The present application claims priority to and incorporates by reference the entire contents of Japanese Patent Application No. 2018-172817 filed in Japan on Sep. 14, 2018.
The present invention relates to a connection terminal.
A connection terminal including a female connection body, a male connection body inserted into a housing space of the female connection body and electrically connected to the female connection body, and an elastic member configured to bias, in the housing space, the male connection body toward a protruding portion formed on an inner wall surface of the female connection body has been known. In such a connection terminal, holding force for holding the male connection body in the housing space is ensured by the protruding portion and the elastic member.
For example, Japanese Patent Application Laid-open No. 2016-119292 discloses a connector including a male terminal, a female terminal having a tube portion into which the male terminal is inserted, and an elastic member incorporated into the tube portion of the female terminal. Multiple protruding portions protruding inward are formed on an inner wall of the tube portion of the female terminal, and the elastic member biases the male terminal inserted into the tube portion toward a multiple-protruding-portion side. According to the connector of Japanese Patent Application Laid-open No. 2016-119292, motion of the male terminal relative to the female terminal due to vibration applied to the connector can be reduced.
For the connection terminal, it has been demanded that holding force for holding the male connection body be ensured while insertion force upon insertion of the male connection body into the housing space of the female connection body be suppressed low.
An object of the present invention is to provide a connection terminal configured so that holding force for holding a male connection body can be ensured while insertion force upon insertion of the male connection body into a housing space of a female connection body can be suppressed low.
In order to achieve the above mentioned object, a connection terminal according to one aspect of the present invention includes a tubular female connection body having conductivity and having a housing space extending along an axial direction; a male connection body having conductivity and inserted into the housing space to a fitting completion position along the axial direction; and an elastic member supported by an inner wall surface of the female connection body surrounding the housing space, having a contact point portion contacting an outer wall surface of the male connection body, and pressing the male connection body by the contact point portion, wherein the female connection body has a far-side protruding portion protruding from a position of the inner wall surface on a far side in an insertion direction with respect to the contact point portion, and an inlet-side protruding portion protruding from a position of the inner wall surface on an inlet side in the insertion direction with respect to the contact point portion, the far-side protruding portion and the inlet-side protruding portion support the outer wall surface of the male connection body at the fitting completion position against pressing force of the elastic member, the outer wall surface of the male connection body has at least one of a first recessed portion formed at a portion facing the inlet-side protruding portion when the male connection body is inserted into the housing space and a second recessed portion formed at a portion facing the contact point portion when the male connection body is inserted into the housing space, the first recessed portion is, at the outer wall surface of the male connection body, formed along the insertion direction on a front side in the insertion direction with respect to a position facing the inlet-side protruding portion at the fitting completion position, and the second recessed portion is, at the outer wall surface of the male connection body, formed along the insertion direction on the front side in the insertion direction with respect to the position facing the contact point portion at the fitting completion position.
The above and other objects, features, advantages and technical and industrial significance of this invention will be better understood by reading the following detailed description of presently preferred embodiments of the invention, when considered in connection with the accompanying drawings.
Hereinafter, a connection terminal according to an embodiment of the present invention will be described in detail with reference to the drawings. Note that this invention is not limited by this embodiment. Moreover, components of the embodiment below include components easily arrived by those skilled in the art or substantially-identical components.
The embodiment will be described with reference to
As illustrated in
The male terminal 10 is made of a conductive metal material. The male terminal 10 has a male connection body 11, a terminal connection body 12, and a fixing portion 15.
In the male terminal 10, the male connection body 11 is a portion inserted into a later-described housing space HS of the female terminal 20 and electrically connected to the female terminal 20. The male connection body 11 is, for example, formed in a columnar shape. In the embodiment, the male connection body 11 is formed in a circular columnar shape. In the embodiment, an axial direction of the male connection body 11 is an insertion and removal direction for the female terminal 20. Note that in the specification, a direction which is along the insertion and removal direction and in which the male connection body 11 is inserted into the housing space HS of the female terminal 20 will be referred to as an “insertion direction,” and a direction in which the male connection body 11 is removed from the female terminal 20 will be referred to as a “removal direction.”
