JP2018041567A - connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a connector capable of suppressing increase of holes or recesses in the connector body.SOLUTION: A left side suppression part 50 is formed in the left sidewall 20 of the case 12 of a connector 10, and the left side engagement surface 64 of the left side engagement part 62 of a front component 40 abuts on the left side abutment surface 52 of the left side suppression part 50. A right side suppression part 54 is formed in the right sidewall 22 of the case 12, and the right side engagement surface 68 of the right side engagement part 66 of the front component 40 abuts on the right side abutment surface 56 of the right side suppression part 54. With such an arrangement, displacement to the front side of the front component 40 for the case 12 can be suppressed.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a connector in which an arrangement component is arranged on a connector body.

  Arranged parts called front parts, front holders, front blocks and the like are arranged on a connector body such as a case constituting the connector, for example. In such a connector body, for example, a hole or a recess is formed, and a protrusion formed on the placement component enters such a hole or recess, thereby suppressing displacement of the placement component relative to the connector body ( As an example, see Patent Document 1 below).

  By the way, the structure of the mold for forming the connector body becomes more complicated as the number of holes and recesses as described above increases.

JP 2007-324050 A

  In view of the above fact, an object of the present invention is to obtain a connector that can suppress an increase in holes and recesses in a connector body.

  The connector according to claim 1, a connector main body having a wall portion extending toward the extending direction orthogonal to the thickness direction and the height direction, and an arrangement component disposed on one side of the wall portion in the thickness direction. , Provided on one side in the thickness direction of the wall portion, and the arrangement component is engaged in a state where the arrangement component is arranged on one side in the thickness direction of the wall portion, to one side in the extending direction of the wall portion. Suppression means for suppressing displacement of the arranged component with respect to the connector main body.

  According to the connector of the first aspect, the arrangement component arranged on one side in the thickness direction of the wall portion of the connector main body is engaged with the suppressing means. As a result, the arrangement component is suppressed from being displaced toward the one side in the extending direction of the wall portion.

  Here, the suppression means is provided on one side in the thickness direction of the wall portion of the connector main body. For this reason, it can suppress that the hole part, recessed part, etc. which were opened to the thickness direction of the wall part in a wall part increase. Thereby, it can suppress that the type | mold structure for forming a connector main body becomes complicated.

  The connector according to claim 2 is the connector according to claim 1, wherein the disposition component is engaged with the restraining means, and the displacement of the wall portion with respect to the connector main body in the thickness direction is one side. It is suppressed by the suppression means.

  According to the connector of the second aspect, the displacement of the arrangement component in the thickness direction of the wall portion with respect to the connector main body is suppressed by the suppression unit in the engaged state with the suppression unit. For this reason, it can suppress providing a structure different from the suppression means for suppressing the displacement of the arrangement | positioning components to the one side of a wall part.

  The connector according to claim 3 is the connector according to claim 2, wherein the restraining means has a slope facing the other side in the thickness direction of the wall portion with respect to the other side in the extending direction of the wall portion. The arrangement component can be brought into contact with the inclined surface while being engaged with the restraining means.

  According to the connector of the third aspect, the restraining means has an inclined surface facing the other side in the thickness direction of the wall portion with respect to the other side in the extending direction of the wall portion, and the arranged component is engaged with the restraining means. In this state, it is possible to contact the inclined surface of the suppressing means. Therefore, when the arrangement component is brought into contact with the inclined surface of the suppressing means, the displacement of the arrangement portion to the one side in the extending direction and the one side in the thickness direction with respect to the connector main body can be suppressed.

  The connector according to claim 4 is the connector according to any one of claims 1 to 3, wherein the placement component is linearly moved from one side in a height direction of the wall portion to thereby form the wall. It is arranged on one side in the thickness direction of the part.

  According to the connector of the fourth aspect, the arrangement component is linearly moved from one side in the height direction of the wall portion of the connector main body and arranged on one side in the thickness direction of the wall portion. For this reason, the one-way assembly | attachment of the arrangement | positioning components with respect to a connector main body is attained, and the assembly | attachment of the arrangement | positioning components with respect to a connector main body becomes easy.

  The connector according to claim 5 is the connector according to claim 4, wherein the connector is provided on one of the facing part and the wall part of the placement part, and the facing part of the placement part facing the wall part. And a hole opened to the other side of the wall, and provided on the other, approached to the hole from one side in the height direction of the wall, and the placement component is one in the thickness direction of the wall. A protrusion that is opposed to the hole by being arranged on the side, and that suppresses displacement of the arrangement part in the height direction of the wall relative to the connector main body by entering the hole. ing.

  According to the connector of the fifth aspect, the hole provided in one of the wall part and the facing part of the arrangement part is provided in the hole part provided in one of the wall part and the other part of the wall part and the other part of the wall part. When the protrusion enters, the displacement of the arranged part in the height direction of the wall part with respect to the connector main body is suppressed.

