JP2016139473A - Method for manufacturing electric wire fitted with terminal, and electric wire fitted with terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technique with which it is possible to more easily confirm the state of pressure-joining between a terminal and an insulated electric wire in cases where an insulated electric wire is connected to a terminal that includes a cylindrical crimp part covering the end of the insulated electric wire over the whole circumference.SOLUTION: This method of manufacturing an electric wire fitted with a terminal comprises: a peeling step; a mark setting step for setting a mark 5 to an insulated electric wire 9; a first acquisition step for acquiring a first distance from the tip of the core wire 91 of a peeled insulated electric wire 9 to the mark 5 and/or a second distance from the tip of the insulation coating 92 of the peeled insulated electric wire 9 to the mark 5; a crimping step for pressure-joining the crimp part 81 of a terminal 8 and the end of the insulated electric wire 9; a second acquisition step for acquiring a third distance from the rear end of the crimp part 81 of the terminal 8 to the mark 5; and a determination step for determining whether the state of pressure-joining between the terminal 8 and the insulated electric wire 9 is good or not on the basis of the first distance and/or the second distance and the third distance.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an electric wire with a terminal including a terminal and an insulated electric wire and a method for manufacturing the electric wire.

  In a wire harness mounted on a vehicle, an electric wire with a terminal includes an insulated wire and a terminal connected to an end of the insulated wire. The terminal is connected to the exposed core wire after the insulation coating at the end of the insulated wire is removed.

  For example, as shown in Patent Document 1, in a terminal-attached electric wire, the terminal may include a cylindrical crimping portion that covers the periphery of the end portion of the insulated wire over the entire circumference. In this case, the insulated wire and the terminal are connected by being crimped with the end portion of the insulated wire inserted into the cylindrical crimp portion of the terminal. Such a terminal is generally called a closed barrel terminal.

  Further, Patent Document 1 discloses that a mark is provided on the insulating coating according to the length of the crimp portion of the closed barrel terminal. In this terminal-attached electric wire, when the rear end of the crimped portion of the closed barrel terminal matches the mark provided on the insulating coating, it is determined that the insulated electric wire and the terminal are in a good connection state.

JP 2014-187024 A

  In the example shown in Patent Document 1, it is necessary to provide a mark at an accurate position according to the length of the crimp portion of the closed barrel terminal. For this reason, there is a concern that the work of providing the mark becomes complicated.

  In the present invention, when an insulated wire is connected to a terminal including a tubular crimping portion that covers the end of the insulated wire over the entire circumference, the crimped state between the terminal and the insulated wire can be more easily confirmed. The purpose is to provide technology that can be used.

  The method for manufacturing a terminal-attached electric wire according to the first aspect includes a peeling step of removing an insulating coating at an end portion of the insulated wire and exposing a core wire at the end portion of the insulated wire, and a mark setting step of providing a mark on the insulated wire And a first distance from the tip of the cored wire of the insulated wire to the mark and the tip of the insulated coating of the skinned insulated wire that is performed after the skinning step and the mark setting step The first acquisition step of acquiring at least one of the second distance from the mark to the mark, and the terminal including a cylindrical crimping portion that can be crimped in a state of covering the entire periphery of the end of the insulated wire A crimping step of crimping the crimping portion and the end of the insulated wire; a second acquisition step performed after the crimping step and obtaining a third distance from the rear end of the crimping portion of the terminal to the mark; The first distance and the first distance Distance based on at least one and the third distance, and a determination step of determining the quality of crimp state between the insulated wire and the terminal.

  The electric wire manufacturing method with a terminal concerning the 2nd mode is one mode of an electric wire manufacturing method with a terminal concerning the 1st mode. In the electric wire manufacturing method with a terminal concerning the 2nd mode, the above-mentioned judgment process is based on at least one of the above-mentioned 1st distance and the above-mentioned 2nd distance, and the above-mentioned 3rd distance of the above-mentioned electric wire inserted in the above-mentioned crimp part. In this step, a value corresponding to the end length is obtained, and the end length is compared with a reference value to determine whether the crimped state of the terminal and the insulated wire is good or bad.

  The electric wire manufacturing method with a terminal concerning the 3rd mode is one mode of an electric wire manufacturing method with a terminal concerning the 2nd mode. In the terminal-attached electric wire manufacturing method according to the third aspect, a minimum reference value and a maximum reference value are set as the reference value, and the determination step includes the end length exceeding the minimum reference value and the maximum value. When it is less than the reference value, it is determined that the crimped state is good.