The terminal connection body 12 is formed in a flat plate shape. The terminal connection body 12 has, for example, an insertion hole 12a into which a terminal screw is to be inserted. The insertion hole 12a is formed in the vicinity of the center of the flat plate-shaped terminal connection body 12.
In the embodiment, the male connection body 11 is formed in such a manner that the periphery of an insulating portion 10a extending in the axial direction is covered with a conductive tubular member 10b (see
The fixing portion 15 is arranged between the male connection body 11 and the terminal connection body 12. The fixing portion 15 has insulation properties, and is provided to cover the tubular member 10b in the vicinity of a base end portion of the terminal connection body 12. A hole 10c is formed at a portion of the tubular member 10b covered with the fixing portion 15, and the fixing portion 15 is integrated with the insulating portion 10a of the male connection body 11 through the hole 10c (see
As illustrated in
The electric wire connection body 22 is a portion electrically connected to a conductive portion of an electric wire (not illustrated). The electric wire connection body 22 is electrically connected to the conductive portion of the electric wire by pressure bonding such as swaging. In the embodiment, the electric wire connection body 22 has a pair of barrel piece portions 22a, 22b facing each other. Each of the barrel piece portions 22a, 22b is wound around the conductive portion (a core wire) of the electric wire and is pressure-bonded, and therefore, the electric wire connection body 22 and the conductive portion of the electric wire are electrically connected to each other. Note that the electric wire connection body 22 may be a portion electrically connected to the conductive portion of the electric wire by, e.g., welding or soldering. The coupling body 23 is arranged between the female connection body 21 and the electric wire connection body 22. The coupling body 23 connects the female connection body 21 and the electric wire connection body 22 to each other. The female terminal 20 is made of a conductive metal material.
As illustrated in
Two far-side protruding portions 24 are arranged with a spacing in a circumferential direction of the inner wall surface 21c in the vicinity of a second-opening-21b-side end portion of the female connection body 21. Moreover, two inlet-side protruding portions 25 are arranged with a spacing in the circumferential direction of the inner wall surface 21c in the vicinity of a first-opening-21a-side (inlet-side) end portion of the female connection body 21. The far-side protruding portions 24 and the inlet-side protruding portions 25 are arranged such that the single far-side protruding portion 24 and the single inlet-side protruding portion 25 are arranged in each of two regions R11, R12 formed by further division of the above-described divided region R1 into two regions along the insertion and removal direction. The regions R11, R12 are regions formed in such a manner that the region R1 is divided in half along the insertion and removal direction. When the female connection body 21 is viewed from a first opening 21a side, the far-side protruding portion 24 and the inlet-side protruding portion 25 are arranged overlapping with each other in the insertion and removal direction.
As illustrated in
In the housing space HS, the elastic member 30 is supported by the inner wall surface 21c. The male-side contact body 33 has a first contact point portion 30a contacting the outer wall surface 11d of the male connection body 11. Moreover, the female-side contact body 34 has multiple second contact point portions 30b contacting the inner wall surface 21c (see
The female connection body 21 and the elastic member 30 have a first stop structure LS1 and a second stop structure LS2. The first stop structure LS1 restricts position shift of the elastic member 30 relative to the female connection body 21 in the insertion direction. The second stop structure LS2 restricts position shift of the elastic member 30 relative to the female connection body 21 in the removal direction.
The first stop structure LS1 includes first stop target portions 31 provided at the elastic member 30, and first stop portions 21d provided at the female connection body 21. As illustrated in
As illustrated in
As illustrated in
The first recessed portion 13 of the embodiment is arranged at an intermediate portion 11c between a front end portion 11a and a back end portion 11b of the male connection body 11. The front end portion 11a is a portion of the male connection body 11, which is inserted to the fitting completion position, contacting the far-side protruding portions 24 (see
The first recessed portion 13 of the embodiment is formed in a groove shape along the insertion direction. The first recessed portion 13 is formed corresponding to the inlet-side protruding portion 25, and in the embodiment, two first recessed portions 13 are formed at the intermediate portion 11c of the male connection body 11. Two first recessed portions 13 are arranged in a circumferential direction of the male connection body 11. The width of the first recessed portion 13 is formed with such a width that the inlet-side protruding portion 25 enters the first recessed portion 13.
