The present international application is an application claiming a priority of Japanese patent application No. 2017-008935 filed on Jan. 20, 2017 with Japanese Patent Office, and the entire contents of Japanese patent application No. 2017-008935 are incorporated herein by reference.
The present invention relates to a circuit connection device.
There is publicly known a structure in which, for instance, in a gas sensor device of a vehicle, a circuit board for controlling or driving a sensor is protected with a case (see Patent Document 1). In such a sensor device, not only the circuit board for controlling or driving the sensor, but also a terminal core that is a resin-molded product having a terminal that connects the circuit board and a cable etc., are placed in the case.
Patent Document 1: Japanese Unexamined Patent Application Publication No. JP2012-141300
Depending on type or processing content of the sensor, the circuit board in the case is enlarged, then an entire length of the circuit board might be increased. In this case, since an entire length of the case is also increased, in the related art sensor device, there is a risk that adjustment of inserting positions of the circuit board and the terminal core will be difficult then this will cause a poor connection (or connection failure).
An object of the present invention is therefore to provide a circuit connection device that is capable of facilitating positioning of the circuit board and the terminal core (positioning between the circuit board and the terminal core) in the case.
One aspect of the present invention is a circuit connection device for connecting a circuit to an electronic device. The circuit connection device comprises: one or a plurality of first terminals; a circuit board; a tubular case body; a terminal inserting portion; a terminal core; and a guide. The one or the plurality of first terminals is electrically connected the circuit board. The case body accommodates therein the circuit board and has at one end thereof an opening. The terminal inserting portion has one or a plurality of penetration holes and closes the opening of the case body. The terminal core is placed in the case body. The guide is configured to guide the terminal core in an axis direction of the case body. The one or the plurality of first terminals is inserted into the one or the plurality of penetration holes of the terminal inserting portion. The terminal core has: one or a plurality of second terminals electrically connected to the circuit board; and an insulating retainer retaining the one or the plurality of second terminals. The retainer has a positioning portion configured to maintain a position relationship with the circuit board.
According to such configuration, first, after fixing the terminal core to the terminal inserting portion, a relative position between the terminal core and the circuit board can be previously fixed by the positioning portion. Next, by inserting the terminal core and the circuit board into the case body together with the terminal inserting portion and fitting the terminal inserting portion to the case body, the terminal core and the circuit board are maintained at an intended position. Further, by the guide guiding the terminal core in the axis direction of the case body, even in a case where the case body is long, it is possible to smoothly insert the terminal core and the circuit board into the case body. It is consequently possible to facilitate the positioning of the circuit board and the terminal core (the positioning between the circuit board and the terminal core) in the case body.
According to another aspect of the present invention, the circuit board could have at least one board penetration hole. And, the positioning portion could include at least one protrusion that is fitted into the at least one board penetration hole of the circuit board. According to such configuration, it is possible to perform the positioning between the terminal core and the circuit board by a simple structure, and also to improve the workability of the positioning.
According to a further aspect of the invention, when a length of the circuit board in the axis direction of the case body is L, positioning of the circuit board by the positioning portion could be made at a position that is L/3 or more away from an end portion, located at a terminal inserting portion side, of the circuit board. According to such configuration, it is possible to prevent a position of the circuit board from shifting in the case body.
According to a still further aspect of the invention, the terminal inserting portion could have a protruding plate that protrudes inwards in the axis direction of the case body. And, the retainer could have an engaging portion that is engaged with the terminal inserting portion. Further, the engaging portion could include at least one nail that is engaged with the protruding plate of the terminal inserting portion. According to such configuration, it is possible to fix the terminal core to the terminal inserting portion easily and surely.
According to a still further aspect of the invention, the first terminal could be a crimping terminal that is fixed to a tip end of a connecting cable. And, the terminal inserting portion could have a movement restraining surface with which a top end portion of the crimping terminal is engaged. According to such configuration, an increase of a contact resistance can be suppressed, then, it is possible to reduce error of a sensor signal using minute electric current. In addition, it is possible to prevent the crimping terminal from coming off.
According to a still further aspect of the invention, an area, which is a cross section that is perpendicular to the axis direction of the case body, of an inside space of the case body could be smaller from the opening of case body toward an opposite side to the opening. According to such configuration, it is possible to improve the workability of the insertion of the terminal core and the circuit board into the case body.
