TW200527763A - A connector housing assembly and an electric connector assembly - Google Patents

Abstract

An electrical connector is adapted and arranged to simplify the operation of fitting a lid into a housing body of the electrical connector, and in turn realize enhancement in productivity and reduction in production cost of the connector. A connector housing assembly for assembling the electrical connector (100), comprises the connector housing body (110) that is provided with a receiving chamber (111) being open to outside, a contact (120) that is received in the connector housing body (110) in such a way that it can contact a counterpart contact, and a lid (130) that fits into the connector housing body (110) to cover the receiving chamber (111), the electrical connector (100) being so arranged that the wire (W) that is connected to the contact (120) is led out through a space between the connector housing body (110) and the lid (130). This connector housing assembly is a combination of the connector housing body (110) and a lid assembling member (A) wherein an auxiliary member (140) is interconnected to the lid (130) by a severable interconnecting part (150).

Description

200527763 (1) IX. Description of the invention [Technical field to which the invention belongs] The present invention belongs to the technical field of electrical connectors, and relates to a connector housing assembly and an electrical connector assembly for assembling an electrical connector connected to a wire. . [Prior art] Japanese Unexamined Patent Publication No. 2002-164092, Japanese Unexamined Patent Publication No. 2001-43926, and Japanese Unexamined Patent Publication No. 1 1-1 8 5 8 6 8 disclose an electrical connector having: The connector housing body of the storage room that is open to the outside, and the contact member that is accommodated in the connector housing body so as to contact the contact member on the other side, and a cover that fits into the connector housing body and covers the storage room, The wire of the point member is pulled out from between the connector housing body and the cover to the outside. [Summary of the Invention] An electrical connector provided inside a small electronic device such as a mobile phone is desperately desired to be lightened. However, if such a small-sized electrical connector uses an electrical connector provided with a connector housing body and a cover, In the case of a connector, it is difficult to grasp and fit the cover to the connector housing body. The operator needs skill, labor, and time. The fitting of the connector housing body toward the cover is also required by the machine. The addition of a special mechanism for securely grasping a small cover will cause a reduction in productivity and an increase in production costs. Moreover, regardless of the size of the electrical connector, when the cover is fitted to the connector in a narrow space-5-200527763 (2) The case body, it is difficult to fit the cover to the connector case body, and the operator It requires skill, labor, and time. Even if the fitting of the connector housing body toward the cover is performed mechanically, more complicated mechanical operations are required, which will result in a decrease in productivity and an increase in production costs. The present invention focuses on this point, and the purpose thereof is to connect the auxiliary member to the cover by a connecting portion, and to fit the auxiliary member to the connector housing body by a human or mechanical operation of the auxiliary member, thereby simplifying the insertion of the cover It is suitable for the operation of the connector housing body to improve the productivity of the electrical connector and reduce the production cost. In order to achieve the above object, the present invention is a connector housing assembly including a connector housing body provided with an accommodation chamber opened to the outside, and a connector housing body accommodated in a contact-side contact member. Contact member and a cover that fits into the connector housing body and covers the accommodation chamber, and the electric wire connecting the contact member is a connector housing for assembling an electrical connector that is pulled out from between the connector housing body and the cover to the outside. The assembly is a combination of a connector housing body and a lid assembly member in which the auxiliary member is connected to the lid by cutting a possible connection portion. The contact member is accommodated in the receiving chamber of the connector housing so that the contact member can contact the counterpart contact member, and the electric wire can be connected to the contact member across the periphery of the receiving chamber. Alternatively, the electric wire is connected to the contact member, the electric wire-connected contact member can be brought into contact with the