The first recessed portion 13 has a first inclined surface 13a, a second inclined surface 13b, and a bottom surface 13c. The bottom surface 13c is a surface recessed with respect to a surface of the outer wall surface 11d of the male connection body 11 surrounding the first recessed portion 13. The amount of recess of the bottom surface 13c with respect to the surface surrounding the first recessed portion 13 corresponds to the height of protrusion of the inlet-side protruding portion 25 from the inner wall surface 21c. The amount of recess of the bottom surface 13c in the embodiment is at the same level as the height of protrusion of the inlet-side protruding portion 25 from the inner wall surface 21c. The bottom surface 13c is arranged between the first inclined surface 13a and the second inclined surface 13b. The first inclined surface 13a is arranged on a front end portion 11a side with respect to the bottom surface 13c. The second inclined surface 13b is arranged on a back end portion 11b side with respect to the bottom surface 13c. The first inclined surface 13a extends along the insertion and removal direction, and is inclined from a front-end-portion-11a-side end portion of the bottom surface 13c to the outer wall surface 11d of the front end portion 11a. The second inclined surface 13b extends along the insertion and removal direction, and is inclined from a back-end-portion-11b-side end portion of the bottom surface 13c to the outer wall surface 11d of the back end portion 11b.
The process of inserting the male connection body 11 into the housing space HS in the embodiment will be described with reference to
As illustrated in
As the male connection body 11 advances in the housing space HS in the insertion direction, each inlet-side protruding portion 25 moves relative to the male connection body 11 along the first inclined surface 13a, the bottom surface 13c, and the second inclined surface 13b in the first recessed portion 13. By such relative movement, each inlet-side protruding portion 25 passes by the first recessed portion 13. The first recessed portion 13 is, at the outer wall surface 11d of the male connection body 11, formed along the insertion direction in an area on the front side (the front end portion 11a side) in the insertion direction with respect to a position facing the inlet-side protruding portion 25 and the back side (a terminal connection body 12 side) in the insertion direction with respect to a position facing the far-side protruding portion 24 at the fitting completion position. In the embodiment, after the male connection body 11 has moved over the far-side protruding portions 24, the male connection body 11 further advances along the insertion direction in the housing space HS, and therefore, each inlet-side protruding portion 25 passes by the first recessed portion 13.
The male connection body 11 further advances along the insertion direction in the housing space HS, and the back end portion 11b moves over the inlet-side protruding portions 25. As illustrated in
Note that in the embodiment, description has been made using an example where the first recessed portions 13 are formed at the intermediate portion 11c, but the present invention is not limited to such an example. For example, the first recessed portions 13 may be, at the outer wall surface 11d of the male connection body 11, formed along the insertion direction on the front side in the insertion direction with respect to the positions facing the inlet-side protruding portions 25 at the fitting completion position. Thus, the first recessed portion 13 may be formed from the intermediate portion 11c to a front end of the front end portion 11a along the insertion direction.
In this case, the height of protrusion of the far-side protruding portion 24 may be set greater than the height of protrusion of the inlet-side protruding portion 25 so that the far-side protruding portions 24 can hold, together with the inlet-side protruding portions 25 and the elastic member 30, the male connection body 11 at the fitting completion position. For example, the far-side protruding portions 24 contact portions of the front end portion 11a provided with the first recessed portions 13, and together with the inlet-side protruding portion 25 and the elastic member 30, hold the male connection body 11 at the fitting completion position.