  Here, the projecting part is opposed to the hole part by approaching the hole part from one side in the height direction of the wall part and arranging the arranged component on one side in the thickness direction of the wall part. As a result, the protrusion can enter the hole. For this reason, in the state where the arrangement component is arranged on one side in the thickness direction of the wall portion of the connector main body, not only the displacement of the arrangement component in the extending direction side of the wall portion with respect to the connector main body but also the height direction side of the wall portion The displacement to can also be suppressed.

  As described above, in the connector according to the present invention, an increase in holes and recesses in the connector body can be suppressed.

It is the disassembled perspective view which looked at the connector which concerns on one embodiment of this invention from the lower side. (A) is a bottom view of the front part, and (B) is a bottom view of the case. It is the side view which looked at the case and the front component from the left side.

  Next, a female connector 10 which is an aspect of the connector according to one embodiment of the present invention will be described with reference to FIGS. In each figure, the arrow UP indicates the upper side of the connector 10, and the arrow DW indicates the lower side of the connector 10. An arrow FR indicates the front side of the connector 10, and an arrow RE indicates the rear side of the connector 10. Further, the arrow LF indicates the left side of the connector 10, and the arrow RT indicates the right side of the connector 10. In addition, these directions are for the sake of convenience for describing the present embodiment, and for example, do not necessarily coincide with each direction in a vehicle, various devices, or the like to which the connector 10 is applied.

  As shown in FIGS. 1 to 3, the connector 10 includes a case 12 as a connector body. The case 12 is formed by integral molding with a synthetic resin material. The case 12 includes a back plate 14. The back plate 14 is formed in a plate shape, and the thickness direction of the back plate 14 is the front-rear direction (the arrow FR direction and the arrow RE direction in each figure). As shown in FIGS. 1 and 2B, a rear terminal arrangement portion 16 is provided on the front side of the back plate 14. The rear terminal arrangement portion 16 is formed continuously from the back plate 14. The rear terminal arrangement portion 16 is formed in a block shape.

  As shown in FIG. 1, a plurality of rear lower terminals are provided below the middle part of the rear terminal arrangement portion 16 of the case 12 in the vertical direction (arrow UP direction and arrow DW direction in FIGS. 1 and 3). An arrangement hole 18 is formed. These rear lower terminal arrangement holes 18 are formed in a line in the left and right direction (arrow LF direction and arrow RT direction in FIGS. 1 and 2) in the rear terminal arrangement portion 16.

  Further, a plurality of rear upper terminal arrangement holes (not shown) are formed above the intermediate portion in the vertical direction of the rear terminal arrangement portion 16 of the case 12. The rear upper terminal arrangement holes are respectively formed on the left side and the right side of the middle part in the left-right direction of the rear terminal arrangement part 16, and a plurality of rear upper terminal arrangement holes on the left side of the rear terminal arrangement part 16 and A plurality of rear upper terminal arrangement holes in the right side portion of the rear terminal arrangement section 16 are formed in a line in the left-right direction.

  Each of the rear lower terminal arrangement hole 18 and the rear upper terminal arrangement hole of the case 12 penetrates the back plate 14 and the rear terminal arrangement portion 16 of the case 12 in the front-rear direction (the arrow FR direction and the arrow RE direction in each figure). The front end of each of the rear lower terminal arrangement hole 18 and the rear upper terminal arrangement hole is opened at the front side of the rear terminal arrangement portion 16, and the rear lower terminal arrangement hole 18 and the rear upper terminal are opened. The rear end of the arrangement hole is opened at the rear side surface of the case 12. Terminals (not shown) are provided in all or part of these rear lower terminal arrangement holes 18 and rear upper terminal arrangement holes.

  The terminal is, for example, a conductive member such as a metal piece obtained by plating a copper alloy with tin or gold. The longitudinal direction of the terminal is along the front-rear direction (arrow FR direction and arrow RE direction in each figure). Moreover, the front side part from the longitudinal direction intermediate part of a terminal is made into the cylindrical shape, and the front-back direction both ends in the cylindrical part of this terminal are opened. On the other hand, a long cord-like cord (not shown) is connected to the rear portion of the terminal in the longitudinal direction.

  The cord includes an electric wire. For example, the electric wire is formed by twisting a plurality of string-like or thread-like fine metal wires and is covered with an insulating covering member such as a synthetic resin material. At the longitudinal tip of the cord, the longitudinal tip of the electric wire extends from the longitudinal tip of the covering member, and the longitudinal tip of the wire is brought into contact with the rear side portion of the terminal. By crimping the rear portion of the terminal, the rear portion of the terminal and the electric wire of the cord are mechanically and electrically connected. The longitudinal base end side of the cord extends from the rear lower terminal arrangement hole 18 of the rear terminal arrangement portion 16 of the case 12 and the rear end of the rear upper terminal arrangement hole to the outside of the case 12.