  The electric wire manufacturing method with a terminal concerning the 4th mode is one mode of an electric wire manufacturing method with a terminal concerning any one of the 1st mode to the 3rd mode. In the method of manufacturing a terminal-attached electric wire according to the fourth aspect, the first acquisition step is a step of acquiring both the first distance and the second distance, and the determination step is the first distance and the second distance. It is a step of determining pass / fail of the crimped state between the terminal and the insulated wire based on the second distance and the third distance.

  The electric wire with a terminal according to the fifth aspect includes a core wire and an insulating coating covering the periphery of the core wire, and the insulated wire in which the core wire is exposed at the end portion and the periphery of the end portion of the insulated wire over the entire circumference. A terminal including a cylindrical crimping portion crimped in a covering state and a contact portion connectable to a mating member, and the contact portion side of the insulated wire from a rear end of the crimping portion of the terminal. On the other hand, the mark is provided only in the part away from the opposite side by a predetermined distance.

  In each of the above aspects, based on at least one of the first distance and the second distance obtained in the first acquisition step, and the third distance obtained in the second acquisition step, the terminal and the insulated wire A determination process for determining whether the crimped state is good or not is performed. In this case, since the quality of the crimped state between the terminal and the insulated wire is determined by the distance to the mark, it is not necessary to provide the mark at an accurate position according to the length of the crimped portion of the terminal. Therefore, it is possible to simplify the work of providing the mark, and it is possible to more easily check the crimping state between the terminal and the insulated wire.

  Moreover, in the 2nd aspect, a determination process is a process of determining the quality of the crimping state of a terminal and an insulated wire by comparing the edge part length of the insulated wire inserted in the crimping part with a reference value. In this case, the amount of the insulated wire inserted into the crimping portion can be grasped, and the crimped state between the terminal and the insulated wire can be confirmed more accurately.

  In the third aspect, the minimum reference value and the maximum reference value are set as the reference values, and the determination step is performed when the end length exceeds the minimum reference value and is less than the maximum reference value. Is a step of determining that is good. In this case, it can further be confirmed that the electric wire is excessively inserted into the crimping portion or the amount of the electric wire inserted is insufficient. Accordingly, it is possible to more accurately confirm the crimped state between the terminal and the insulated wire.

  Moreover, in a 4th aspect, a determination process is a process of determining the quality of the crimping state of a terminal and an insulated wire based on a 1st distance, a 2nd distance, and a 3rd distance. In this case, the amount of the core wire and the insulation coating of the insulated wire inserted in the crimping portion of the terminal can be grasped. That is, it is possible to confirm the position of the tip of the core wire inserted into the crimping part and the position where the insulation coating is peeled off. For this reason, it becomes possible to confirm the crimping state of a terminal and an insulated wire more correctly.

  Further, in the fifth aspect, a mark provided only in a portion of the insulated wire that is a predetermined distance away from the rear end of the crimping portion of the terminal to the opposite side with respect to the contact portion side is formed. In this case, the distance from the mark provided to be exposed from the crimping part to the rear end of the crimping part, the distance from the end of the core of the insulated wire to the mark, and the distance from the end of the insulation coating of the insulated wire to the mark Based on at least one of them, the quality of the crimped state between the terminal and the insulated wire can be determined. Therefore, since the quality of the crimped state between the terminal and the insulated wire is determined by the distance to the mark, it is not necessary to provide the mark at an accurate position according to the length of the crimped portion of the terminal. For this reason, the operation | work which provides a mark can be simplified and it becomes possible to confirm the crimping state of a terminal and an insulated wire more easily.

It is a side view of the electric wire with a terminal concerning an embodiment. It is the schematic which shows the time of a start of the electric wire manufacturing method with a terminal which concerns on embodiment. It is the schematic which shows the peeling process of the electric wire manufacturing method with a terminal which concerns on embodiment. It is the schematic which shows the mark setting process of the electric wire manufacturing method with a terminal which concerns on embodiment. It is the schematic which shows the 1st acquisition process of the electric wire manufacturing method with a terminal which concerns on embodiment. It is the schematic which shows the crimping | compression-bonding process of the electric wire manufacturing method with a terminal which concerns on embodiment. It is the schematic which shows the 2nd acquisition process of the electric wire manufacturing method with a terminal which concerns on embodiment. It is a flowchart which shows the electric wire manufacturing method with a terminal which concerns on embodiment.

  Hereinafter, embodiments will be described with reference to the accompanying drawings. The following embodiment is an example embodying the present invention, and is not an example of limiting the technical scope of the present invention.

<Wire with terminal>
First, the electric wire with terminal according to the embodiment will be described with reference to FIG. The electric wire with terminal 1 includes an insulated electric wire 9 and a terminal 8. The insulated wire 9 is provided with a mark 5. FIG. 1 is a side view of the terminal-attached electric wire 1. The terminal-attached electric wire 1 is mounted on a vehicle such as an automobile.