Moreover, in a case where each first recessed portion 13 is formed from the intermediate portion 11c to the front end of the front end portion 11a along the insertion direction, when the female connection body 21 is viewed from the first opening 21a side, the inlet-side protruding portions 25 and the far-side protruding portions 24 may be arranged not overlapping with each other in the insertion direction. With such arrangement, when the male connection body 11 is inserted into the housing space HS, the far-side protruding portions 24 do not fall into the first recessed portions 13, and together with the inlet-side protruding portions 25 and the elastic member 30, can hold the male connection body 11 at the fitting completion position. For example, when the female connection body 21 is viewed from the first opening 21a side, two inlet-side protruding portions 25 arranged apart from each other in the circumferential direction of the inner wall surface 21c may be positioned between two far-side protruding portions 24 arranged apart from each other in the circumferential direction of the inner wall surface 21c.
Note that in the embodiment, the housing space HS of the female connection body 21 has been described as a circular columnar space, but the present invention is not limited to above. For example, the housing space HS may be a triangular columnar space or a quadrangular columnar space. Moreover, the above-described male connection body 11 has been described as a circular columnar member, but the present invention is not limited to above. The male connection body 11 may be, for example, a triangular columnar member or a quadrangular columnar member as long as the male connection body 11 is in a shape insertable into the housing space HS and fittable in the female connection body 21.
Note that as illustrated in
A variation of the embodiment will be described with reference to
As illustrated in
The bottom surface 16a is a surface recessed with respect to the outer wall surface 11d at the periphery of the second recessed portion 16. The inclined surface 16b is a surface inclined from an intermediate-portion-11c-side end portion of the bottom surface 16a to the outer wall surface 11d at the periphery of the second recessed portion 16.
As illustrated in
As illustrated in
Thereafter, as illustrated in
Note that in the variation, the first recessed portions 13 are not necessarily formed. Moreover, a back end portion of the second recessed portion 16 in the insertion direction may be, at the fitting completion position, formed to a position right before the position facing the first contact point portion 30a. That is, the second recessed portion 16 may be formed from the front end portion 11a to the intermediate portion 11c of the male connection body 11.
As described above, the connection terminal 1 according to the embodiment and the variation includes the tubular female connection body 21 having conductivity and having the housing space extending along the axial direction, the male connection body 11 having conductivity and inserted into the housing space HS to the fitting completion position along the axial direction, and the elastic member 30 supported by the inner wall surface 21c of the female connection body 21 surrounding the housing space HS, having the contact point portions (the first contact point portions 30a) contacting the outer wall surface 11d of the male connection body 11, and pressing the male connection body 11 by the contact point portions 30a. The female connection body 21 has the far-side protruding portions 24 protruding from the positions of the inner wall surface 21c on the far side in the insertion direction with respect to the contact point portions 30a, and the inlet-side protruding portions 25 protruding from the positions of the inner wall surface 21c on the inlet side (the first opening 21a side) in the insertion direction with respect to the contact point portions 30a. The far-side protruding portions 24 and the inlet-side protruding portions 25 support the outer wall surface 11d of the male connection body 11 at the fitting completion position against the pressing force of the elastic member 30. The outer wall surface 11d of the male connection body 11 has at least one of the first recessed portions 13 formed at the portions facing the inlet-side protruding portions 25 when the male connection body 11 is inserted into the housing space HS or the second recessed portion 16 formed at the portion facing the contact point portion 30a when the male connection body 11 is inserted into the housing space HS. The first recessed portions 13 are, at the outer wall surface 11d of the male connection body 11, formed along the insertion direction on the front side in the insertion direction with respect to the position facing the inlet-side protruding portion 25 at the fitting completion position. The second recessed portion 16 is, at the outer wall surface 11d of the male connection body 11, formed along the insertion direction on the front side in the insertion direction with respect to the position facing the contact point portion 30a at the fitting completion position.