counterpart-side contact member, and the electric wire can be accommodated in the receiving chamber of the connector housing body across the periphery of the receiving chamber. Then, the auxiliary member of the cover assembling member is manually or mechanically operated to fit the cover of the cover assembling member to the connector housing body. Then, when the connection portion is cut off, the electrical connector is completed -6- 200527763 (3). In this case, since the cover is fitted to the connector housing body by a human or mechanical operation auxiliary member, even if the cover is small, the fitting can be easily discarded, and the fitting operation is easy even in a narrow space. The burden on the operator improves productivity and reduces production costs. When the connector housing assembly of the present invention is used, even if it is arranged in a small electrical connector or an electrical connector in a narrow space, the work of fitting the cover to the connector housing body can be simplified, and productivity can be improved and Reduced production costs. In the connector housing assembly of the present invention, the cover may be slidably fitted into the connector housing body. In this way, the fitting operation of the connector housing body toward the cover can be smoothly performed by the guide function during sliding. In the connector housing assembly of the present invention, a guide groove is provided on one of the connector housing body and the cover, and a protrusion is provided on the other side to allow sliding insertion into the guide groove. It is also possible to slide on the connector housing body. Taking this as an example, the cover has a structure that slides on the connector housing body. The connector housing assembly of the present invention may be formed in the connector housing body or the cover: an introduction groove divided from a guide groove to another end surface, and the groove receiving protrusion may be introduced from there. In this way, by inserting the projection into the introduction groove, the cover can be temporarily fixed to the connector housing body, and the fitting operation to the projection of the guide groove can be easily performed. In addition, when the guide groove is almost parallel to the extension direction of the electric wire, if the introduction groove is provided in a direction almost perpendicular to the extension direction of the electric wire, insert the protrusion 200527763 (4) into the guide groove and then insert the guide groove. It is possible to insert the protrusion into the guide groove without obstructing the electric wire. Therefore, the cover can be temporarily fixed to the connector housing body by inserting the projection into the introduction groove, and the fitting operation of the projection to the guide groove can be easily performed. In addition, the protrusion can be inserted into the guide groove without hindering the electric wires. The connector housing assembly of the present invention is provided when the connector housing body and the cover are installed: when the fitting of the connector housing body toward the cover is completed, the cover is locked to the connector housing body by flexible concave and convex fitting Locking mechanisms are also possible. In this case, the completion of the fitting can be easily confirmed. In addition, since the cover does not easily fall off from the connector housing body, the cutting operation of the connection portion is easy. The connector housing assembly of the present invention is a connecting portion, and may have a strength such that it can be cut when a human load is applied to the connecting portion or the auxiliary member. In this way, since the connecting portion can be cut by human power, the cutting operation of the connecting portion can be easily performed without using a cutting tool or the like. The electrical connector assembly of the present invention is a contact member including the connector housing assembly of the present invention and a receiving chamber in which the connector housing body is accommodated. The contact member can be connected across the periphery of the accommodation chamber by the electric wire. In addition, the auxiliary member of the cover assembly member can be manually or mechanically operated to fit the cover of the cover assembly member to the connector housing body. Then, the § tongue of the connection portion is cut to complete the electrical connector. In this case, since the cover is fitted to the connector housing body by a person or a robot: Mechanical operation-8- 200527763 (5), the fitting operation can be easily performed even with a small cover, and even in a narrow space. The fitting operation is easy, the burden on the operator can be reduced, the productivity can be improved, and the production cost can be reduced. Therefore, the use of the electrical connector assembly of the