  On the other hand, as shown in FIG. 1 and FIG. 2 (B), on the front side of the rear terminal arrangement portion 16 of the case 12, a left wall portion 20 as a wall portion and a right wall portion 22 as a wall portion are provided. ing. The left side wall portion 20 extends from the left end of the front side surface of the rear terminal arrangement portion 16 to the front side, and the right side wall portion 22 extends from the right end of the front side surface of the rear terminal arrangement portion 16 to the front side. The height direction of the left side wall part 20 and the right side wall part 22 is the vertical direction (the arrow UP direction and the arrow DW direction in FIGS. 1 and 3). Moreover, the thickness direction of the left side wall part 20 and the right side wall part 22 is set to the left-right direction (arrow LF direction and arrow RT direction of FIG.1 and FIG.2), and the left side wall part 20 and the right side wall part 22 are left-right direction. It is opposed to.

  Further, as shown in FIG. 2B, an upper plate portion 24 is provided on the front side of the rear terminal arrangement portion 16 of the case 12. The upper plate portion 24 extends from the lower end of the front side surface of the rear terminal arrangement portion 16 to the front side. The left end of the upper plate portion 24 is connected to the upper end of the left wall portion 20 of the case 12, and the right end of the upper plate portion 24 is connected to the upper end of the right wall portion 22 of the case 12.

  For this reason, a space opened downward is formed on the front side of the rear terminal arrangement portion 16 in the case 12. This space is a retainer arrangement part 26, and a retainer (not shown) is arranged in the retainer arrangement part 26. The retainer is formed in a block shape by an insulating material such as a synthetic resin material, and the retainer is held by the case 12 in a state of being disposed in the retainer disposition portion 26. The retainer has a plurality of retainer through holes. These retainer through-holes penetrate the retainer in the front-rear direction (arrow FR direction and arrow RE direction in each figure).

  The retainer through holes of these retainers are formed corresponding to the rear lower terminal arrangement hole 18 and the rear upper terminal arrangement hole 18 of the rear terminal arrangement portion 16 of the case 12 described above. The side end is opposed to the vehicle front side end of the rear lower terminal arrangement hole 18 or the rear upper terminal arrangement hole in the front-rear direction. The terminals described above are disposed in the retainer through holes of these retainers, and the intermediate portions in the front-rear direction of the terminals are supported by the retainers.

  Further, as shown in FIGS. 1 and 2B, a front side portion of the retainer arrangement portion 26 on the lower side of the upper plate portion 24 of the case 12 is a front terminal arrangement portion 28. The front terminal arrangement portion 28 includes a middle wall portion 30. The left end of the middle wall portion 30 is connected to the left side wall portion 20 of the case 12, and the right end of the middle wall portion 30 is connected to the right side wall portion 22 of the case 12. Further, the upper end of the middle wall portion 30 is connected to the upper plate portion 24 of the case 12.

  A plurality of middle wall through holes (not shown) are formed in the middle wall 30. These middle wall part through-holes are penetrated through the middle wall part 30 in the front-rear direction (arrow FR direction and arrow RE direction in each figure). Further, these through-holes in the middle wall are formed corresponding to each of the rear upper terminal arrangement hole and the rear lower terminal arrangement hole 18 of the rear terminal arrangement part 16 of the case 12, The rear end of each of these is opposed to the rear upper terminal arrangement hole or the rear lower terminal arrangement hole 18 of the rear terminal arrangement portion 16 through the retainer through hole of the retainer. A terminal disposed in the retainer through hole of the retainer described above is disposed through the middle wall through hole.

  Further, as shown in FIG. 1, a plurality of upper vertical plate portions 32 are provided on the front side of the middle wall portion 30 of the front terminal arrangement portion 28. These upper vertical plate portions 32 are formed on the left side portion and the right side portion with respect to the middle portion in the left and right direction of the upper plate portion 24 of the case 12, and in the left and right direction (the arrow LF direction and the arrow RT direction in FIGS. 1 and 2). ). The upper ends of these upper vertical plate portions 32 are connected to the upper plate portion 24, and the rear side ends of the upper vertical plate portions 32 are connected to the middle wall portion 30.

  Further, an intermediate plate portion 34 is provided below the upper vertical plate portion 32 of the case 12, and a lower end of the upper vertical plate portion 32 is connected to the intermediate plate portion 34. The space between the upper vertical plate portion 32 adjacent to the left and right direction (arrow LF direction and arrow RT direction in FIGS. 1 and 2) between the upper plate portion 24 and the intermediate plate portion 34 of the case 12 is the front upper side. A terminal arrangement hole 36 is provided.