<Wire with terminal: insulated wire>
The insulated wire 9 includes a core wire 91 and an insulating coating 92 that covers the periphery of the core wire 91. The core wire 91 may be a member mainly composed of a metal such as copper or aluminum. The insulating coating 92 may be a synthetic resin member mainly composed of polyethylene or vinyl chloride, for example.

  In addition, in the insulated wire 9, the insulation coating 92 in the edge part is peeled by the insulation coating removal operation | work of the peeling process etc. in the electric wire manufacturing method with a terminal mentioned later, for example, and the state which the core wire 91 exposed from the insulation coating 92 Made. That is, in the electric wire with terminal 1, the core wire 91 is exposed at the end of the insulated wire 9. Here, a portion of the core wire 91 exposed from the insulating coating 92 is referred to as an exposed core wire portion 99. A terminal 8 is crimped to the exposed core part 99.

<Wire with terminal: Terminal>
The terminal 8 is a member formed by pressing a metal plate material that is a conductive plate material. It is conceivable that the terminal 8 is a member made of copper or a copper alloy containing copper as a main component (brass or the like), or a member obtained by applying tin (Sn) plating or tin alloy plating to these members. .

  When the core wire 91 and the terminal 8 are formed of dissimilar metals, the connecting portion between the core wire 91 and the terminal 8 is in a state where the dissimilar metal is in contact with the electrolyte solution such as salt water. Dissimilar metal contact corrosion can occur.

  In addition, the electric wire 1 with a terminal in this embodiment contains the structure for preventing a liquid from adhering to the contact part of the core wire 91 and the terminal 8, Thereby, dissimilar metal contact corrosion can be suppressed. . For this reason, in the electric wire with terminal 1 and the terminal 8 according to the present embodiment, when the core wire 91 and the terminal 8 are formed of different metals, for example, the core wire 91 is formed of aluminum or an aluminum alloy, and the terminal 8 is copper. Or it is suitable when formed with a copper alloy. But since the liquid adhering to a metal may have some effect | action on the said metal, as for the electric wire 1 with a terminal and the terminal 8 which concern on this embodiment, the core wire 91 and the terminal 8 are formed with the dissimilar metal. The present invention is not limited to the case and is applicable.

  The terminal 8 includes a crimping part 81 and a contact part 82.

  The contact part 82 is a part connected to the counterpart member. More specifically, it is a part connected to the conductive part of the counterpart member. Here, the contact part 82 is formed in the terminal shape connected to the other party member. In the example shown in FIG. 1, the contact portion 82 is formed in a so-called female terminal shape. In this case, the pin-shaped or tab-shaped connecting portion of the mating member is inserted and connected into the contact portion 82, so that the contact portion 82 contacts the connecting portion of the mating member, so that the terminal 8 and the mating terminal are connected. Are electrically connected. The contact portion 82 may be formed in a pin shape or an end shape, that is, a so-called male terminal shape. In addition, the connecting portion does not need to have a shape that can be inserted and connected to the mating member. ).

  The crimp portion 81 is formed in a cylindrical shape that can be crimped in a state of covering the periphery of the end portion of the insulated wire 9 over the entire circumference. The crimping portion 81 is configured to be connected to one end portion of the contact portion 82.

  An end portion on the contact portion 82 side of the crimp portion 81 is formed so as to close an end portion on the contact portion 82 side. On the other hand, the end of the crimping portion 81 opposite to the contact portion 82 side (hereinafter, the rear end portion 84) is open. Therefore, the crimping portion 81 is open on the opposite side of the contact portion 82, but is formed in a sealed shape in the other portions. In this case, by connecting the terminal 8 and the insulated wire 9 so that no gap is formed between the insulated wire 9 and the crimped portion 81 at the rear end portion 84 of the crimped portion 81, the exposed core wire portion 99 is made of water or the like. Intrusion of liquid is suppressed. Note that the edge of the rear end portion 84 of the terminal 8 is the rear end of the terminal 8.

  In the terminal-attached electric wire 1, the exposed core wire portion 99 of the stripped insulated wire 9 and the end portion of the insulating coating 92 are inserted into the crimp portion 81 from the rear end portion 84 of the crimp portion 81. In this state, the crimping part 81 is caulked so that the exposed core part 99 and the crimping part 81 are crimped. Thereby, the inner surface of the crimping part 81 and the exposed core part 99 are fixed, and the terminal 8 and the insulated wire 9 are connected.

<Electric wire with terminal: Mark>
In the electric wire with terminal 1, the mark 5 provided only in a portion of the insulated wire 9 that is separated from the rear end portion 84 of the crimping portion 81 of the terminal 8 by a predetermined distance from the rear end portion 84 to the contact portion 82 side is formed. Yes.