present invention can simplify the work of fitting the cover to the connector housing body even if it is arranged in a small electrical connector or an electrical connector in a narrow space, and a productive production can be achieved. Increase in% and reduction in production costs. Further, the same effects as those obtained by the connector housing assembly of the present invention can be obtained. [Embodiments] Hereinafter, embodiments of the present invention will be described. Fig. 1 shows a connector housing assembly according to a first embodiment of the present invention. This connector housing assembly is used for assembling the electrical connector 100 shown in FIGS. 13 to 15. The electrical connector 100 is a socket connector. As shown in FIG. 16, the electrical connector 100 is a plug connector 200 fitted into a printed circuit board or the like, but the invention is not limited thereto. The form of the electrical connector, the use of ® appearance, etc. This electrical connector 100 includes a connector housing body 110 formed of an insulating material, and a contact member 1 2 0 formed of a conductive material and housed in the connector housing body 1 1 0, and A cover 丨 3 〇 formed of an insulating material ′ and fitted in the connector housing body 1 1 〇. Set the depth direction, width direction, and height direction that are perpendicular to each other, and use these directions to explain. In the case of this embodiment, as illustrated in FIG. 15, the left-right direction of the figure is the depth direction, the left side of the figure is the depth direction rear -9-200527763 (6), and the right side is the depth direction forward. And the direction perpendicular to the paper surface of the figure is the width direction, and the vertical direction of the figure is the height direction. As shown in FIGS. 2 to 4, the connector housing body 110 is provided with a receiving chamber 1 1 1 which is opened to the outside. In the case of this embodiment, the connector housing body 110 is formed in an almost rectangular parallelepiped shape, and a receiving chamber 111 is provided therein. The receiving chamber 111 is one end surface in the height direction and one end surface in the depth direction of the connector housing body 110. Open to the outside. The form of the connector housing body and the accommodation chamber of the electrical connector that is the object of the present invention is not limited thereto. The open portion of the storage room 1 1 1 can be used as: a contact member 1 2 0 toward the storage room 1 Π, and access to the electric wire W. As shown in Figs. 2 to 4, the contact member 120 is provided with a contact portion 121 that contacts a contact member (not shown) on the counterpart side, and a connection portion 122 that connects the electric wire W. In the case of this embodiment, the contact member 2 () is a female crimp contact member, so the contact portion 21 is a blade, a post, a pin, etc. that form a male contact member that can be received by the other side. Although a fork shape is formed in the figure, the shape of the contact member of the electrical connector that is the object of the present invention is not limited thereto, and it may be a male shape, for example, a crimp shape. In addition, the contact member of the present invention includes a contact member such as a general crimp-shaped contact member which is first collected in a connector housing body and then connected to an electric wire, and a contact member such as a crimp-shaped contact member. After the electric wires are connected, they are housed on both sides of the contact members of the connector housing body. The number of contact members is not limited by this embodiment. As shown in FIGS. 2 to 4, the contact members 120 are accommodated in the connector housing body so as to be able to contact the contact members on the opposite side. That is, in the connection -10- 200527763 (7) device housing body no, a communication chamber η 2 that communicates the storage chamber ln with the outside, and a contact portion 2 of the contact member 1 2 〇 are arranged in the communication chamber 11 2. The contact portion 1 2 1 is formed so as to be able to contact a contact member accommodated in the counterpart side of the communication chamber 丨 i 2. It is also possible to protrude the contact portion from the connector housing body to the outside. As shown in FIG. 14 and FIG. 15, the contact member i 2〇 is a wire W connecting the contact member 120 and can pass over the periphery of the accommodation chamber ii. 10, the electric wire w is pulled out from the periphery i 3 to the outside. The contact member 120 is attached or fixed to the connector housing body 11 by a method such as insert-fitting and press-fitting. As shown in FIGS. 13 to 15, the cover 13 () is fitted to the connector outer wall main body 110 and covers the trough chamber 11 丨. As shown in Figs. 5 to 7, 'the cover 1 30 is formed in a plate shape. The cover 1 3 prevents the connection portion and dust of the contact member 120 and the contact member 120 of the electric wire W, such as a finger or a foreign object, from entering the storage chamber? 