Another aspect of the present invention is electronic equipment having the circuit connection device and an electronic device that is electrically connected to the one or the plurality of first terminals. According to such configuration, it is possible to improve reliability of connection between the electronic device and the circuit board.
1, 201 . . . circuit connection device, 2, 202 . . . case body, 3, 203 . . . terminal inserting portion, 4, 5, 204 . . . connecting cable, 6, 206 . . . circuit board, 7, 207 . . . first terminal, 8 . . . terminal core, 22, 202B . . . ridge line, 32, 281A . . . movement restraining surface, 33 . . . protruding plate, 61, 206A . . . board penetration hole, 71, 271 . . . top end portion, 81, 210 . . . second terminal, 81A, 210A . . . top end portion, 81B, 210B . . . band portion, 82 . . . retainer, 82A . . . guide, 82B, 209B . . . positioning portion (protrusion), 82C, 209D . . . engaging portion, 82D, 209A . . . sandwiching surface, 83 . . . nail, 100 . . . electronic equipment, 101 . . . electronic device, 208 . . . first retainer, 209 . . . second retainer, 211 . . . seal member, 281 . . . terminal retaining portion, 282 . . . terminal holding portion, 209C . . . recessed portion.
Embodiments to which the present invention is applied will be explained below with reference to the drawings.
A circuit connection device 201 shown in
The circuit connection device 201 has, as shown in
Here, the second retainer 209 and second terminals 210 form a terminal core. In the drawings, an X-axis is an axis that is parallel to a center axis of the case body 202, a Z-axis is an axis that is perpendicular to a plate surface of the circuit board 206, and a Y-axis is an axis that is perpendicular to the X-axis and the Z-axis.
<Case Body>
The case body 202 is a bottomed tubular body whose one end is an opening end and whose other end is a closed end. The case body 202 is usually made of resin.
As shown in
The case body 202 is provided, at the opposite side to the opening thereof (i.e. at a bottom portion of the tubular body), with a connector 202A to which an electronic component is electrically connected. The connector 202A extends in the X-axis direction.
The case body 202 has, as shown in
<Terminal Inserting Portion>
The terminal inserting portion 203 is a tubular body whose length in the center axis direction is shorter than that of the case body 202. The terminal inserting portion 203 is usually made of resin, which is the same as the case body 202.
The terminal inserting portion 203 closes the opening of the case body 202 by being fitted onto a distal end at the opening side of the case body 202. As shown in
<Circuit Board>
As shown in
The plurality of first terminals 207 and the plurality of second terminals 210 are electrically connected to the circuit board 206. The circuit board 206 sends and receives signals between the circuit board 206 and the device that is electrically connected to the plurality of first terminals 207 or the plurality of second terminals 210, and also supplies and receives power between the circuit board 206 and the device.
The circuit board 206 is provided with two positioning board penetration holes 206A into which two positioning portions 209B of the after-mentioned second retainer 209 are fitted respectively. The two board penetration holes 206A penetrate the circuit board 206 in a thickness direction of the circuit board 206.
<First Terminal>
As shown in
Crimping portions of the first terminals 207 are inserted into respective penetration holes 282A of an after-mentioned terminal holding portion 282 of the first retainer 208. Each of the first terminals 207 has the top end portion 271 that extends toward an inside of the case body 202 while being held in the penetration hole 282A of the terminal holding portion 282.
As shown in
As shown in
The protruding portion 271B is a part that extends from an X-axis direction end portion of the band portion 271A. A width of the protruding portion 271B is smaller than that of the band portion 271A. The protruding portion 271B is bent in the Z-axis direction toward the circuit board 206.
<First Retainer>
The first retainer 208 is an insulating member placed in the case body 202. The first retainer 208 has the terminal retaining portion 281 and the terminal holding portion 282. The first retainer 208 is accommodated in the case body 202 together with the second retainer 209.