The connection terminal 1 according to the embodiment has at least one of the first recessed portions 13 formed at the portions facing the inlet-side protruding portions 25 when the male connection body 11 is inserted into the housing space HS or the second recessed portion 16 formed at the portion facing the first contact point portion 30a when the male connection body 11 is inserted into the housing space HS. In a case where the connection terminal 1 according to the embodiment has the first recessed portions 13, when the male connection body 11 is inserted into the housing space HS, the inlet-side protruding portions 25 pass along the first recessed portions 13, and therefore, mechanical interference of the inlet-side protruding portions 25 with the male connection body 11 can be reduced. Moreover, in a case where the connection terminal 1 according to the embodiment has the second recessed portion 16, when the male connection body 11 is inserted into the housing space HS, the first contact point portion 30a passes along the second recessed portion 16, and therefore, mechanical interference of the first contact point portion 30a with the male connection body 11 can be reduced. When the male connection body 11 is inserted to the fitting completion position, the male connection body 11 is held by the elastic member 30, the far-side protruding portions 24, and the inlet-side protruding portions 25 in the housing space HS. Thus, according to the connection terminal 1 of the embodiment, holding force for holding the male connection body 11 can be ensured while insertion force upon insertion of the male connection body into the housing space of the female connection body can be suppressed low.
In the connection terminal 1 according to the embodiment and the variation, the male connection body 11 has at least the first recessed portions 13, and the first recessed portions 13 are formed in the groove shape along the insertion direction.
Since the first recessed portion 13 is formed in the groove shape along the insertion direction, the first recessed portion 13 can be used as a guide portion configured to guide the inlet-side protruding portion 25. In this case, when the male connection body 11 is inserted into the housing space HS, rotation of the male connection body 11 in the circumferential direction of the inner wall surface 21c relative to the female connection body 21 can be restricted by the first recessed portions 13. For example, in a case where the second recessed portion 16 is formed at the male connection body 11, when the male connection body 11 is inserted into the housing space HS, shift of the second recessed portion 16 and the first contact point portion 30a from the position at which these portions facing each other can be reduced.
In the connection terminal 1 according to the embodiment and the variation, the male connection body 11 has the first recessed portions 13, and the area of the outer wall surface 11d of the male connection body 11 where the first recessed portions 13 are formed includes the positions facing the inlet-side protruding portions 25 when the contact point portions 30a start contacting the outer wall surface 11d of the male connection body 11 inserted into the housing space HS.
With this configuration, the inlet-side protruding portions 25 are arranged in the first recessed portions 13 when the outer wall surface 11d of the male connection body 11 starts contacting the first contact point portions 30a. Thus, an increase in the insertion force generated when the male connection body 11 pressed by the first contact point portions 30a contacts the inlet-side protruding portions 25 can be suppressed. Thus, the insertion force upon insertion of the male connection body 11 into the housing space HS can be suppressed low.
In the connection terminal 1 according to the variation, the male connection body 11 has the second recessed portion 16, and the second recessed portion 16 is formed to the front end of the outer wall surface 11d of the male connection body 11 in the insertion direction. The male connection body 11 receives the pressing force from the first contact point portion 30a, and therefore, the insertion force necessary for insertion into the housing space HS increases. The connection terminal 1 according to the variation can delay reception of the pressing force from the first contact point portion 30a by the male connection body 11 inserted into the housing space HS. Thus, a period for which the insertion force necessary for inserting the male connection body 11 into the housing space HS increases can be shortened.
The contents disclosed in the above-described embodiment and variation can be implemented in combination, as necessary.
In a connection terminal according to the present embodiments, at least one of a first recessed portion formed at a portion facing an inlet-side protruding portion when a male connection body is inserted into a housing space or a second recessed portion formed at a portion facing a contact point portion when the male connection body is inserted into the housing space is provided. In the connection terminal according to the present invention, insertion force upon insertion of the male connection body into a female connection body is suppressed low by at least one of the first recessed portion or the second recessed portion. Thus, according to the connection terminal of the present invention, an advantageous effect that holding force for holding the male connection body can be ensured while the insertion force upon insertion of the male connection body into the housing space of the female connection body can be suppressed low is provided.
Although the invention has been described with respect to specific embodiments for a complete and clear disclosure, the appended claims are not to be thus limited but are to be construed as embodying all modifications and alternative constructions that may occur to one skilled in the art that fairly fall within the basic teaching herein set forth.
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2018-172817 | Sep 2018 | JP | national |
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Number | Date | Country | |
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20200091645 A1 | Mar 2020 | US |