JP3201319U - Electric cable assembly - Google Patents

Abstract

An electric wire cable assembly for fixing an electric wire cable to a side wall plate by a simple operation is provided. A pair of clamp pieces (21, 22) sandwiching an electric cable (10) and a fixed region (15) adjacent to a terminal end on the electric cable (10) in an apparatus case (30). The cable pressing portions 21a and 22a pressed against the fixed region 15, the coupling flange portions 21b and 22b that couple the pair of clamp pieces 21 and 22, and the side wall facing flange portions 21c and 22c that face the side wall plate 31, respectively. And a first anti-slip sheet 51 that restricts the slip in the surface direction between the side wall plate 31 and the side wall plate 31 is provided on the surface of the side wall facing flange portions 21c and 22c that faces the side wall plate 31. [Selection] Figure 1

Description

  The present invention relates to an electric cable assembly in which a cable clamp is assembled to an electric cable.

  As an example of a structure for fixing an electric cable inserted through a side wall plate of an apparatus case to a side wall plate, for example, there is one disclosed in Patent Document 1 below.

  The structure disclosed in Patent Document 1 is a structure in which a grommet into which an electric wire cable (wire harness) is inserted is screwed to a side wall plate of an apparatus case with a bracket, and the side wall plate has a cable through which the electric wire cable is inserted. In addition to the insertion hole, a bracket mounting hole for screwing the bracket is formed.

JP-A-7-29442

  However, in the wire cable fixing structure described in Patent Document 1, in order to screw the bracket to the side wall plate of the device case, a mounting hole for fixing the bracket must be formed in the side wall plate of the device case. In addition, when screwing the bracket to the side wall plate of the device case, it is necessary to hold down the screw parts from both the front side and the back side of the side wall plate, and the fixing work of the electric cable to the side wall plate is troublesome. There is a problem. In particular, the device case is provided with a large number of devices or the like to which the electric cable is connected, and when the gap between the inside of the device case and the bracket is small, it is difficult to perform the screwing operation. In addition, since the wire cable (wire harness) in the grommet is not gripped by the grommet or bracket and is not fixed to the side wall plate, when pulling force due to its own weight or vibration is applied to the wire cable, There exists a possibility that an electric wire cable may move with respect to a side wall board.

  Then, an object of this invention is to provide the electric wire cable assembly which can make the side wall board support the electric wire cable penetrated by the side wall board by simple operation | work.

An electric cable assembly as one aspect of the device for achieving the above object is
An electric wire cable having a terminal portion connected to a connection terminal disposed on one side of the side wall plate;
A fixed range in the length direction on the electric wire cable, which is inserted into a cable insertion hole formed through the side wall plate and enters one side of the side wall plate, and which is adjacent to the terminal portion is held. A cable clamp to
With
The cable clamp has a pair of clamp pieces that sandwich the fixed area,
Each of the pair of clamp pieces includes a cable pressing portion pressed against an outer peripheral surface of the fixed region, a coupling flange portion that extends to the cable pressing portion and connects the pair of clamp pieces, A side wall-facing flange portion that is integrally formed on the side wall plate side edge of the cable pressing portion and the coupling flange portion, and that faces the one side surface of the side wall plate;
The surface of the side wall facing flange portion that faces the side wall plate has a non-slip member that regulates the slip in the surface direction between the side wall facing flange portion and the side wall plate when contacting the side wall plate. Provided,
It is characterized by that.

In the electric cable assembly, the electric cable is inserted from the other side of the side wall plate to the one side through a cable insertion hole formed through the side wall plate without attaching the cable clamp. Thereafter, a cable clamp is attached to a fixed region that is a fixed range in the length direction on the electric wire cable that has entered one side of the side wall plate, thereby completing a completed form of the electric wire cable assembly.
In the completed form of the cable assembly, when the first non-slip member provided on the side wall facing flange portion of each clamp piece is disposed in the state of being close to the peripheral edge of the cable insertion hole, it is led out of the device case. Due to the weight of the electric cable, the entire cable clamp is pulled together with the electric cable toward the side wall plate, and the anti-slip member comes into contact with the inner surface of the side wall plate. At this time, the own weight of the electric cable led out to the outside of the device case acts as a biasing force that presses the anti-slip member against the inner surface of the side wall plate. And since the anti-slip member abutting on the side wall plate regulates the slip in the surface direction between the side wall facing flange portion and the side wall plate, the state where the electric cable held by the cable clamp is substantially fixed to the side wall plate become.