  That is, in the electric wire with terminal 1, the mark 5 is not provided in a portion of the insulated wire 9 that exists in the crimping portion 81 of the terminal 8. The mark 5 is formed in a portion exposed from the crimping portion 81 of the terminal 8. In other words, it can be said that the mark 5 is provided in a portion of the insulated wire 9 that can be observed from the outside.

  Therefore, it is conceivable that the mark 5 is provided at a position closer to the center than the portion inserted into the crimping portion 81 of the terminal 8 in the insulated wire 9.

  In the present embodiment, the mark 5 is provided on the insulating coating 92 of the insulated wire 9. In this case, it is conceivable that the mark 5 shows a color different from that of the insulating coating 92. Further, as the mark 5, an arbitrary shape such as a line, a triangle, a quadrangle, or a circle can be considered.

  The mark 5 is provided on the insulated wire 9 by, for example, laser or ink jet. It is also conceivable that the mark 5 is marked on the insulating coating 92 of the insulated wire 9 by a human hand. This is because the mark 5 may be provided in a portion other than the portion inserted into the crimping portion 81 of the terminal 8 in the insulated wire 9. Therefore, in the electric wire with terminal 1, it is not necessary to accurately determine the position of the mark 5 in the insulated electric wire 9.

  Moreover, the case where the mark 5 is provided over the perimeter in the circumferential direction of the insulated wire 9 or the case where it is provided in a part can be considered.

  Further, in the electric wire with terminal 1, the mark 5 is provided on the insulated wire 9 after the insulated wire 9 is peeled and before the terminal 8 is connected. It is also conceivable that the mark 5 is provided simultaneously with the peeling of the insulated wire 9. This is because the mark 5 is used to determine the quality of the crimped state between the insulated wire 9 and the terminal 8 as described later. In detail, it demonstrates in the electric wire manufacturing method with a terminal mentioned later.

<Method for manufacturing electric wire with terminal>
Next, the method for manufacturing a terminal-attached electric wire according to the embodiment will be described with reference to FIGS. The terminal-attached electric wire manufacturing method includes a skinning step, a mark setting step, a first acquisition step, a crimping step, a second acquisition step, and a determination step. Further, in the method for manufacturing a terminal-attached electric wire, the insulated electric wire 9 and the terminal 8 are used.

  FIG. 2 shows the start of the method for manufacturing a terminal-attached electric wire. FIG. 2 is a side view of the insulated wire 9. FIG. 3 shows a skinning process in the method for manufacturing a terminal-attached electric wire. FIG. 3 is a side view of the insulated wire 9 in a peeled state. FIG. 4 shows a mark setting step in the method for manufacturing a terminal-attached electric wire. FIG. 4 is a side view of the insulated wire 9 provided with the mark 5. The mark 5 will be described later. The 1st acquisition process in the electric wire manufacturing method with a terminal is shown by FIG. FIG. 5 is a side view of the insulated wire 9. FIG. 5 also shows the camera 125 used in the first acquisition step. FIG. 6 shows a crimping process in the method for manufacturing a terminal-attached electric wire. FIG. 6 is a side view of the insulated wire 9 and the terminal 8. The 2nd acquisition process in the electric wire manufacturing method with a terminal is shown by FIG. FIG. 7 is a side view of the electric wire with terminal 1 to which the insulated electric wire 9 and the terminal 8 are connected. FIG. 7 also shows the camera 125 used in the second acquisition step. FIG. 8 is a diagram illustrating a flowchart of a method for manufacturing a terminal-attached electric wire.

  As shown in FIG. 2, at the start of the method for manufacturing a terminal-attached electric wire, the insulated wire 9 is covered with an insulating coating 92 around the core wire 91 over the entire length.

<Method for manufacturing electric wire with terminal: skinning process>
In the method for manufacturing a terminal-attached electric wire, the peeling step S1 is a step of removing the insulating coating 92 from the end portion of the insulated wire 9 and exposing the core wire 91 at the end portion of the insulated wire 9.

  That is, as shown in FIGS. 2 and 3, the insulation coating 92 at the end is removed from the insulated wire 9 having the insulation coating 92 formed around the core wire 91 over the entire length. Thereby, the insulation coating 92 at the end of the insulated wire 9 is removed, and an exposed core portion 99 where the core wire 91 is exposed is formed. It is conceivable that the skinning step S1 is performed using, for example, a known coating removal apparatus.

<Method of manufacturing electric wire with terminal: mark setting process>
In the electric wire manufacturing method with a terminal, the mark setting step S2 is a step of providing the mark 5 on the insulated wire 9.