  These front upper terminal arrangement holes 36 are formed corresponding to the rear upper terminal arrangement holes of the rear terminal arrangement portion 16 of the case 12, and the front upper terminal arrangement holes 36 are the retainer through hole and the inner wall of the retainer. The rear terminal arrangement hole 16 of the rear terminal arrangement portion 16 is opposed to the rear terminal arrangement hole 16 in the front-rear direction (arrow FR direction and arrow RE direction in each drawing) via the through-hole in the portion 30. Of the retainer through-holes of the retainer described above, the cylindrical portion of the terminal (front portion of the terminal) arranged in the retainer through-hole corresponding to the rear upper terminal arrangement hole of the rear terminal arrangement portion 16 is the front upper terminal arrangement hole. 36 is inserted.

  On the other hand, as shown in FIG. 1, a plurality of lower vertical plate portions 38 are provided below the intermediate plate portion 34 of the front terminal arrangement portion 28 of the case 12. These lower vertical plate portions 38 extend downward from the intermediate plate portion 34 of the case 12 at a predetermined interval in the left-right direction. A space between the lower vertical plate portions 38 adjacent to each other in the left-right direction on the lower side of the intermediate plate portion 34 of the case 12 serves as a front lower terminal arrangement hole 44. Further, a lower plate portion 42 of the front component 40 as an arrangement component is arranged below the lower vertical plate portion 38, and a lower plate portion 42 of the front component 40 is arranged below the front lower terminal arrangement hole 44. It is closed by.

  These front lower terminal arrangement holes 44 are formed corresponding to the rear lower terminal arrangement holes 18 of the rear terminal arrangement portion 16 of the case 12, and the front lower terminal arrangement holes 44 penetrate the retainer through the retainer. It is opposed to the rear lower terminal arrangement hole 18 of the rear terminal arrangement portion 16 in the front-rear direction (arrow FR direction and arrow RE direction in each figure) through the hole and the middle wall through hole of the middle wall portion 30. Of the retainer through holes of the retainer described above, the cylindrical portion of the terminal (front portion of the terminal) arranged in the retainer through hole corresponding to the rear lower terminal arrangement hole 18 of the rear terminal arrangement portion 16 is the front lower terminal. It is inserted into the arrangement hole 44.

  On the other hand, as shown in FIGS. 1, 2A, and 3, the front part 40 includes a front wall portion 46. The lower end of the front wall portion 46 is connected to the front end of the lower plate portion 42 of the front component 40. As shown in FIG. 1, a plurality of guide holes 48 are formed in the front wall portion 46. These guide holes 48 pass through the front wall portion 46 in the front-rear direction (arrow FR direction and arrow RE direction in each figure). Moreover, the cross-sectional shape which cut | disconnected these guide holes 48 in the direction orthogonal to the penetration direction is made into the square (for example, rectangle).

  The shape of the guide hole 48 in the front wall portion 46 of the front part 40 is a quadrangular frustum shape in which the cross-sectional shape of the guide hole 48 decreases toward the rear side. These guide holes 48 correspond to the front upper terminal arrangement hole 36 and the front lower terminal arrangement hole 44 of the front terminal arrangement portion 28 of the case 12, and the rear end of the guide hole 48 is the front upper terminal arrangement hole. 36 or the front end of the front lower terminal arrangement hole 44 is opposed in the front-rear direction (arrow FR direction and arrow RE direction in each figure).

  From the front side of the guide hole 48 of the front wall portion 46 of these front parts 40, a male connector (not shown) terminal paired with the female connector 10 is inserted. The terminal of the male connector is formed in a rod shape, and the longitudinal direction of the male connector terminal is along the front-rear direction (the arrow FR direction and the arrow RE direction in each figure). When the longitudinal end portion (rear end portion) of the male connector terminal is inserted into the guide hole 48 and protrudes from the rear end of the guide hole 48, the longitudinal end portion of the male connector terminal is It is inserted into the cylindrical portion (front side portion) of the terminal of the female connector 10. As a result, the terminal of the male connector and the terminal of the female connector 10 are mechanically and electrically connected.

  On the other hand, as shown in FIGS. 1 and 2B, the front side portions of the left side wall portion 20 and the right side wall portion 22 of the case 12 extend to the front side of the front terminal arrangement portion 28 of the case 12. . A left side suppression portion 50 as a suppression means is provided at a front end portion of the left side wall portion 20 positioned in front of the front terminal arrangement portion 28. The left side suppression part 50 is formed on the right side of the left side wall part 20 (one side in the thickness direction of the left side wall part 20). Further, the left side restraining part 50 is formed continuously between the lower end and the upper side end of the left side wall part 20, and the left side end of the left side restraining part 50 is connected to the left side wall part 20. The left side suppression part 50 is provided with the left side contact surface 52 as a slope. The left contact surface 52 is directed in a direction inclined to the left side with respect to the rear side.