  That is, in the electric wire cable assembly, if the cable clamp is attached to the electric wire cable inserted into the cable insertion hole of the side wall plate of the device case to complete the electric wire cable assembly, the electric wire cable assembly is supported thereafter. A state in which the electric cable is almost fixed to the side wall plate, in other words, a state supported by the side wall plate, is obtained by simply releasing the hand, and the work of screwing to the side wall plate is also the work of forming the mounting hole in the side wall plate Is not required. Therefore, the electric wire cable inserted through the side wall plate of the device case can be supported on the side wall plate by a simple operation. Thereby, even when a pulling force due to its own weight or vibration is applied to the electric cable, since the electric cable is gripped by the cable clamp, the electric cable can be prevented from moving with respect to the side wall plate. It is possible to prevent the connection terminal from being pulled out by the movement of the electric cable. Further, as described above, since the electric cable assembly can be supported on the side wall plate without screwing, the electric cable assembly can be easily attached and detached during maintenance.

  Here, in the electric wire cable assembly, the surface of the cable pressing portion corresponding to the electric wire cable is in contact with the outer peripheral surface of the fixed area and regulates the slip between the fixed area. A stop member may be provided.

  In the electric cable assembly, the anti-slip member provided in the cable pressing portion of each clamp piece restricts the electric cable from slipping, and the cable clamp can hold the electric cable more firmly. In other words, the cable clamp is firmly fixed to the electric cable, and the urging force acting by the own weight of the electric cable led out to the outside of the device case is transmitted to the cable clamp without waste, and the side wall facing flange It becomes possible to strongly press the anti-slip member mounted on the portion against the side wall plate, and to improve the fixing strength of the electric cable.

  In any one of the above-described wire cable assemblies, a sheet-like elastic member may be provided on a surface of the coupling flange portion that faces the coupling flange portion of the counterpart clamp piece.

  In any one of the above-described cable assembly, the anti-slip member and the elastic member may be a sheet-like rubber.

  In the electric wire cable assembly, since the anti-slip member is a sheet-like rubber, the anti-slip member exerts a buffering action and a vibration damping action, so that the electric wire cable is prevented from an impact or vibration transmitted from the outside to the side wall plate of the device case. The damage received can be reduced.

  Further, in any one of the above-described electric wire cable assemblies, a screw insertion hole through which a screw portion of a male screw member is inserted is formed through the coupling flange portion of one of the pair of clamp pieces. The coupling flange portion of the other clamp piece may be formed with a female screw portion capable of screwing the screw portion of the male screw member inserted through the screw insertion hole of the one clamp piece.

  In the electric cable assembly, the pair of clamp pieces are arranged opposite to each other with the fixed area of the electric cable interposed therebetween, and then the fixed area of the electric cable is fixed by screwing the coupling flange portions of each other. Combined with the pinched state. And when screwing together the coupling flange parts, since one female flange part is formed in one coupling flange part, it is not necessary to use a separate nut and facilitates the screwing operation. be able to.

  In any of the above-described cable assembly, the connection terminal may be housed inside and an apparatus case having the side wall plate may be provided.

  In the said electric wire cable assembly, the operation | work in an apparatus case at the time of supporting an electric wire cable on a side wall wall can be simplified.

  According to the present invention, the electric wire cable inserted through the side wall plate of the device case can be supported on the side wall plate by a simple operation.