  As shown in FIG. 4, in the present embodiment, the mark setting step S <b> 2 is a process in which the mark 5 is attached to the insulating coating 92 by the inkjet 135 on a predetermined portion of the insulated wire 9 that has been peeled off. In addition, as mentioned above, the case where the mark 5 is attached to the insulated wire 9 by laser or manual work is also conceivable. In the present embodiment, in the mark setting step S <b> 2, the mark 5 is provided on a portion of the insulating coating 92 other than the portion inserted into the crimping portion 81 of the terminal 8.

  As shown in FIG. 8, in the present embodiment, a case where the mark setting step S2 is performed after the skinning step S1 is shown. However, the mark setting step S2 can be performed before the skinning step S1. For example, it is also conceivable to provide the mark 5 in advance in a portion of the insulating coating 92 other than the portion removed by the skinning step S1 and not inserted into the crimping portion 81 of the terminal 8. Moreover, the case where mark setting process S2 is performed simultaneously with skinning process S1 is also considered.

<Wire manufacturing method with terminals: first acquisition process>
In the electric wire manufacturing method with terminal, the first acquisition step S3 is performed after the peeling step S1 and the mark setting step S2. The first acquisition step S3 includes a first distance X1 from the tip of the core wire 91 of the peeled insulated wire 9 to the mark 5 and a second distance from the tip of the insulation coating 92 of the peeled insulated wire 9 to the mark 5. This is a step of acquiring at least one of X2. The first distance X1 matches the dimension of the exposed core part 99 in the longitudinal direction of the insulated wire 9.

  In the present embodiment, the case where the first acquisition step S3 is a step of acquiring both the first distance X1 and the second distance X2 will be described.

  In the present embodiment, in the first acquisition step S3, the first distance X1 and the second distance X2 are acquired by image inspection using the camera 125. In the example shown in FIG. 5, a case is shown in which the insulated wire 9 on which the mark 5 is formed is photographed from the side by the camera 125 and the first distance X1 and the second distance X2 are acquired from the obtained image. . For example, in the first acquisition step S3, by recognizing edges of the core wire exposed portion 99, the insulating coating 92, and the mark 5, or by extracting different colors of the exposed core portion 99, the insulating coating 92, and the mark 5, the boundary is defined. It can be considered that the values of the first distance X1 and the second distance X2 are acquired by recognition. In addition, the case where the value of the 1st distance X1 and the 2nd distance X2 is acquired by the operator using a ruler etc. is also considered.

  The values of the first distance X1 and the second distance X2 obtained by the first acquisition step S3 are used in a determination step described later.

<Method for manufacturing electric wire with terminal: crimping process>
In the electric wire manufacturing method with terminal, the crimping step S4 includes the crimping portion 81 of the terminal 8 and the insulated wire 9 including the cylindrical crimping portion 81 that can be crimped in a state of covering the periphery of the end of the insulated wire 9 over the entire circumference. It is the process of crimping | bonding to the edge part.

  In the crimping process, as shown in FIG. 6, the exposed core wire portion 99 and the end portion of the insulating coating 92 in the insulated wire 9 on which the mark 5 is formed are inserted into the crimping portion 81 from the rear end portion 84 of the crimping portion 81. The

  And the crimping | compression-bonding part 81 is crimped in the state in which the exposed core part 99 in the insulated wire 9 and the edge part of the insulation coating 92 were inserted in the crimping | compression-bonding part 81. In the crimping step S4, the crimping portion 81 is relatively strongly crimped to the exposed core portion 99 on the contact portion 82 side. On the other hand, on the rear end portion 84 side of the crimping portion 81, the crimping is performed with a force that does not form a gap that can form a liquid intrusion path between the insulating coating 92. Thereby, the crimping | compression-bonding part 81 and the edge part of the insulated wire 9 adhere, and the terminal 8 and the insulated wire 9 are connected. In addition, it is possible that crimping process S4 is performed using a known terminal crimping apparatus, for example.

<Wire manufacturing method with terminals: second acquisition step>
In the terminal-attached electric wire manufacturing method, the second acquisition step S5 is performed after the crimping step. The second acquisition step S5 is a step of acquiring the third distance X3 from the rear end of the crimping portion 81 of the terminal 8 to the mark 5. The third distance X3 is a distance from the edge of the rear end portion 84 of the crimping portion 81 to the mark 5.

  In the present embodiment, similarly to the first acquisition step S3, in the second acquisition step S5, the third distance X3 is acquired by image inspection using the camera 125. In the example illustrated in FIG. 7, the camera 125 captures the insulated wire 9 on which the mark 5 is formed from the side and acquires the third distance X3 from the obtained image. The value of the third distance X3 obtained by the second acquisition step S5 is used in a determination step described later.

  In the first acquisition step S3 and the second acquisition step S5, the first distance X1, the second distance X2, and the third distance X3 may be obtained by using one edge or center portion of the mark 5 as a reference. Conceivable.