(Terminal Retaining Portion)
The terminal retaining portion 281 is a member that retains the top end portions 271 of the plurality of first terminals 207. As shown in
The movement restraining surface 281A supports the band portions 271A of the top end portions 271 of the plurality of first terminals 207 in the Z-axis direction. The plurality of protrusions 281B protrude in the Z-axis direction from the movement restraining surface 281A. The protrusions 281B are inserted in the penetration openings 271C of the top end portions 271 respectively.
The wall portion 281C encloses the plurality of band portions 271A so as to restrain a movement in the Y-axis direction (i.e. in a width direction) and a movement toward a protruding portion 271B side of the band portion 271A. The wall portion 281C has a plurality of recessed portions that are recessed in the Z-axis direction. The protruding portions 271B of the top end portions 271 protrude from the terminal retaining portion 281 through these recessed portions respectively.
(Terminal Holding Portion)
The terminal holding portion 282 is a member into which the plurality of first terminals 207 are inserted.
The terminal holding portion 282 has the plurality of penetration holes 282A. The plurality of penetration holes 282A extend in the X-axis direction. By the fact that the plurality of first terminals 207 are inserted into the plurality of penetration holes 282A respectively, the band portions 271A are accommodated or fitted in respective small holes or slots (i.e. cut-out portions) that are formed at the penetration holes 282A, thereby restraining a movement in the Z-axis direction of each first terminal 207.
Therefore, the first retainer 208 forms a retainer mechanism that restrains a movement, in the center axis direction of the case body 202 (i.e. the X-axis direction) and a direction that is perpendicular to the center axis of the case body 202 and parallel to the plate surface of the circuit board 206 (i.e. the Y-axis direction), of each first terminal 207 in a state in which the first retainer 208 is not engaged with the second retainer 209.
As shown in
<Second Retainer>
The second retainer 209 is an insulating member placed in the case body 202 together with the first retainer 208. The second retainer 209 is made of, for instance, resin. The second retainer 209 in the present embodiment is a resin-molded component in which the plurality of second terminals 210 are inserted. The second retainer 209 is configured to be able to be engaged with the first retainer 208. The terminal core formed by the second retainer 209 and the second terminals 210 in this mariner is placed in the case body 202.
The second retainer 209 has, as shown in
The plurality of sandwiching surfaces 209A are provided at a terminal inserting portion 203 side of a body of the second retainer 209. More specifically, the plurality of sandwiching surfaces 209A are provided on a surface, located at a circuit board 206 side, of the second retainer 209, and each sandwiching surface 209A faces the movement restraining surface 281A of the terminal retaining portion 281.
The plurality of sandwiching surfaces 209A sandwich and support the respective top end portions 271 of the plurality of first terminals 207 in cooperation with the opposing terminal retaining portion 281. That is, the first retainer 208 and the second retainer 209 are configured to restrain the movements in all directions of the plurality of first terminals 207 in a state in which the first retainer 208 and the second retainer 209 are engaged with each other.
The two positioning portions 209B are each a rod-like protrusion that extends parallel to the Z-axis from the body of the second retainer 209 toward the circuit board 206. Each of the positioning portions 209B is formed so as to be able to be fitted into the board penetration hole 206A of the circuit board 206. The two positioning portions 209B are provided at both end portions in the Y-axis direction of the second retainer 209 one by one.
The two recessed portions 209C are formed at both end side surfaces in the Y-axis direction of the second retainer 209 respectively. Each recessed portion 209C is a part formed by opposing two walls that face to each other in the Z-axis direction. Each recessed portion 209C has a groove shape that extends in the X-axis direction.
The recessed portions 209C are engaged with the respective ridge lines 202B of the case body 202. Each of the recessed portions 209C is configured so as to be able to slide with respect to the ridge 202B in the X-axis direction. Therefore, the two recessed portions 209C and the two ridge lines 202B form a guide that guides the terminal core formed by the first retainer 208 and the second retainer 209 in the center axis direction of the case body 202.
The two engaging portions 209D are each a nail that is engaged with the first retainer 208. The engaging portions 209D each extend parallel to the Z-axis from end portions in the Y-axis direction of the body of the second retainer 209 toward the terminal retaining portion 281 of the first retainer 208, and tip ends of the engaging portions 209D are bent inwards in the Y-axis direction. As shown in
As shown in
Each of the top end portions 210A extends in the Z-axis direction from the body of the second retainer 209 toward the circuit board 206. An end portion, located at an opposite side to the top end portion 210A, of each band portion 210B protrudes in the X-axis direction from the body of the second retainer 209, and is exposed without being covered with the second retainer 209.
