediate processing position B1 to the second intermediate processing position B2 (Step S7).
[0032]
Next, at the second intermediate processing position B2, as shown in FIG. 6C, the rubber plug 33 is inserted into the end of the electric wire W by the rubber plug insertion machine 8 (step S8). The rubber plug insertion inspection means determines whether or not the rubber plug 33 is properly inserted (step S9). If it is determined that the rubber plug 33 is defective, the control unit 31 immediately returns the turning arm unit 4 to the reference position A. Control. Further, when it is determined that the rubber plug insertion processing is good, the control unit 31 turns the turning arm 4 from the second intermediate processing position B2 to the maximum turning processing position C (step S10).
[0033]
Next, at the maximum turning position C, as shown in FIG. 6D, the terminal 41 is crimped and connected to the conductive wire W2 of the electric wire W by the terminal crimping machine 9 (step S11). When the connection of the terminal 41 is completed, the turning arm 4 is returned to the reference position (step S11), and the terminal detecting unit 45 detects the presence or absence of the terminal 41 in the returning turning process. When returning to the reference position A, the end processing of one end of the electric wire W is thereby completed.
[0034]
Next, when the swivel arm 4 returns to the reference position A, the first clamp 20a of the first transport unit 20 is located at the reference position A, and the electric wire W is sent from the head 52a of the swivel arm 52 to the measurement sending unit. 3 is pulled out by the measuring roller 3b by a predetermined amount, and the drawn-out electric wire W is cut using the cutting and peeling machine 6 and the electric wire clamping unit 13 in the same manner as described above, and The insulating covering material Wa at both ends is peeled off. Then, one of the separated electric wires W is conveyed by the first conveying unit 20, and the other end side of the electric wire W is subjected to terminal treatment in the same manner as in the conventional example. By repeating this, electric wires W having a predetermined length and subjected to terminal processing on both terminal sides are sequentially produced.
[0035]
In the above operation process, when it is determined that the head portion 4b of the revolving arm 4 is at the first intermediate processing position B1 and the peeling inspection by the peeling inspection means 30 is defective, or the head portion 4b of the revolving arm 4 Is located at the second intermediate processing position B2 and the rubber plug insertion inspection means 32 determines that the rubber plug insertion inspection is defective, the movement of the turning arm 4 toward the maximum turning processing position C is stopped. Since the turning arms 4 are immediately returned to the reference position A, unnecessary operations are omitted, and production tact time can be improved.
[0036]
According to the above-described embodiment, as the inspection position of the turning arm 4 between the reference position A and the maximum turning position C, there are two positions of the first intermediate processing position B1 and the second intermediate processing position B2. However, the present invention can be similarly applied to only one place or three or more places. Further, since the processing means of the reference position A of the turning arm 4 is configured as a cutting and peeling machine 6 for cutting the electric wire W and peeling the insulating covering material Wa of the cut electric wire end, the cutting and the cutting of the electric wire W are performed. Although the stripping can be performed at the same time and the working efficiency is improved, the processing means at the reference position A may be a wire cutting machine that can only cut the wire, and the wire stripping machine may be installed at another processing position. . Further, the processing means at the first intermediate processing position B1 is a soldering machine (or a wire tip twisting machine) 7 for soldering the conductive wire Wb, and the processing means at the second intermediate processing position B2 is a rubber plug attached to the electric wire W. As the rubber plug insertion machine 8 for inserting the 33, the processing means at the maximum turning position C is configured as a terminal crimping machine 9 for crimping the terminal 41 to the conductive wire Wb, but each processing means is limited to these. Any processing means may be used.
[0037]
【The invention's effect】
As described above, according to the first aspect of the present invention, it is determined whether or not the processing up to that point is defective on the turning trajectory from the reference position of the turning arm that supplies the electric wire to each processing means to the maximum turning processing position. At least one processing inspection means for inspecting whether or not any of the processing inspection means determined that the processing was defective was controlled such that the turning arm was immediately returned to the reference position. When the machining inspection means at the intermediate position of the above determines that machining is defective, the movement of the swing arm to the maximum swing machining position side is stopped, and the swing arm returns to the reference position. Production tact can be improved.
[0038]
The invention according to claim 2 has the effect of the invention according to claim 1, in addition to the effect of the invention according to claim 1, when there are two processing inspection means, and when the first processing inspection means determines that the processing is defective, the turning arm is moved to the next position. Since it is returned to the reference position without moving to the processing inspection means side, useless operation can be omitted and production tact can be improved.
[0039]
According to the invention of claim 3, the processing means at the reference position is a cutting and peeling machine which cuts an electric wire and also peels off an insulating coating material on a cutting end side of the electric wire. In addition to the effects of the invention, the cutting of the electric wire at the reference position and the peeling of the cut electric wire on the cutting end side can be performed at the same time, so that the productivity can be further improved.
[Brief description of the drawings]
FIG. 1 is a schematic plan view of a main part of an electric wire processing apparatus according to an embodiment of the present invention.
FIG. 2 is an overall plan view of the electric wire processing apparatus.
FIG. 3 is a circuit block diagram of the electric wire processing apparatus.
FIG. 4 is a flowchart of terminal processing of one end of an electric wire by the electric wire processing apparatus.
FIG. 5 is a schematic front view of a cutting and peeling machine of the electric wire processing apparatus.
FIG. 6 (a) is an explanatory view showing a cut and peeled state of the electric wire, FIG. 6 (b) is an explanatory view showing a soldered state of the electric wire, and FIG. 6 (c) shows a state where a rubber plug is inserted into the electric wire. FIG. 3D is an explanatory view showing a state where a terminal is crimped to the electric wire.
FIG. 7 is a schematic plan view of a conventional electric wire processing apparatus.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Base 4 Revolving arm 4b Head part 6 Cutting peeling machine (processing means)
7 Soldering machine (processing means)
8 Rubber stopper insertion machine (processing means)
9 Terminal crimping machine (processing means)
30 Peeling inspection means (processing inspection means)
32 Rubber stopper insertion inspection means (processing inspection means)
41 Terminal W Electric wire Wa Insulation coating material A Reference position C Maximum turning position

Claims (3)

Wires have a pivot arm to be supplied, the swivel arm is pivotably configuration with respect to the base, and the reference position is the head portion of said pivot arm by the pivot arm pivots with respect to the reference position It is configured to be located at a maximum turning position that is a maximum turning angle, and at the reference position and the maximum turning position, the head portion of the turning arm faces a processing unit that performs terminal processing of the electric wire, In a wire processing apparatus, the head portion of the turning arm is turned in the order of a reference position, a maximum turning processing position, and a reference position, and each of the processing means performs terminal processing of an electric wire protruding from the head portion of the turning arm.
At least one processing inspection means is provided on a turning trajectory from the reference position of the swing arm to the maximum turning processing position to check whether the processing up to that time is defective. An electric wire processing apparatus characterized in that the turning of the turning arm can be controlled so as to return the turning arm to a reference position immediately when it is determined to be defective. The electric wire processing apparatus according to claim 1,
2. The wire processing apparatus according to claim 1, wherein the processing inspection means is provided at two locations, and the processing inspection means includes a peeling inspection means and a rubber plug insertion inspection means. The electric wire processing device according to claim 1 or 2,
The electric wire processing apparatus, wherein the processing means at the reference position is a cutting and peeling machine that cuts an electric wire and peels off an insulating coating material on a cutting end side of the electric wire.

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