<Method for manufacturing electric wire with terminal: determination step>
In the electric wire manufacturing method with a terminal, the determination step is a step of determining the quality of the crimped state between the terminal 8 and the insulated wire 9 based on at least one of the first distance X1 and the second distance X2 and the third distance X3. is there. In the present embodiment, both the first distance X1 and the second distance X2 are acquired in the first acquisition step. Accordingly, here, a case will be described in which the determination step is a step of determining whether the crimping state of the terminal 8 and the insulated wire 9 is good or bad based on the first distance X1, the second distance X2, and the third distance X3. .

  In the present embodiment, the determination process includes steps S6 to S9. In step S6, the value A obtained from the calculation result using the first distance X1, the second distance X2, and the third distance X3 is compared with the reference value B. In step S7, it is determined whether or not the comparison result obtained in step S6 satisfies the good condition of the crimped state between the terminal 8 and the insulated wire 9. When the crimping state between the terminal 8 and the insulated wire 9 satisfies the good condition in step S7, the process proceeds to step S8 where it is determined that the crimped state is good. On the other hand, when the crimping state between the terminal 8 and the insulated wire 9 does not satisfy the good condition (that is, when the crimping state is regarded as defective) at step S7, the crimping state is determined to be defective. The process proceeds to S9.

  That is, in the determination process, the process proceeds to step S8 or step S9 selectively through steps S6 and S7.

  In the following description, the determination step is based on at least one of the first distance X1 and the second distance X2 (both in this example) and the third distance X3, and the end length of the insulated wire 9 inserted into the crimping portion 81. A case will be described in which A (value A) is obtained and the end length A is compared with the reference value B to determine whether the terminal 8 and the insulated wire 9 are in a crimped state.

  The end length A is a value that can be obtained by subtracting the first distance X1 (or the second distance X2) and the third distance X3. Therefore, in other words, in this embodiment, the terminal 8 and the insulated wire 9 are crimped based on the subtraction result of at least one of the first distance X1 and the second distance X2 (both in this example) and the third distance X3. This is an example when the quality of the state is determined.

  Note that, as described above, the present embodiment is an example in which the determination process is performed using both values of the first distance X1 and the second distance X2 in the first acquisition process S3. In this case, for example, the length of the exposed core part 99 inserted into the crimping part 81 of the terminal 8 and the length from the front end of the insulating coating 92 to the rear end of the crimping part 81 of the terminal 8 can be confirmed.

  That is, by subtracting the third distance X3 from the first distance X1, the length of the portion of the insulated wire 9 inserted into the crimping portion 81 of the terminal 8 can be obtained. Further, by subtracting the third distance X3 from the second distance X2, the length of the portion of the insulating coating 92 inserted into the crimping portion 81 of the terminal 8 can be obtained.

  Accordingly, the end length A is a value obtained from the calculation result of the first distance X1 and the third distance X3, or a value obtained from the calculation result of the second distance X2 and the third distance X3. Or the case where both the value obtained by the calculation result of the 1st distance X1 and the 3rd distance X3 and the value obtained by the calculation result of the 2nd distance X2 and the 3rd distance X3 are considered is included.

  In the present embodiment, the end length A includes both the value obtained from the calculation result of the first distance X1 and the third distance X3 and the value obtained from the calculation result of the second distance X2 and the third distance X3. Explain the case. Hereinafter, for convenience, a value obtained from the calculation result of the first distance X1 and the third distance X3 is referred to as an insertion length A1. A value obtained from the calculation result of the second distance X2 and the third distance X3 is referred to as a covering insertion length A2.

  Further, the reference value B used in step S6 in the determination process is sufficiently crimped to the exposed core portion 99 on the contact portion 82 side of the crimping portion 81 and insulated on the rear end portion 84 side of the crimping portion 81. It is a value which shows that it is the electric wire 1 with a terminal crimped | bonded to the coating | coated 92 so that water stop is possible. The reference value B is a value obtained based on, for example, information such as the length of the crimping portion 81 of the terminal 8, the volume of the space in the crimping portion 81, an empirical rule, or an experiment confirming the crimping state. It is possible.

  Hereinafter, for convenience, the reference value for the insertion length A1 is referred to as a reference value B1. The reference value for the covering insertion length A2 is referred to as a reference value B2. That is, in the present embodiment, the reference value B used in step S6 includes two reference values B1 and B2.

  In step S6, the insertion length A1 is compared with the reference value B1. Further, the covering insertion length A2 is compared with the reference value B2.

  In addition, the minimum reference value Blow and the maximum reference value Bhigh may be set as the reference value B. In this case, in the determination step, it is considered that the crimping state is determined to be good when the end length A exceeds the minimum reference value Blow and is less than the maximum reference value Bhigh.