<Seal Member>
As shown in
<Manufacturing Method>
A manufacturing method namely an assembling method, of the circuit connection device 201 will be explained here.
The manufacturing method of the circuit connection device 201 includes a first process in which the first retainer 208 is assembled, a second process in which the second retainer 209 is engaged with the first retainer 208 and a third process in which the first retainer 208 and the second retainer 209 are inserted into the case body 202.
(First Process)
In this process, first, the first terminals 207 are inserted into the terminal inserting portion 203. At this time, the terminal inserting portion 203 is positioned so as to be shifted to an overlapping position where the terminal inserting portion 203 overlaps sheaths of the connecting cables 204. Subsequently, the terminal retaining portion 281 and the terminal holding portion 282 are coupled to each other, then the first retainer 208 is assembled. Further, the seal member 211 is secured to the terminal holding portion 282.
(Second Process)
In this process, first, the plurality of first terminals 207 are inserted into the terminal holding portion 282, and the plurality of top end portions 271 are retained by the terminal retaining portion 281. Subsequently, the top end portions 271 of the plurality of first terminals 207 are bent in the Z-axis direction. In this state, the second retainer 209 is engaged with the first retainer 208. Further, the circuit board 206 is mounted to the second retainer 209 (the second retainer 209 is mounted on the circuit board 206) by or through the two positioning portions 209B.
At this time, the top end portions 271 of the plurality of first terminals 207 and the top end portions 210A of the plurality of second terminals 210 are inserted into the plurality of through holes 206B and the plurality of through holes 206C of the circuit board 206 respectively. These terminals are electrically connected to the circuit board 206 by soldering.
(Third Process)
In this process, a circuit component including the first retainer 208, the second retainer 209 and the circuit board 206 is inserted into the case body 202.
More specifically, the second terminals 210 are covered with the case body 202 so that the top ends, located at an opposite side to the terminal inserting portion 203, of the second terminals 210 are inserted into the opening of the case body 202. At this time, the circuit component is moved parallel to the X-axis with the two recessed portions 209C of the second retainer 209 being engaged with the two ridge lines 202B of the case body 202. Afterwards, the terminal inserting portion 203 is moved so as to slide up to a position at which the terminal inserting portion 203 is engaged with the case body 202 along the longitudinal direction of the case body 202 (i.e. along the X-axis direction).
In a state in which the terminal inserting portion 203 and the case body 202 are fixed, a position of the circuit board 206 with respect to the second retainer 209 is maintained by the two positioning portions 209B. Therefore, the circuit board 206 is held or maintained at a certain or predetermined position in the case body 202. In this manner, the circuit connection device 201 can be obtained.
[1-2. Effect]
According to the embodiment described above, the following effects can be obtained.
(1a) After fixing the second retainer 209 to the terminal inserting portion 203 through the first retainer 208, a relative position between the second retainer 209 and the circuit board 206 can be previously fixed before being inserted into the case body 202. Therefore, by inserting the terminal core (i.e. the first retainer 208 and the second retainer 209) and the circuit board 206 into the case body 202 together with the terminal inserting portion 203 and fitting the terminal inserting portion 203 to the case body 202, it is possible to maintain the terminal core and the circuit board 206 at an intended position.
(1b) Since the second retainer 209 has the recessed portions 209C engaged with the respective ridge lines 202B of the case body 202, even in a case where the inside of the case body 202 is long (i.e. even in a case where the circuit board 206 is long), the terminal core and the circuit board 206 can be smoothly inserted into the case body 202. It is therefore possible to facilitate the positioning of the circuit board 206 and the terminal core (the positioning between the circuit board 206 and the terminal core) in the case body 202. Further, it is possible to prevent the circuit board 206 from striking against the inner surface of the case body 202 and from breaking when being inserted into the case body 202.
A circuit connection device 1 shown in
The circuit connection device 1 has, as shown in
<Case Body>
The case body 2 is a bottomed tubular body whose one end is an opening end and whose other end is a closed end. The case body 2 is usually made of resin.