1. This electrical connector 100 is configured such that the electric wire W connected to the contact member 20 is pulled out from between the connector housing body 110 and the cover 130. This prevents the connector body 110 and the cover 130 from preventing the contact member 120 and the electric wire w from falling out of the receiving chamber u i of the connector housing body 110 to the outside. In this case, the cover 130 may or may not contact the contact member 12o and the electric wire W. Generally, in order to increase the strength of the electric wire by bending and deforming it, the connector housing body is provided with a lock for retaining and holding the electric wire to be bent and deformed. Strain relief mechanism. However, since the strain relief mechanism rises in a height direction from a partition wall provided between the contact members of the connector housing-11-200527763 (8) body, the thickness of the portion of the connector housing body is increased, and it cannot be realized. When the contact member is thin, and the strain relief mechanism is provided to avoid the crimping punch when the contact member is crimped, the connector housing body will be extended in the extending direction of the storage chamber. However, according to this embodiment, when the connector housing body 1 10 and the cover 丨 3 0 are used to prevent the contact member 12 and the wire W from falling off, the connector housing body 1 can be realized without installing a strain relief mechanism. 10 thickness reduction and shortening. And 'Although it is possible to adopt a shell cutout structure in which an elastic sheet is provided on the connector housing body and is locked to the contact member, or conversely, an elastic sheet is provided on the contact member and locked to the contact member of the connector housing body. The notch structure, however, increases the thickness of a portion of the connector housing body, and cannot be reduced in thickness. However, according to this embodiment, when the connector housing body 110 and the cover 130 are used to prevent the contact member 120 and the electric wire W from falling off, it is possible to reduce the thickness of the connector housing without providing a cutout structure. . In this way, if the connector housing body 110 is shortened, the mounting area can be further reduced, and if the connector housing body 110 is thin, the connection structure can be further reduced. The cover 1 3 0 is slidably fitted in the connector housing body 1 1 0. The connector housing body 110 is provided with a guide groove 114, and a cover 130 is provided with a protrusion 1 3 1 which can be slid and inserted into the guide groove 1 1 4. With these, the cover 1 3 0 can be slid in Connector housing body 1 1 〇. In the case of this embodiment, the guide groove 1 1 4 is provided inside the wall constituting both end surfaces in the width direction of the connector housing body 1 10 so as to be directed from the front in the depth direction to the rear so that the protrusion 1 3 1 is provided so that the both end surfaces of the cover 130 in the width direction may protrude outward in the width direction. Conversely, it is possible to set the guide groove on the cover, and install and slide it on the connector body. -12-200527763 (9) It is also possible to insert the protrusion of this guide groove. In the connector housing u 0 or the cover 130, a guide groove 1 1 5 is divided from the guide groove 1 1 4 to the other end face, and the guide groove 1 1 5 is housed 1 3 1. In the case of this embodiment, since the connector housing body 1 1 0 guide groove 1 1 4, the introduction groove 1 15 is provided in the connector housing 110, and the introduction groove 115 is divided from the guide groove 114 toward the height direction. The portion 1 3 1 extending to one end surface in the height direction of the connector housing body 110 is divided into a rear portion 1 3 1 a and a front portion 1 3 1 b in the depth direction, and a rear portion 1 3 1 a Insert the introduction groove 1 1 5 and press the cover toward the rear side in the depth direction, then add the rear portion 1 3 1 a to fit the side portion 1 3 1 b to the guide groove 1 1 4 to make the cover 1 3 0 The rearward sliding is not limited by this embodiment: the arrangement of the guide groove, the protrusion and the introduction groove; the number and direction of the guide groove, the protrusion and the introduction groove. The connector housing body 110 and the cover 130 are provided with a lock for locking the cover 1 3 0 to the connector housing body 1 1 0 by the flexible projections and recesses when the fitting of the