It is a disassembled perspective view of the electric wire cable assembly in 1st embodiment which concerns on this invention. It is a front view of the cable clamp used for the electric wire cable assembly in 1st embodiment which concerns on this invention. It is a side view of the cable clamp shown in FIG. It is a side view of the state where the electric wire cable assembly in a first embodiment concerning the present invention was attached to the device case. It is a perspective view of the electric wire cable assembly in 2nd embodiment which concerns on this invention. It is a front view of the cable clamp used for the electric wire cable assembly in 2nd embodiment which concerns on a device. It is a side view of the cable clamp shown in FIG.

  Hereinafter, various embodiments of an electric cable assembly according to the present invention will be described in detail with reference to the drawings.

"First embodiment"
First, a first embodiment of an electric cable assembly according to the present invention will be described with reference to FIGS.

  As shown in FIG. 1, the electric cable assembly M of the present embodiment includes an electric cable 10 and a cable clamp 20 that is assembled to the electric cable 10.

  The electric cable 10 is a bundle of a plurality of electric wires. Terminal portions of a plurality of electric wires constituting the electric cable 10 are connected to connection terminals (not shown) in the device case 30 shown in FIG.

  The device case 30 is a housing that houses various devices including connection terminals to which the electric cable 10 is connected. The device case 30 has a box-type structure with an open top in order to perform a cable connection operation to a connection terminal accommodated therein. A cable insertion hole 32 through which the electric wire cable 10 is inserted is formed through one side wall plate 31 of the device case 30.

  The part inserted into the device case 30 of the electric cable 10 is processed into a structure in which a plurality of covered electric wires 10 a are bundled with the tape 11. The electric wire cable 10 has a substantially circular cross-sectional shape by bundling a plurality of covered electric wires 10a with a tape 11. Moreover, the terminal part side of the electric wire cable 10 inserted in the apparatus case 30 is divided into a plurality of groups g1, g2, g3. The flexible tube 13 is put on the range of the electric wire cable 10 led out to the outside of the device case 30. Although not shown in the present embodiment, a screw connector, which is a terminal fitting of the flexible tube, is connected to the end 13a of the flexible tube 13 located near the cable insertion hole 32.

  The cable clamp 20 grips the fixed region 15 on the electric cable 10 that has been inserted into the cable insertion hole 32 formed through the side wall plate 31 of the device case 30 and entered the device case 30. The fixed area 15 is an area adjacent to the terminal portion of the electric cable 10 on the electric cable 10 located in the device case 30 and gripped by the cable clamp 20, and is a certain range in the length direction of the electric cable 10. It is.

As shown in FIG. 1, the cable clamp 20 includes a pair of clamp pieces 21 and 22 that sandwich the fixed region 15.
The pair of clamp pieces 21 and 22 have cable pressing portions 21a and 22a, coupling flange portions 21b and 22b, and side wall facing flange portions 21c and 22c, respectively.

  The cable pressing portions 21 a and 22 a are portions that are pressed against the outer peripheral surface of the fixed region 15. As shown in FIG. 2, each cable pressing portion 21a, 22a is curved and formed into an arc shape when viewed from the front.

  The coupling flange portions 21 b and 22 b are flange portions for coupling the pair of clamp pieces 21 and 22 to each other so that the pair of cable pressing portions 21 a and 22 a sandwich the fixed region 15. As shown in FIG. 2, each coupling flange part 21b, 22b is extended on both sides of each cable pressing part 21a, 22a. Further, as shown in FIG. 4, the coupling flange portions 21 b and 22 b are provided to face each other when the pair of cable pressing portions 21 a and 22 a sandwich the fixed region 15.

  In the case of the present embodiment, as shown in FIG. 2, a screw insertion hole through which the screw portion 41 a of the male screw member 41 is inserted into the coupling flange portion 21 b of one clamp piece 21 of the pair of clamp pieces 21 and 22. 212 is formed through. Further, the coupling flange portion 22b of the other clamp piece 22 is formed with a female screw portion 222 through which the screw portion 41a of the male screw member 41 inserted through the screw insertion hole 212 of the one clamp piece 21 can be screwed. ing.