As shown in
The plurality of first connecting cables 4 that are connected to the circuit board 6 are inserted into the case body 2 in the X-axis direction. More specifically, the case body 2 is provided, on its bottom surface 21 located at the opposite side to the opening, with a plurality of penetration holes, and the plurality of second connecting cables 5 are inserted into these plurality of penetration holes.
The case body 2 has, as shown in
An area, which is a cross section (an Y-Z surface) that is perpendicular to the center axis of the case body 2, of an inside space of the case body 2 is gradually smaller from the opening of the case body 2 toward an opposite side to the opening. More specifically, a width in the Y-axis direction of an area where the circuit board 6 is accommodated is gradually smaller (narrower) from the opening toward the bottom surface 21.
The case body 2 has, on an cuter surface thereof, a mounting portion 24 to which a bracket etc. for securing the circuit connection device 1 to other member such as a vehicle body of a vehicle are mounted. In the present embodiment, the drawings show, as an example, a mechanism to mount the bracket to the mounting portion 24 in a sliding manner.
<Terminal Inserting Portion>
The terminal inserting portion 3 is a bottomed tubular body whose length in the center axis direction is shorter than that of the case body 2. The terminal inserting portion 3 is usually made of resin, which is the same as the case body 2
The terminal inserting portion 3 closes the opening of the case body 2 by being fitted onto a distal end at the opening side of the case body 2. More specifically, the terminal inserting portion 3 has a plurality of fitting holes 31, and fitting nails 23 of the case body 2 are fitted into these fitting holes 31, then the terminal inserting portion 3 is fixed to the case body 2.
As shown in
As shown in
Further, as shown in
Circuit Board>
The circuit board 6 has a rectangular outside shape. The circuit board 6 is accommodated in the case body 2 so that a longitudinal direction of the circuit board 6 is parallel to the center axis direction of the case body 2. A plurality of electronic components are mounted on the circuit board 6.
As shown in
As shown in
<First Terminal>
As shown in
Crimping portions of the first terminals 7 are inserted into the respective penetration holes of the terminal inserting portion 3. The top end portions 71 of the first terminals 7 extend along the penetration holes of the terminal inserting port ion 3 toward the inside of the case body 2. And, as shown in
<Terminal Core>
The terminal core 8 is a member that is placed in the case body 2 and electrically connects the second connecting cables 5 and the circuit board 6. The terminal core 8 has a positioning function of the circuit board 6 in the case body 2.
The terminal core 8 has the plurality of second terminals 81 and the insulating retainer 82 that supports the plurality of second terminals 81.
The plurality of second terminals 81 are made of, for instance, metal. As this material, for instance, copper alloy, such as brass (Cu—Zn series), phosphor bronze (Cu—Sn—P series), beryllium copper (Cu—Be series) and Corson copper (Cu—Ni—Si series), can be used.
The retainer 82 is made of, for instance, resin. As this resin, for instance, crystalline resin, such as polyamide (PA), polybutylene terephthalate (PBT) and polyphenylene sulfide (PPS), can be used. Typically, the retainer 82 is a resin-molded component in which the plurality of second terminals 81 are inserted.
(Second Terminal)
As shown in
Each of the top end portions 81A is formed so that its width is smaller (narrower) than that of the band portion 81B. Each of the top end portions 81A extends in the Z-axis direction from the body of the retainer 82 toward the circuit board 6. An end portion, located at an opposite side to the top end portion 81A, of each band portion 81B protrudes in the X-axis direction from an end portion, located at a bottom surface 21 side of the case body 2, of the retainer 82, and is exposed without being covered with the retainer 82.
(Retainer)
The retainer 82 has a plate body. The retainer 82 is placed close to the inner surface of the case body 2 so that one side surface of the body faces the circuit board 6.
As shown in
As shown in
The positioning portion 82B is formed by the single rod-like protrusion 82B that extends parallel to the Z-axis from the body of the retainer 82 toward the circuit board 6. The protrusion 82B is formed so as to be able to be fitted into the board penetration hole 61 of the circuit board 6. The protrusion 82B is formed at an end portion in the Y-axis direction of the retainer 82. Further, at an end portion, located at an opposite side to the protrusion 82B in the Y-axis direction, of the retainer 82, a rod-like auxiliary protrusion 82E that extends parallel to the protrusion 82B is provided.