connector housing body 110 facing the cover is completed. mechanism. In the case of this example, projections 1 2 protruding in the width direction are provided on both end surfaces of the cover 1 30 in the width direction, and the introduction grooves 1 1 5 of the connector housing body 1 1 0 have a function of accommodating the projections 1 2 2 The locking mechanism is formed by the protrusions 1 2 and the introduction grooves. As described above, the introduction groove 1 15 does not function as a recess of the locking machine, and a recess of a locking mechanism different from the introduction groove may be provided. In this way, the convex portion may be provided in the cover, and the locking mechanism may be provided in the connector housing body with a recess. The convex portion may be provided in the connector housing body, and the locking mechanism may be provided in the concave portion. The main body is extended to its protrusion, and the front side of the protrusion is 130. However, the position 130 is fitted and implemented. The outer part of the 115 structure can also be installed.-13- 130 200527763 (10) The cover 130 is provided with a wire protrusion 133 and is inserted into the cover and the gap between the wire and the wire. The electric wire protrusions 1 3 3 protrude from the cover 1 3 0 surface in a height direction. The electric wire protrusion may be provided so that the gap between the connector housing main body and the electric wire may be inserted into the connection housing main body. It is also possible to provide the electric wire protrusions on both the cover and the connector housing body. The electric wire protrusions 1 3 3 can be assembled even if the electric wires are pulled out from between the connector housing 1 1 0 and the cover 1 30. When W is swung in a direction that intersects with a depth direction such as the height direction, the amount of swing of the wire W in the housing body 1 1 0 can be suppressed, and the contact between the contacts 120 and the wire W is not stable . Moreover, the combination of 'as the figure 1 does' is wrong: the connector housing 1 1 0 and the cover assembly member A can constitute the connector housing assembly. As shown in Figs. 8 and 9, the cover assembly member A is The auxiliary member is connected to the cover 1 3 0 by a possible connection portion 1 50. When the cover 130 is formed, the auxiliary member 140 is formed larger than the cover 130. Although the auxiliary member is formed in a rod shape here, the shape is not limited to this. The connection portion can be cut off. The cutting forms include: the cutting of the connecting part 150 by the pliers as shown in the example; the cutting of the connecting part 150 with the cutting tool as shown in the example 150 and the cutting of the connecting part 150; in the connecting part丨 5 〇 Or the supplementary 1 40, the load tensile force, compressive force, torsion force, bending force and other vibration cut the connection part 150; using laser light or heating to fuse the connection part 1 50 Morphology and so on. The energy required for cutting the joint section 丨 5 〇 is adjusted by changing the cross-sectional area and thickness of the joint section 150. Setting the notch section at the joint section 150 to make the cross-sectional area change drastically. And, with. Body, wide connector component body. For example, 140 is smaller than 140 is to set up tool knots to help build or increase the strength of the means. And with. -14-200527763 (11) In the case of this embodiment, the auxiliary member 1 40 is disposed on the front side in the depth direction of the cover 1 3 0, and the connecting portion 1 50 is the front end in the depth direction of the cover 1 3 0 And the rear end of the auxiliary member 14 in the depth direction. This makes it easy to press the cover 130 backward in the depth direction by the auxiliary member 140. As for the cross-sectional area of the surface facing the depth direction, the cross-sectional area of the connecting portion 150 is smaller than the cross-sectional area of the cover 130 and smaller than the cross-sectional area of the auxiliary member 140. Two connecting portions 150 are provided and spaced apart from each other in a wide direction. The auxiliary member 140, the cover 130, and the connecting portion 150 are integrally formed. The auxiliary member may be arranged in any direction of the cover, and the number and arrangement of the connecting portions are not limited by this embodiment. The auxiliary member, the lid, and the connecting portion may not be integrally formed, but may be engaged, for example. The connection portion 150 has a strength that can be cut to a degree when a human load is applied to the connection portion 150 or the auxiliary member 140. This is performed by adjusting the cross-sectional shape, material, and the like of the connecting portion. When the human load is on