  On the other hand, the right side suppression part 54 as a suppression means is provided in the front side edge part of the right side wall part 22 located in front rather than the front side terminal arrangement | positioning part 28 of case 12. As shown in FIG. The right side restraint part 54 is formed on the left side of the right side wall part 22 (one side in the thickness direction of the right side wall part 22). Further, the right side suppressing portion 54 is formed continuously between the lower end and the upper end of the right wall portion 22, and the right end of the right side suppressing portion 54 is connected to the right wall portion 22. The right side restraint part 54 is provided with the right side contact surface 56 as a slope. The right abutment surface 56 faces in a direction inclined to the right side with respect to the rear side.

  On the other hand, as shown in FIG. 1 and FIG. 2A, a left notch 58 and a right notch 60 are formed in the front wall portion 46 of the front part 40. The left notch 58 is formed at the left end of the front wall 46, and the left notch 58 is open to the front, left, upper, and lower sides. On the other hand, the right notch 60 is formed at the right end of the front wall 46, and the right notch 60 is open to the front, right, upper and lower sides.

  In the front wall portion 46 of the front part 40, the left-side notch 58 and the right-side notch 60 are formed in the left-right direction (arrow LF direction and arrow RT direction in FIGS. 1 and 2). It is shorter than the horizontal dimension of the front wall 46 on the rear side of the notch 60. Further, the horizontal dimension of the portion of the front wall portion 46 where the left notch portion 58 and the right notch portion 60 are formed is equal to or less than the distance between the right side surface of the left restraint portion 50 and the left side surface of the right restraint portion 54 of the case 12. In a state where the front part 40 is assembled to the case 12, the portions where the left notch 58 and the right notch 60 are formed in the front wall 46 are disposed between the left restraint 50 and the right restraint 54. .

  Further, a left engagement portion 62 is formed in the left notch portion 58 of the front wall portion 46 of the front part 40, and when the front part 40 is assembled to the case 12, the left engagement portion 62 is the case. 12 between the right side surface of the left side wall portion 20 and the left side contact surface 52 of the left side suppression portion 50 of the case 12. The left engagement portion 62 includes a left engagement surface 64. In a state where the front part 40 is assembled to the case 12, the left engagement surface 64 is formed so as to be parallel to the left contact surface 52 of the left side suppressing portion 50 of the case 12. Is assembled to the case 12, the left engagement surface 64 of the front part 40 is brought into contact with the left contact surface 52 of the left side suppressing portion 50 of the case 12.

  On the other hand, a right engagement portion 66 is formed in the right notch 60 of the front wall portion 46 of the front part 40, and when the front part 40 is assembled to the case 12, the right engagement part 66 is formed. Enters between the left side surface of the right side wall portion 22 of the case 12 and the right side contact surface 56 of the right side suppression portion 54 of the case 12. The right engaging portion 66 includes a right engaging surface 68. In a state where the front part 40 is assembled to the case 12, the right engagement surface 68 is formed so as to be parallel to the right contact surface 56 of the right side suppressing portion 54 of the case 12. Is assembled to the case 12, the right engagement surface 68 of the front part 40 is brought into contact with the right contact surface 56 of the right restraint 54 of the case 12.

  On the other hand, as shown in FIGS. 1 and 3, a hole 70 is formed in each of the left wall 20 and the right wall 22 of the case 12 (the hole 70 of the right wall 22 is illustrated). (Omitted). The hole 70 is formed in a slit shape that is long in the front-rear direction (arrow FR direction and arrow RE direction in each figure), and the left wall 20 in the left-right direction (arrow LF direction and arrow RT direction in FIGS. 1 and 2). Or the right side wall part 22 is penetrated.

  Corresponding to these hole portions 70, the front component 40 is provided with a pair of side plate portions 72. One side plate portion 72 is provided at the left end of the front part 40. The lower end of the one side plate portion 72 is connected to the left end of the lower plate portion 42 of the front component 40, and the front end of the one side plate portion 72 is connected to the left end of the front wall portion 46 of the front component 40. It is connected. In a state where the front part 40 is assembled to the case 12, one side plate portion 72 faces the left wall portion 20 of the case 12 on the right side of the left wall portion 20 of the case 12.

  On the other hand, the other of the pair of side plate portions 72 of the front part 40 is provided at the right end of the front part 40. The lower side end of the other side plate part 72 is connected to the right side end of the lower plate part 42 of the front part 40, and the front side end of the other side plate part 72 is connected to the right side end of the front wall part 46 of the front part 40. It is connected. In a state where the front part 40 is assembled to the case 12, the other side plate portion 72 is opposed to the right side wall portion 22 of the case 12 on the left side of the right side wall portion 22 of the case 12.