  The pair of clamp pieces 21 and 22 in the present embodiment are coupled to each other by the male screw member 41. First, as shown in FIG. 2, one clamp piece 21 and the other clamp piece 22 are placed opposite to each other. Next, the screw portion 41a of the male screw member 41 is inserted into the screw insertion hole 212 of the coupling flange portion 21b of one clamp piece 21, and the screw portion 41a is inserted into the coupling flange portion 22b of the other clamp piece 22 as shown in FIG. By screwing with the female thread portion 222, the coupling between the pair of clamp pieces 21 and 22 is completed. When the pair of clamp pieces 21 and 22 are coupled to each other, the screw portion 41a is inserted into the screw insertion hole 212 of the coupling flange portion 21b of one clamp piece 21 and is loosened to the screw portion 41a to be screwed into the female screw portion 222. You may screw a prevention nut. In this case, the screw portion 41a is inserted into the screw insertion hole 212 of the coupling flange portion 21b and screwed into the female screw portion 222, and then the loosening prevention nut is screwed to prevent the male screw member 41 from loosening.

As shown in FIG. 4, the side wall facing flange portions 21 c and 22 c are arranged so that the cable pressing portions 21 a and 22 c face the peripheral portion of the cable insertion hole 32 when the cable pressing portions 21 a and 22 a are attached to the fixed region 15. 22a and the connecting flange portions 21b and 22b are erected on the side wall 31 side edge.
As shown in FIGS. 2 and 3, the side wall facing flange portion 21c is connected to the cable pressing portion 21a and the coupling flange portion 21b. Moreover, as shown in FIG.2 and FIG.3, the side wall opposing flange part 22c is connected with the cable pressing part 22a and the coupling flange part 22b.

  In the case of this embodiment, as shown in FIG.3 and FIG.4, the 1st anti-slip sheet | seat 51 which is a 1st anti-slip | skid member is shown in the surface facing the side wall board 31 of each side wall opposing flange part 21c, 22c. Is provided. The first anti-slip sheet 51 is a rubber sheet adhered to the surface of each of the side wall facing flange portions 21c and 22c that faces the side wall plate 31. As a rubber sheet used as the first non-slip sheet 51, for example, a synthetic rubber sheet such as a nitrile rubber sheet or a chloroprene rubber sheet can be used. When the first anti-slip sheet 51 abuts against the side wall plate 31 as shown in FIG. 4, the slip in the surface direction between the side wall facing flange portions 21 c and 22 c and the side wall plate 31 is restricted. Further, the first anti-slip sheet 51 exhibits a buffering action for reducing an impact transmitted from the side wall plate 31 by an elastic force possessed, and has a vibration damping action for attenuating the vibration transmitted from the side wall plate 31. Demonstrate.

  In the case of the present embodiment, as shown in FIGS. 1 and 2, a second non-slip sheet 52 that is a second anti-slip member is provided on the surface of the cable holding portions 21 a and 22 a on the side of the electric cable 10. Is provided. The second anti-slip sheet 52 is a rubber sheet adhered to the surface of the cable pressing portions 21a and 22a on the electric cable 10 side. As the rubber sheet to be the second anti-slip sheet 52, for example, a synthetic rubber sheet such as a nitrile rubber sheet or a chloroprene rubber sheet can be used. The second anti-slip sheet 52 is in contact with the outer peripheral surface of the fixed area 15 and restricts the slip between the fixed area 15 and the fixed area 15. Further, the second anti-slip sheet 52 exhibits a buffering action for relaxing the impact transmitted from the pair of clamp pieces 21 and 22 to the fixed region 15 by the elastic force held, and the pair of clamp pieces 21 and 22 The vibration attenuating action for attenuating the vibration transmitted from 22 to the fixed region 15 is exhibited. The second anti-slip sheet 52 and the electric wire cable 10 exert an elastic force in a direction away from each other between the coupling flange portions 21b and 22b fastened by the male screw member 41, thereby loosening the male screw member 41. To prevent. In addition, as described above, it is possible to improve the effect of preventing loosening by using the loosening prevention nut.