the connecting part 150 or the auxiliary member 140, there are the following forms: pressing the connecting part 150 or the auxiliary member 1 40 directly with a finger or the like, pulling the form, or twisting it. Forms, curved forms, combinations of these forms, and repetition of these forms. In addition, it has a form in which the connecting portion 150 or the auxiliary member 140 is pressed by a thin rod such as a screw, a toothpick, or the like, a striking form, a prying form, and the like. Furthermore, there are also forms in which hook-shaped props are hooked to the connecting portion 150 or the auxiliary member 140. The function and effect of this embodiment will be described. The contact member 1 20 is accommodated in the receiving room 1 1 1 of the connector housing body 1 10, so that the contact member 1 2 0 can contact the counterpart contact member, and the electric wire W is connected to the contact member 1 2 0 to make the electric wire -15- 200527763 (12) W is connected across the periphery 1 1 3 of the containment chamber 1 1 1. Alternatively, the electric wire w is connected to the contact member 1 20, and the electric wire contact member is attached;! 20 is accommodated in the receiving room 1 1 1 of the connector housing body 1 1 0, so that the contact member 1 2 0 can contact the other side to connect A point member and the electric wire W may pass over the peripheral edge 1 1 3 of the storage room 1 1 1. Then, the auxiliary member 140 of the cover assembly member A is operated by a person or a machine, and the cover 130 of the cover assembly member A is fitted to the connector housing body 1 1 0. Then, when the connection portion 150 is cut, the electrical connector 100 is completed. In this case, since the cover 130 is fitted to the connector housing body 1 1 0 by man or machine operation of the auxiliary member 140, the fitting operation is easy even if the cover 1 30 is small, and The fitting operation is easy even in a narrow space, which can reduce the burden on the operator, improve productivity, and reduce production costs. In the present invention, the connector housing body cover may be fitted into the connector housing body by positioning the cover so as to cover the connector housing body and pressing the cover in. However, in the case of this embodiment, the cover 130 is slid and fits into the connector housing body 1 110. In this way, the fitting operation of the connector housing body 110 toward the cover 130 can be smoothly performed by the guide function during sliding. Although the structure in which the cover is slid and fitted to the connector housing body has other structures, in this embodiment, a guide groove 114 is provided in one of the connector housing body 1 10 and the cover 130. The other side is provided with a protruding portion 1 31 that can slide into the guide groove 1 1 4. With these structures, the cover 1 3 0 slides on the connector housing body 1 1 0. Taking this as an example, the cover 1 30 has a structure that slides on the connector housing body 1 1 0. The present invention includes an embodiment in which the diverging portion is not provided in the guide groove. However, in the case of this embodiment, in the connector housing body 1 10 or the cover 1 3 0 -16-200527763 (13), an introduction groove is formed which divides from the guide groove 1 1 4 to another end surface in the middle. 115, from now on, the introduction groove 115 accommodates the protrusion 131 °, so 'the cover 1 3 〇 can be temporarily fixed to the connector housing body 1 1 〇 by inserting the protrusion 1 31 into the introduction groove 1 1 5 and facing the guide groove The fitting operation of the 1 1 4 protrusions 1 3 1 can be easily performed. In addition, according to this embodiment, when the guide groove 114 is almost parallel to the extension direction of the electric wire W, if the introduction groove 1 1 5 is provided in a direction almost perpendicular to the extension direction of the electric wire w, the protrusion 13i is inserted into the introduction groove After inserting the guide groove 1 1 4 after 1 1 5, the protrusion 131 can be inserted into the guide groove 1 14 without hindering the electric wires W. The present invention is an embodiment including no lock mechanism. However, in the case of this embodiment, the connector housing body 110 and the cover 130 are provided with a flexible projection when the fitting of the cover 130 toward the connector housing body 110 is completed. Together, the cover 130 is locked to the locking mechanism of the connector housing body 110. In this case, it is easy to confirm that the fitting is completed. In addition, since the cover 130 does not easily fall off from the connector housing body 110, the cutting operation of the connecting portion 150 becomes easy. The present invention includes an embodiment in which neither the cover nor the connector housing body is provided with