  The pair of side plate portions 72 of the front component 40 are respectively provided with protrusions 74 (the protrusion 74 of the right side plate portion 72 is not shown). The protrusions 74 of the left side plate portion 72 are on the left side. It protrudes from the left side surface of the side plate portion 72. The left side surface of the protrusion 74 of the left side plate portion 72 is inclined upward, and therefore, the protruding dimension of the left side plate portion 72 to the left side of the protrusion 74 decreases toward the upper side. . In a state where the front part 40 is assembled to the case 12, the protrusion 74 of the left side plate portion 72 enters the hole portion 70 of the left side wall portion 20 of the case 12 and below the protrusion 74 of the left side plate portion 72. The side surface is brought into contact with the lower side surface of the hole 70 in the left side wall portion 20 of the case 12.

  On the other hand, the protrusion 74 of the right side plate portion 72 of the front part 40 protrudes from the right side surface of the right side plate portion 72. The right side surface of the protrusion 74 of the right side plate portion 72 is inclined upward, and therefore the protrusion dimension of the right side plate portion 72 to the right side of the protrusion 74 decreases toward the upper side. . In a state where the front part 40 is assembled to the case 12, the protrusion 74 of the right side plate portion 72 enters the hole portion 70 of the right side wall portion 22 of the case 12 and is below the protrusion 74 of the right side plate portion 72. The side surface is brought into contact with the lower side surface of the hole 70 in the right side wall portion 22 of the case 12.

<Operation and effect of the present embodiment>
In the present connector 10, the front part 40 is disposed at a position on the front side of the front terminal arrangement portion 28 in the case 12, and the front part 40 is assembled to the case 12. When the front part 40 is assembled to the case 12, the front part 40 is moved from the lower side to the upper side of the position of the front part 40 in the case 12 and linearly approaches the position of the front part 40 in the case 12. Is done. Thereby, in the lower portion of the front wall portion 46 of the front part 40, the left engagement portion 62 of the front wall portion 46 is in contact with the right side surface of the left wall portion 20 of the case 12 and the left side of the left side suppression portion 50 of the case 12. The right engagement portion 66 of the front wall portion 46 enters between the left side surface of the right side wall portion 22 of the case 12 and the right contact surface 56 of the right side suppression portion 54 of the case 12.

  In this state, when the front part 40 is further moved upward, the protrusions 74 formed on the pair of side plate parts 72 of the front part 40 become the lower side end of the left side wall part 20 or the right side wall part of the case 12. Abut. In this state, when the front part 40 is further moved upward, the pair of side plate portions 72 of the front part 40 is elastically deformed in the lateral direction (the direction of the arrow LF and the direction of the arrow RT in FIGS. 1 and 2) toward the center. The

  In this way, when the front part 40 is linearly moved upward to the position of the front part 40 in the case 12, each protrusion 74 of the front part 40 moves in the left-right direction in the left wall 20 of the case 12. It faces the portion 70 or the hole 70 in the right side wall. As described above, when each protrusion 74 of the front part 40 is opposed to the hole 70 of the left side wall part 20 or the hole part 70 of the right side wall part, the side plate part 72 of the front part 40 is elastically restored. Thus, each protrusion 74 of the front part 40 enters the hole portion 70 of the left side wall portion 20 or the hole portion 70 of the right side wall portion.

  Thus, in a state where the front part 40 is arranged at the arrangement position of the front part 40 in the case 12, the rear side end of the lower plate part 42 of the front part 40 is the inner wall of the front terminal arrangement part 28 of the case 12. It abuts on the front end of the portion 30. For this reason, the rearward displacement of the front part 40 relative to the case 12 is suppressed.

  In the connector 10, the left abutment surface 52 of the left side restraint portion 50 of the case 12 faces in a direction inclined to the left side with respect to the rear side, and the right abutment surface 56 of the right side restraint portion 54 of the case 12. Is oriented in a direction inclined to the right side with respect to the rear side. In a state where the front part 40 is disposed at the position of the front part 40 in the case 12, the left engagement surface 64 of the left engagement part 62 of the front part 40 is on the left contact surface 52 of the left suppression part 50 of the case 12. The right engagement surface 68 of the right engagement portion 66 is brought into contact with the right contact surface 56 of the right suppression portion 54 of the case 12. As a result, the front part 40 is restrained from moving forward relative to the case 12.

  Further, as described above, the left abutting surface 52 of the left side restraining portion 50 of the case 12 faces in a direction inclined to the left with respect to the rear side, and the front part 40 that abuts on the left abutting surface 52. The left engagement surface 64 faces the left contact surface 52. For this reason, the displacement of the front part 40 to the right side with respect to the case 12 is suppressed. Further, as described above, the right contact surface 56 of the right restraint portion 54 of the case 12 faces in the direction inclined to the right with respect to the rear side, and the front part 40 that contacts the right contact surface 56. The right engagement surface 68 faces the right contact surface 56. For this reason, the leftward displacement of the front part 40 with respect to the case 12 is suppressed.