  More specifically, when the minimum reference value B1low and the maximum reference value B1high are set as the reference value B1, the insertion length A1, the minimum reference value B1low, and the maximum reference value B1high are set in step S6. To be compared. Similarly, when the minimum reference value B2low and the maximum reference value B2high are set as the reference value B2, in step S6, the covering insertion length A2, the minimum reference value B2low, and the maximum reference value B2high are set. To be compared.

  In this case, in step S7 subsequent to step S6, for example, as a result of comparing the insertion length A1, the minimum reference value B1low, and the maximum reference value B1high, the insertion length A1 exceeds the minimum reference value Blow and the maximum reference It is conceivable that whether the crimped state is good or bad is determined depending on whether the value is less than the value Bhigh. That is, when the insertion length A1 exceeds the minimum reference value Blow and is less than the maximum reference value Bhigh, the process proceeds to step S8 where the crimping state is good, and otherwise, the step where the crimping state is poor. It is conceivable to shift to S9. A similar process can be considered for the covering insertion length A2, the minimum reference value B2low, and the maximum reference value B2high.

  Here, when the insertion length A1 coincides with the minimum reference value B1low and the maximum reference value B1high, both the case where the crimping state at this time is judged as good or the case where it is judged as defective can be considered. The same applies to the covering insertion length A2, the minimum reference value B2low, and the maximum reference value B2high.

  In the determination step, when the insertion length A1 is compared with the minimum reference value B1low and the maximum reference value B1high, the insertion length A1 is equal to or less than the minimum reference value Blow (or smaller than the minimum reference value Blow). It can be seen that the amount of insertion of the insulated wire 9 is insufficient. That is, it can be seen that the crimping portion 81 is not sufficiently crimped to the exposed core portion 99 on the contact portion 82 side. On the other hand, when the insertion length A1 is equal to or greater than the maximum reference value Bhigh (or larger than the maximum reference value Bhigh), it can be seen that the insertion amount of the insulated wire 9 is excessive. That is, it can be seen that the insulation coating 92 is crimped in an excessively present state in the crimping portion 81. As described above, in this embodiment, in addition to the good or bad crimped state, the insulated wire 9 is inserted excessively in the crimped portion 81 or the inserted amount of the insulated wire 9 is insufficient. Can also be confirmed.

  In the terminal-attached electric wire manufacturing method, in the determination step, the terminal-attached electric wire 1 that has shifted to step S8 is determined to have a good crimped state, and is transferred to the next step such as a packing step or an arrangement step, for example. It is possible.

  In the determination process, when the process proceeds to step S9, a process for warning the operator using sound or light may be included.

<Effect>
In the electric wire manufacturing method with terminal of the present embodiment, at least one of the first distance X1 and the second distance X2 obtained by the first acquisition step S3, the third distance X3 obtained by the second acquisition step S5, Based on the above, a determination process is performed for determining whether the terminal 8 and the insulated wire 9 are in a crimped state. In this case, since the quality of the crimped state between the terminal 8 and the insulated wire 9 is determined by the distance to the mark 5, it is not necessary to provide the mark 5 at an accurate position according to the length of the crimping portion 81 of the terminal 8. It becomes. Therefore, the work of providing the mark 5 can be simplified, and the crimped state between the terminal 8 and the insulated wire 9 can be more easily confirmed.

  In the present embodiment, the determination step compares the end length A of the insulated wire 9 inserted into the crimp portion 81 with the reference value B, thereby determining whether the crimped state of the terminal 8 and the insulated wire 9 is good or bad. It is the process of determining. In this case, the amount of the insulated wire 9 inserted into the crimping portion 81 can be grasped, and the crimped state between the terminal 8 and the insulated wire 9 can be confirmed more accurately.

  In the present embodiment, the minimum reference value Blow and the maximum reference value Bhigh are set as the reference value B. In the determination step, the end length A exceeds the minimum reference value Blow and is less than the maximum reference value Bhigh. In some cases, it is a step of determining that the crimped state is good. In this case, it can further be confirmed that the insulated wire 9 is inserted excessively in the crimping portion 81 or the amount of the insulated wire inserted is insufficient. Therefore, it is possible to more accurately confirm the crimped state between the terminal 8 and the insulated wire 9.

  Moreover, in this embodiment, a determination process is a process of determining the quality of the crimping | compression-bonding state of the terminal 8 and the insulated wire 9 based on 1st distance X1, 2nd distance X2, and 3rd distance X3. In this case, for example, the amount of the core wire 91 and the insulation coating 92 of the insulated wire 9 inserted into the crimping portion 81 of the terminal 8 can be grasped. That is, the position of the tip end of the core wire 91 inserted into the crimping part 81 and the peeled position of the insulating coating 92 can be confirmed. For this reason, it becomes possible to confirm the crimping | compression-bonding state of the terminal 8 and the insulated wire 9 more correctly.