a protruding portion for an electric wire. However, in the case of this embodiment, at least one of the connector housing body 110 and the cover 130 is provided with a wire protrusion 1 3 for receiving a gap between the wires. In this way, even when the electric wire w is assembled to swing in a direction crossing the depth direction, the amount of electric wire W swing in the connector housing body 1 10 can be suppressed, and the contact members 1 2 0 and the electric wire W can be prevented. Contact is unstable. The present invention is an embodiment of package a. The cutting portion -17-200527763 (14) is cut using a cutting tool or the like. However, in the case of this embodiment, the connecting portion 150 is a strength that can be cut when a human load is applied to the connecting portion 150 or the auxiliary member 140. In this case, since the connecting portion 1 can be cut by human power, the cutting operation of the connecting portion can be easily performed by a cutting tool or the like. Fig. 17 is a diagram showing the connector housing assembly and the electrical connector. The second embodiment of the body. In the case of this embodiment, the part 1 22 of the contact member 120 is a connection groove that breaks the insulation coating of the electric wire W and connects to the conductor. In addition, the cover 130 is provided with a groove protruding portion 134 to enter the cover 130 and the connection portion 122, that is, a gap between the grooves. The groove projections project from the inner surface of the cover 130 in the height direction. The groove protrusion 134 may be in contact with the groove up to the groove, and may be pressed against the groove. The groove projections are assembled so that the connection can be suppressed even if the electric wire W pulled out from between the connector housing body 110 and the cover 130 is swinging in the direction of a deep square fork such as the height direction and the width direction. The swing amount of W in the device housing body 110 prevents the groove and the contact of the wire W from becoming unstable. The other structures are the same as those of the first embodiment. In this way, the same function and effect as those of the first embodiment can be obtained, and the contact between the groove and the electric wire W can be stabilized. The present invention includes an embodiment in which the electric wire portion 1 3 3 and the groove protruding portion 1 3 4 are provided as in the second embodiment, and the electric wire protrusion is not provided, and only the groove protrusion is provided as described in the second embodiment. According to the description of the above embodiment, the embodiment fully discloses the connector assembly and the electrical connector assembly including the receiving chamber 1 and the contact member 120 stored in the connector housing body 110 of the connector housing. This electrical connector assembly has a degree of 50, and presses and assembles 134 to 134. The junction of the externally-directed cross-wire is maintained as a protruding portion. 0. Case of housing. 1-200527763 (15) The electric wire W is connected to the contact member 1 2 0 so that the electric wire W can pass over the peripheral edge 1 1 3 of the storage chamber 1 1 1. The auxiliary member 1 40 of the cover assembling member a is held by a person's hand, and the cover 13 of the cover assembling member a is fitted into the connector housing body 1 1 0. Next, when the connection portion 150 is cut, the connection of the electric wire W to the electrical connector 100 is completed. The obtained functions and effects are the same as those described in the connector housing assembly. The present invention is an embodiment including the features of the above embodiments. [Brief Description of the Drawings] Fig. 1 is a perspective view showing a connector housing assembly of the first embodiment. Fig. 2 is an enlarged plan view of a connector housing body of the electrical connector according to the first embodiment as viewed from a height direction by accommodating a contact member. Fig. 3 is an enlarged sectional view taken along the line III-III in Fig. 2. Fig. 4 is an enlarged sectional view taken along the line IV-IV in Fig. 2. Fig. 5 is an enlarged plan view of the lid of the first embodiment as viewed from one side in the height direction. Fig. 6 is an enlarged front view of the cover of the first embodiment as viewed from the rear side in the depth direction. Fig. 7 is an enlarged bottom view of the cover of the first embodiment as viewed from the other side in the height direction. Fig. 8 is a cross-sectional view of the lid assembly member according to the first embodiment, which is viewed in the wide direction, in a cross-section of the surface in the wide direction. The hatching is through the connecting portion -19- 200527763 (16) Fig. 9 is a cross-sectional view of the lid assembly