Next, an operation procedure when attaching the electric cable assembly M in the present embodiment to the side wall plate 31 of the device case 30 will be described.
First, in the electric wire cable assembly M of the present embodiment, as shown in FIG. 1, the electric wire cable 10 has a cable insertion hole 32 formed through the side wall plate 31 of the device case 30 without the cable clamp 20 attached. To be inserted. Thereafter, the cable clamp 20 is attached to the fixed region 15 on the electric wire cable 10 that has entered the device case 30, whereby the electric wire cable assembly M is completed.

  As shown in FIG. 1, the cable clamp 20 is attached to the fixed region 15 by attaching the cable pressing portion 22 a of the clamp piece 22 having the female threaded portion 222 to the coupling flange portion 22 b to the lower side of the fixed region 15. To place. Further, on the upper side of the fixed region 15, a cable pressing portion 21a of the clamp piece 21 in which a screw insertion hole 212 is formed in the coupling flange portion 21b is disposed. Then, the opposing coupling flange portions 21 b and 22 b are coupled by the male screw member 41. When the pair of clamp pieces 21 and 22 are coupled to each other by the male screw member 41, the second non-slip sheet 52 provided in each of the cable pressing portions 21a and 22a is in close contact with the surface of the fixed region 15 in a compressed state. Then, the male screw member 41 is tightened.

  When the pair of clamp pieces 21, 22 are coupled by the male screw member 41, the second non-slip sheet 52 is in close contact with the surface of the fixed region 15, so that the space between the fixed region 15 and the cable clamp 20 is The coupled state is a coupled state in which no slip occurs in either the longitudinal direction (the arrow X1 direction in FIG. 4) or the circumferential direction (the arrow R1 direction in FIG. 4) of the electric cable 10.

  When the pair of clamp pieces 21 and 22 are coupled by the male screw member 41, as shown in FIG. 1, since the upper portion of the device case 30 is opened, the mounting operation of the male screw member 41 is easy from the upper portion. Can be done.

  In the completed form of the cable assembly M, when the first anti-slip sheet 51 provided on the side wall facing flange portions 21c and 22c of the clamp pieces 21 and 22 is disposed in a state of being close to the peripheral edge of the cable insertion hole 32, The entire cable clamp 20 is pulled toward the side wall plate 31 together with the electric wire cable 10 by the own weight of the electric wire cable 10 led out of the device case 30, and as shown in FIG. Is in contact with the inner surface of the side wall plate 31. At this time, the own weight of the electric cable 10 led out of the device case 30 works as an urging force in a pulling direction that presses the first anti-slip sheet 51 against the inner surface of the side wall plate 31. An arrow Y1 in FIG. 4 indicates the direction of the urging force in the pulling direction generated by the weight of the electric cable 10.

  And since the 1st non-slip sheet | seat 51 which contact | abutted to the side wall board 31 regulates the slip of the surface direction between the side wall opposing flange parts 21c and 22c and the side wall board 31, it is the electric wire cable currently hold | gripped by the cable clamp 20 10 is substantially fixed to the side wall plate 31, and the electric cable 10 is supported by the side wall plate 31.

  In the electric cable assembly M of the first embodiment described above, the cable clamp 20 is attached to the electric cable 10 inserted through the cable insertion hole 32 of the side wall plate 31 of the device case 30 to complete the electric cable assembly M. Then, the state where the electric wire cable 10 is supported on the side wall plate 31 of the device case 30 can be obtained only by releasing the hand that has supported the electric wire cable assembly M, and the operation of screwing the side wall plate 31 to the side wall plate 31 is performed. Moreover, the operation | work which forms an attachment hole in the side wall board 31 is also unnecessary. Therefore, the electric wire cable 10 inserted through the side wall plate 31 of the device case 30 can be supported on the side wall plate 31 by a simple operation. Thereby, even if it is a case where the clearance gap between the inner side of the apparatus case 30 and the cable clamp 20 is small, and an operation | work is difficult, the attachment operation | work of the electric wire cable assembly M can be performed easily.