  Further, in a state where the front part 40 is disposed at the position where the front part 40 is disposed in the case 12, the lower plate part 42 of the front part 40 is brought into contact with the lower end of the lower vertical plate part 38 of the case 12. As a result, the upward displacement of the front part 40 with respect to the case 12 is suppressed.

  Further, in a state where the front part 40 is disposed at the position where the front part 40 is disposed on the case 12, the lower side surfaces of the protrusions 74 of the pair of side plate parts 72 of the front part 40 are the left side wall part 20 and the right side wall of the case 12. It abuts on the lower surface of each hole 70 of the portion 22. Thereby, the downward displacement of the front part 40 with respect to the case 12 is suppressed.

  In this way, in the state where the front part 40 is disposed at the position of the front part 40 in the case 12, the front part 40 with respect to the case 12 in the front-rear direction (the arrow FR direction and the arrow RE direction in each figure), the left-right direction ( Displacement in the up-down direction (arrow UP direction and arrow DW direction in FIGS. 1 and 3) and the up-down direction (arrow LF direction and arrow RT direction in FIGS. 1 and 2) is suppressed. As a result, it is possible to effectively prevent the front part 40 from falling off the case 12.

  Further, as described above, in the state where the front part 40 is disposed at the position of the front part 40 in the case 12, the displacement of the front part 40 with respect to the case 12 can be suppressed, and thus the guide of the front wall portion 46 of the front part 40. The holes 48 in the left-right direction (the direction of arrow LF and the direction of arrow RT in FIGS. 1 and 2) and the vertical direction (with respect to the front upper terminal arrangement hole 36 and the front lower terminal arrangement hole 44 of the front terminal arrangement portion 28 of the case 12) The shift in the arrow UP direction and the arrow DW direction in FIGS. 1 and 3 can be suppressed. For this reason, the terminal of the male connector that forms a pair with the female connector 10 is guided by the inner surface of the guide hole 48 of the front part 40 to the cylindrical portion (front portion) of the terminal of the female connector 10. Can be inserted. Thereby, the terminal of the male connector and the terminal of the female connector 10 can be easily connected.

  By the way, in this connector 10, the left side suppression part 50 of case 12 is formed in the right side of the left side wall part 20 of case 12, and the right side suppression part 54 of case 12 is on the left side of the right side wall part 22 of case 12. Is formed. Such left side restraint part 50 and right side restraint part 54 have special configurations such as a slide core that can slide in the left-right direction (the direction of arrow LF and the direction of arrow RT in FIGS. 1 and 2) on the mold for molding case 12. It can be formed without providing. For this reason, an increase in a special configuration such as a slide core in the mold for molding the case 12 can be suppressed, and the structure of the mold can be simplified. As a result, the mold can be reduced in cost, and the connector 10 can be reduced in cost.

  Further, the left side restraining part 50 and the right side restraining part 54 of the case 12 can restrain the front part 40 from being displaced to the front side, the left side, and the right side with respect to the case 12. For this reason, in order to suppress the displacement to the front side, the left side, and the right side with respect to the case 12 of the front component 40, the increase in the hole or recessed part provided in the left side wall part 20 and the right side wall part 22 of the case 12 can be suppressed. As a result, a decrease in mechanical strength or rigidity of the left side wall portion 20 and the right side wall portion 22 of the case 12 can be suppressed, and as a result, a decrease in mechanical strength or rigidity of the case 12 can be suppressed. As a result, the case 12 can be reduced in size and weight.

  On the other hand, the left engaging portion 62 that is engaged with the left restraint 50 of the case 12 in the front part 40 is formed in the left notch 58 of the case 12, and is engaged with the right restraint 54 of the case 12 in the front part 40. The right engaging portion 66 is formed in the right notch 60 of the case 12. Therefore, the left engaging portion 62 and the right engaging portion 66 are slidable in the left and right directions (the arrow LF direction and the arrow RT direction in FIGS. 1 and 2) on the mold for forming the front part 40. It can be formed without providing a special configuration such as a core. For this reason, an increase in a special configuration such as a slide core in a mold for molding the front part 40 can be suppressed, and the structure of the mold can be simplified. As a result, the mold can be reduced in cost, and the connector 10 can be reduced in cost.

  Further, in the present connector 10, the front part 40 can be assembled to the case 12 by causing the front part 40 to linearly approach the position of the front part 40 in the case 12 from the lower side. That is, in the connector 10, the front part 40 can be assembled to the case 12 by “one-way assembly”. For this reason, the assembly | attachment to the case 12 of the front component 40 is easy, and the work efficiency of the assembly | attachment operation | work to the case 12 of the front component 40 can be improved. Further, since the front part 40 can be assembled to the case 12 by “one-way assembly”, for example, when the assembly of the front part 40 to the case 12 is automated by the assembling apparatus, the assembling apparatus is assembled. It can suppress that operation becomes complicated and can suppress that the structure of an assembling apparatus becomes complicated.