member according to the first embodiment in a wide direction and a cross-sectional view seen from the wide direction. The cross-sectional line is a view from which the connection portion is removed. FIG. 10 is a perspective view when the cover assembly member of the first embodiment is fitted to the connector housing body. Fig. 11 is a perspective view when the cover assembling member of the first embodiment is fitted to the connector housing body, and Fig. 10 is a view from another angle. Fig. 12 is a perspective view when the cover assembling member of the first embodiment is fitted to the connector housing body. Fig. 13 is an enlarged perspective view when a wire is connected to the electrical connector of the first embodiment. Fig. 14 is an enlarged rear view of the electrical connector of the first embodiment as viewed from the front in the depth direction by connecting the electric wires. Fig. 15 is an enlarged cross-sectional view of the electrical connector of the first embodiment in which a wire is connected to the electrical connector in a wide direction and viewed from a wide direction. Figure 16 is an enlarged perspective view of a first embodiment in which a wire is connected to the electrical connector of the first embodiment, and the electrical connector is fitted into the electrical connector on the counterpart side. Fig. 17 is an enlarged cross-sectional view of the electrical connector of the second embodiment in which a wire is connected to the electric cable, and a cross-section of the electric connector is viewed in the wide direction. [Description of main component symbols] A cover assembly member W wire-20-200527763 (17) 1 0 0 electrical connector 1 1 0 connector housing body 1 1 1 receiving room 1 12 communicating room 1 1 3 peripheral edge 114 guide groove 115 Lead-in groove 1 2 0 Contact member 1 2 1 Contact portion 122 Connection portion 130 Cover 1 3 1 Projection portion 1 3 1 a Back portion 1 3 1 b Front portion 132 Projection 1 3 3 Projection portion for electric wire 1 3 4 Slot Supplementary member with 150 protrusions 1 50 0 connector 200 plug connector

Claims (1)

200527763 十 X. Scope of patent application 1. A connector housing assembly comprising: a connector housing body (11Q) provided with a harvesting chamber (111) which is open to the outside; The contact member (1 20) of the connector housing body (1 10) and the cover (1 3 0) fitted in the connector housing body (n 0) and covering the accommodation chamber (1 1 1) are connected to the connector. The wire (W) of the point member (: [2 0) is for assembling the electrical connector (1 0 0) which is pulled out from between the connector housing body (1 1 0) and the cover (1 3 0). Connector housing assembly, which is a combination of a connector housing body (110) and a cover assembly member (1 40) connected to the cover (130) by cutting a possible connection portion (1 50), A). 2 · The connector housing assembly according to item 1 of the patent application scope, wherein the cover (130) is slidable and fits into the connector housing body (110). 3. The connector housing assembly according to item 2 of the scope of patent application, wherein one of the connector housing body (110) and the cover (13) is provided with a guide groove (114), and the other side The protruding portion (1 3 1) is provided so that sliding can be inserted into the guide groove (1 1 4), and the cover (1 3 0) can be slid to the connector housing body (11 0) by these. 4 · The connector housing assembly according to item 3 of the scope of patent application, wherein the connector housing body (110) or the cover (13) is formed: from the guide groove (η 4) to other parts on the way The introduction groove (1 1 5) up to the end surface of the opening, and the groove (1 1 5) is introduced from here to receive the protrusion (1 3 1). 5 · The connector housing assembly according to any one of claims 1 to 4, wherein the main body (110) and the canopy (130) -22-200527763 (2) outside the connector are provided: When the mating of the connector housing body (1 1 0) facing the cover (1 3 0) is completed, the cover (1 3 0) is locked to the connector housing body (11 0) by a flexible concave-convex fitting. . 6. The connector housing assembly according to any one of claims 1 to 4, wherein the connection portion (150) has: when a human load is on the connection portion (150) or The degree of strength that can be cut when the member (1 40) is assisted. 7. The connector housing assembly according to item 5 of the scope of patent application, wherein the connection portion (150) has: when the human load is on the connection portion (150) or the auxiliary component (140) The intensity of the cut. 8. An electrical connector assembly comprising: a connector housing assembly according to any one of claims 1 to 7; and a storage chamber (1 10) in which the connector housing body (110) is housed ( 1 1 1) Contact member (1 2 0) -23-