  Moreover, in the electric wire cable assembly M of the present embodiment, the cable holding portions 21a and 22a of the clamp pieces 21 and 22 are provided with the second anti-slip sheet 52 as the second anti-slip member, and this second slip. The stop sheet 52 regulates the sliding of the electric cable 10. Therefore, the cable clamp 20 can grip the electric cable 10 more firmly. In other words, the cable clamp 20 is firmly fixed to the electric cable 10, and the urging force Y1 acting by the own weight of the electric cable 10 led out of the device case 30 is transmitted to the cable clamp 20 without waste. And it becomes possible to press the 1st non-slip sheet | seat 51 with which the cable clamp 20 is equipped to the side wall board 31 strongly, and the fixed strength of the electric wire cable 10 can be improved.

  Moreover, in the electric wire cable assembly M of this embodiment, since the 1st non-slip sheet | seat 51 is a sheet | seat made from an elastic material, the 1st non-slip | seat sheet | seat 51 exhibits a buffering effect and a vibration damping action, and it is an apparatus from the outside. It is possible to reduce the damage that the electric cable 10 receives from the impact and vibration transmitted to the side wall plate 31 of the case 30.

  Moreover, in the electric wire cable assembly M of this embodiment, since the 2nd anti-slip sheet | seat 52 which is a 2nd anti-slip | skid member is a sheet | seat made from an elastic material, the 2nd anti-slip sheet | seat 52 has a buffering effect and a vibration damping action. It is possible to reduce the damage that the cable 10 receives from the impact and vibration transmitted to the clamp pieces 21 and 22 from the outside.

  Further, in the electric wire cable assembly M of the present embodiment, the pair of clamp pieces 21 and 22 are arranged opposite to each other with the fixed region 15 of the electric wire cable 10 interposed therebetween, and then the coupling flange portions 21b and 22b are mutually connected. Is fixed to the state in which the fixed region 15 of the electric cable 10 is sandwiched. When the coupling flange portions 21b and 22b are screwed to each other, one coupling flange portion 22b is formed with the female thread portion 222, so there is no need to use a separate nut, and the device case Even when the gap between the inner side of the cable 30 and the cable clamp 20 is small and the operation is difficult, the screwing operation can be facilitated from the upper portion where the opening of the device case 30 is present.

"Second embodiment"
Next, 2nd embodiment of the electric wire cable assembly which concerns on this invention is described with reference to FIGS.

  The electric wire cable assembly M1 of this embodiment is obtained by attaching an elastic sheet 53 as an elastic member to the coupling flange portions 21b and 22b of the pair of clamp pieces 21 and 22 in the first embodiment.

  The elastic sheet 53 is a rubber sheet that is adhered to the surface of the coupling flange portions 21b and 22b that faces the mating side. As a rubber sheet used as the elastic sheet 53, for example, a synthetic rubber sheet such as a nitrile rubber sheet or a chloroprene rubber sheet can be used. The elastic sheet 53 provided in each of the coupling flange portions 21b and 22b has a plate thickness dimension so as not to impair the adhesion between the second non-slip sheet 52 and the fixed region 15. As shown in FIG. 5, the elastic sheets 53 provided in the respective coupling flange portions 21b and 22b are in close contact with each other, thereby restricting slippage in the surface direction between the coupling flange portions 21b and 22b. In addition, the elastic sheets 53 provided in the respective coupling flange portions 21b and 22b are in close contact with each other and in a properly compressed state, the coupling flange portions 21b and 22b fastened by the male screw member 41. An elastic force in a direction away from each other is applied between the male screw member 41 and the male screw member 41 is prevented from loosening.

  The wire cable assembly M1 of the present embodiment may have the same configuration as the wire cable assembly M of the first embodiment except for the point that the elastic sheet 53 is provided on the coupling flange portions 21b and 22b. Descriptions are omitted by assigning common numbers to those in the first embodiment.

  In FIG. 5, reference numeral 61 denotes a connection terminal of a device disposed in the device case 30. The terminal portion of the covered electric wire 10 a of the electric cable 10 is connected to the connection terminal 61.