  Further, in the present embodiment, the protrusions 74 formed on the pair of side plate portions 72 of the front part 40 enter the hole portions 70 formed in each of the left wall portion 20 and the right wall portion 22 of the case 12. Therefore, it is only necessary to suppress the downward displacement of the front part 40 with respect to the case 12. For this reason, for example, the protrusion 74 has a dimension in the front-rear direction (arrow FR direction and arrow RE direction in each figure) and left and right direction (arrow LF direction and arrow RT direction in FIGS. 1 and 2). Any dimension can be used as long as it can be placed in the portion 70. For this reason, it is not necessary to strictly manage the dimensions of the protrusion 74 in the front-rear direction (arrow FR direction and arrow RE direction in each figure) and the left-right direction. In this sense, the front part 40 can be reduced in cost.

  In the present embodiment, the left side restraining part 50 and the right side restraining part 54 of the case 12 restrain the front part 40 from being displaced to the front side, the left side, and the right side with respect to the case 12. However, for example, the left-side contact surface 52 of the left-side suppression portion 50 of the case 12 and the right-side contact surface 56 of the right-side suppression portion 54 are parallel to the left-right direction (the arrow LF direction and the arrow RT direction in FIGS. 1 and 2). The left side restraining part 50 and the right side restraining part 54 of the case 12 may be configured to restrain the front part 40 from being displaced forward with respect to the case 12.

  Further, in the present embodiment, the left side suppressing portion 50 is provided on the left side wall portion 20 of the case 12, and the right side suppressing portion 54 is provided on the right side wall portion 22 of the case 12. However, the left side wall portion 20 may be provided with the left side suppression portion 50 and the right side wall portion 22 may not be provided with the right side suppression portion 54. Alternatively, the right side wall portion 22 may be provided with the right side suppression portion 54 and the left side wall portion 20 may be provided. It is good also as a structure which does not provide the left side suppression part 50 in this.

  Further, in the present embodiment, the hole portion 70 is formed in the left side wall portion 20 and the right side wall portion 22 of the case 12, and the protrusion 74 is provided in the side plate portion 72 of the front component 40. However, protrusions are formed on the left wall portion 20 and the right wall portion 22 as wall portions, and protrude from the side plate portion 72 that is a portion facing the left wall portion 20 or the right wall portion 22 in the front component 40 as an arrangement component. The structure in which the hole part into which a part enters is formed may be sufficient.

  Furthermore, in the present embodiment, the assembly direction of the front part 40 with respect to the case 12 is one direction, but the movement direction of the front part 40 when the front part 40 is assembled to the case 12 is two or more directions. Alternatively, the front part 40 may be rotated when the front part 40 is assembled to the case 12.

  In this embodiment, the arrangement component is the front component 40. However, the arrangement component may be, for example, the retainer described above, and the arrangement component may be assembled to the case 12 as the connector body. For example, the invention can be widely applied without being limited to the front part 40.

  Furthermore, in the present embodiment, the present invention is applied to the female connector 10, but the present invention may be applied to a male connector.

10 Connector 12 Case (Connector body)
20 Left side wall (wall)
22 Right side wall (wall)
40 Front parts (placement parts)
50 Left side suppression part (suppression means)
52 Left contact surface (slope)
54 Right side suppression part (suppression means)
56 Right contact surface (slope)
70 Hole 74 Projection

Claims (5)

A connector main body having a wall portion extending in the extending direction perpendicular to the thickness direction and the height direction;
Arranged parts arranged on one side in the thickness direction of the wall,
It is provided on one side in the thickness direction of the wall portion, and the arrangement component is engaged in a state where the arrangement component is arranged on one side in the thickness direction of the wall portion. Suppression means for suppressing displacement of the arrangement component relative to the connector body;
Connector with.   2. The connector according to claim 1, wherein the placement component is restrained by the restraining means from being displaced in the thickness direction of the wall relative to the connector main body in an engaged state with the restraining means.   The restraining means has a slope facing the other side in the thickness direction of the wall portion with respect to the other side in the extending direction of the wall portion, and the arranged component is engaged with the restraining means in the state where the sloped surface is engaged. The connector according to claim 2, wherein the connector can be brought into contact with the connector.   The connector according to any one of claims 1 to 3, wherein the arrangement component is linearly moved from one side in the height direction of the wall portion and arranged on one side in the thickness direction of the wall portion. . A hole that is provided on one of the wall part and the facing part of the placement part, and that is open to the other side of the wall part and the facing part of the placement part;
Provided on the other side, approaching the hole from one side in the height direction of the wall and placing the placement component on one side in the thickness direction of the wall, facing the hole, A protrusion in which displacement of the arranged part in the height direction side with respect to the connector body of the arrangement component is suppressed by entering the hole, and
The connector according to claim 4.

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