  Further, in the electric wire with terminal 1 of the present embodiment, a predetermined distance (the third distance X3 in this example) is separated from the rear end of the crimping portion 81 of the terminal 8 to the opposite side of the contact portion 82 side of the insulated wire 9. A mark 5 provided only on the portion is formed. In this case, the distance from the mark 5 provided to be exposed from the crimping portion 81 to the rear end of the crimping portion 81, the distance from the end of the core 91 of the insulated wire 9 to the mark 5, and the insulating coating 92 of the insulated wire 9. Based on at least one of the distances from the end to the mark, it is possible to determine whether the terminal 8 and the insulated wire 9 are in a crimped state. Therefore, since the quality of the crimped state between the terminal 8 and the insulated wire 9 is determined by the distance to the mark 5, it is not necessary to provide the mark 5 at an accurate position according to the length of the crimping portion 81 of the terminal 8. Become. For this reason, the operation | work which provides the mark 5 can be simplified and it becomes possible to confirm the crimping state of the terminal 8 and the insulated wire 9 more easily. In addition, in the electric wire manufacturing method with a terminal of this embodiment, the electric wire with a terminal in which the mark 5 exists in the crimping | compression-bonding part 81 may arise.

<Application example>
In step S7 subsequent to step S6, for example, it may be possible to determine whether the crimped state is good or bad depending on whether the insertion length A1 is compared with the reference value B1 or not. In this case, for example, when the insertion length A1 matches the reference value B1, the process proceeds to step S8 where the crimping state is good, and when the insertion length A1 does not match the reference value B1. It can be considered that the process proceeds to step S9 where the crimping state is defective. A similar process can be considered for the covering insertion length A2 and the reference value B2.

  The terminal-attached electric wire and the terminal-attached electric wire manufacturing method according to the present invention can be freely combined within the scope of the invention described in each claim, or the embodiments and application examples described above can be freely combined, or the embodiments and It is also possible to configure the application example by appropriately modifying or omitting a part thereof.

1 Electrical wire with terminal 5 Mark 8 Terminal 81 Crimp part 82 Contact part 84 Rear end part 9 Insulated wire 91 Core wire 92 Insulation coating 99 Exposed core part A End length B Reference value X1 First distance X2 Second distance X3 Third distance

Claims (5)

Removing the insulation coating at the end of the insulated wire and exposing the core wire at the end of the insulated wire; and
A mark setting step for providing a mark on the insulated wire;
The first distance from the tip of the insulated wire to the mark and the tip of the insulation coating of the peeled insulated wire is performed after the skinning step and the mark setting step. A first acquisition step of acquiring at least one of the second distances to the mark;
A crimping step of crimping the crimping portion of the terminal including the cylindrical crimping portion that can be crimped in a state of covering the entire periphery of the end portion of the insulated wire and the end portion of the insulated wire;
A second acquisition step that is performed after the crimping step and acquires a third distance from a rear end of the crimping portion of the terminal to the mark;
A determination method of determining the quality of the crimped state between the terminal and the insulated wire based on at least one of the first distance and the second distance and the third distance. It is a manufacturing method of the electric wire with a terminal according to claim 1,
The determination step obtains a value corresponding to an end length of the electric wire inserted into the crimp portion based on at least one of the first distance and the second distance and the third distance, and the end length A method for manufacturing a terminal-attached electric wire, which is a step of determining whether the terminal and the insulated wire are in a crimped state by comparing the thickness with a reference value. It is a manufacturing method of the electric wire with a terminal according to claim 2,
As the reference value, a minimum reference value and a maximum reference value are set,
The said determination process is an electric wire manufacturing method with a terminal which determines that a crimping | compression-bonding state is favorable when the said edge part length exceeds the said minimum reference value and is less than the said maximum reference value. It is a manufacturing method of the electric wire with a terminal given in any 1 paragraph of Claims 1-3,
The first acquisition step is a step of acquiring both the first distance and the second distance,
The determination step is a method of manufacturing a terminal-attached electric wire, which is a step of determining whether the terminal and the insulated wire are in a crimped state based on the first distance, the second distance, and the third distance. An insulated wire covering the periphery of the core wire and the core wire, and the insulated wire with the core wire exposed at the end;
A terminal including a cylindrical crimping part crimped in a state of covering the entire periphery of the end of the insulated wire and a contact part connectable to the mating member;
A terminal-attached electric wire in which a mark is provided only in a portion of the insulated wire that is a predetermined distance away from the rear end of the crimping portion of the terminal to the side opposite to the contact portion side.

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