In the electric cable assembly M1 of the second embodiment, the following operational effects can be obtained in addition to the operational effects of the first embodiment.
That is, the elastic sheet 53 is provided between the coupling flange portions 21b and 22b fastened by the male screw member 41, and the elastic sheets 53 are brought into close contact with each other when the coupling flange portions 21b and 22b are screwed together. A slip in the surface direction between the coupling flange portions 21b and 22b can be prevented. Further, if the elastic sheet 53 is compressed by fastening the male screw member 41, an elastic force in a direction away from each other acts between the coupling flange portions 21b and 22b, thereby preventing the male screw member 41 from loosening. Can do.

In addition, the electric wire cable assembly concerning this invention is not limited to each embodiment mentioned above, A suitable deformation | transformation, improvement, etc. are possible in the range which does not deviate from the main point of this invention.
For example, the electric cable is not limited to a round cable. The material of the first anti-slip member and the second anti-slip member is not limited to nitrile rubber or chloroprene rubber. Various synthetic rubber sheets having viscosity and elasticity, more preferably heat resistance, can be used.

  10: Electric cable, 15: Fastened area, 20: Cable clamp, 21: Clamp piece, 21a: Cable holding part, 21b: Connecting flange part, 21c: Side wall facing flange part, 22: Clamp piece, 22a: Cable holding part 22b: coupling flange portion, 22c: side wall facing flange portion, 30: device case, 31: side wall plate, 32: cable insertion hole, 41: male screw member, 41a: screw portion, 51: first anti-slip sheet (first Non-slip member), 52: Second anti-slip sheet (second anti-slip member), 53: Elastic sheet (elastic member), 212: Screw insertion hole, 222: Female screw part, M: Electric cable assembly

Claims (7)

An electric wire cable having a terminal portion connected to a connection terminal disposed on one side of the side wall plate;
A fixed range in the length direction on the electric wire cable, which is inserted into a cable insertion hole formed through the side wall plate and enters one side of the side wall plate, and which is adjacent to the terminal portion is held. A cable clamp to
With
The cable clamp has a pair of clamp pieces that sandwich the fixed area,
Each of the pair of clamp pieces includes a cable pressing portion pressed against an outer peripheral surface of the fixed region, a coupling flange portion that extends to the cable pressing portion and connects the pair of clamp pieces, A side wall-facing flange portion that is integrally formed on the side wall plate side edge of the cable pressing portion and the coupling flange portion, and that faces the one side surface of the side wall plate;
The surface of the side wall facing flange portion that faces the side wall plate has a non-slip member that regulates the slip in the surface direction between the side wall facing flange portion and the side wall plate when contacting the side wall plate. Provided,
An electric cable assembly characterized by that. The electric cable assembly according to claim 1,
The surface of the cable pressing portion corresponding to the electric wire cable is provided with a non-slip member that contacts the outer peripheral surface of the fixed area and restricts slippage between the fixed area,
An electric cable assembly characterized by that. The electric cable assembly according to claim 1 or 2,
A sheet-like elastic member is provided on a surface of the coupling flange portion that faces the coupling flange portion of the counterpart clamping piece.
An electric cable assembly characterized by that. The electric cable assembly according to claim 3,
The elastic member is a sheet-like rubber.
An electric cable assembly characterized by that. In the electric wire cable assembly according to any one of claims 1 to 4,
The non-slip member is a sheet-like rubber.
An electric cable assembly characterized by that. In the electric wire cable assembly according to any one of claims 1 to 5,
Of the pair of clamp pieces, the coupling flange portion of one clamp piece is formed with a thread insertion hole through which a screw portion of a male screw member is inserted, and the coupling flange portion of the other clamp piece has the above-mentioned A female screw portion is formed to which the screw portion of the male screw member inserted through the screw insertion hole of one clamp piece can be screwed.
An electric cable assembly characterized by that. In the electric wire cable assembly according to any one of claims 1 to 6,
The connection terminal is housed inside, and includes a device case having the side wall plate,
An electric cable assembly characterized by that.

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