As shown in
The engaging portion 82C is formed by a pair of nails 83 that are engaged with the pair of protruding plates 33 of the terminal inserting portion 3 respectively and a pair of stoppers 84.
The pair of nails 33 each extend parallel to the Z-axis direction from the both end portions in the Y-axis direction of the body of the retainer 82 toward the circuit board 6, and tip ends of the nails 83 are bent inwards in the Y-axis direction. As shown in
The pair of stoppers 84 are provided close to the pair of nails 83 at the both end portions in the Y-axis direction of the body of the retainer 82. The pair of stoppers 84 are each a protrusion that protrudes parallel to the Z-axis direction toward the circuit board 6. A thickness in the Y-axis direction of the stopper 84 is greater than that of the nail 83. By the fact that the pair of stoppers 84 are engaged with respective recessed portions, which are recessed in the Z-axis direction, of the pair of protruding plates 33, a movement in the X-axis direction of the terminal core 8 is restrained.
The plurality of sandwiching surfaces 82D are formed at a portion, located at a terminal inserting portion 3 side, of the body of the retainer 82. More specifically, the plurality of sandwiching surfaces 82D, Z-axis direction positions of which are different, are formed in a staggered configuration at the portion, located at a circuit board 6 side, of the retainer 82. The plurality of sandwiching surfaces 82D sandwich and support the respective top end portions 71 of the plurality of first terminals 7 in cooperation with the opposing movement restraining surfaces 32 between the first terminals 7 and the movement restraining surfaces 32.
<Manufacturing Method>
A manufacturing method, namely an assembling method, of the circuit connection device 1 will be explained here.
The manufacturing method of the circuit connection device 1 includes a first process in which the terminal core 8 is fixed to the terminal inserting portion 3, a second process in which the circuit board 6 is mounted to the terminal core 8 having been fixed to the terminal inserting portion 3 and a third process in which the terminal core 8 having mounted thereto the circuit board 6 is inserted into the case body 2.
(First Process)
In this process, first, the plurality of first terminals 7 connecting to the plurality of first connecting cables 4 are inserted into the terminal inserting portion 3, and the top end portions 71 of the plurality of first terminals 7 are bent in the Z-axis direction.
Next, as shown in
(Second Process)
In this process, as shown in
At this time, the top end portions 71 of the plurality of first terminals 7 and the top end portions 81A of the plurality of second terminals 81 are inserted into the plurality of through holes of the circuit board 6 respectively. These terminals are electrically connected to the circuit board 6 by soldering.
(Third Process)
In this process, a circuit component including the terminal inserting portion 3, the terminal core 8 and the circuit board 6 shown in
At this time, the circuit component is moved parallel to the X-axis with the guide 82A of the terminal core 8 being engaged with the ridge line 22 of the case body 2. Here, before inserting the circuit component into the case body 2, parts of the second connecting cables 5 are previously set in the respective penetration holes formed on the bottom surface 21 of the case body 2. More specifically, the second connecting cables 5 are each set in the respective penetration holes so that a crimping terminal (not shown) fixed to a tip end (i.e. a core wire portion) of each second connecting cable 5 is set at a predetermined position of the penetration hole formed on the bottom surface 21.
As shown in
In a state in which the terminal inserting portion 3 and the case body 2 are fixed together, a movement of the terminal core 8 with respect to the terminal inserting portion 3 is restrained by the engaging portion 82C and the pair of protruding plates 33 being engaged with each other. Further, a position of the circuit board 6 with respect to the terminal core 8 is maintained by the protrusion 82B. With the above structures, the circuit board 6 is held or maintained at a certain or predetermined position in the case body 2. In this manner, the circuit connection device 1 can be obtained.
Here, anti-seizing agent is applied to the outer surface of the case body 2. Further, a metal fitting (e.g. a bracket for screw fixing) for fixing the circuit connection device 1 to other member is mounted to the mounting portion 24 of the case body 2.
[2-2. Effect]
According to the embodiment described above, the following effects can be obtained.
(2a) After engaging the terminal core 8 with the terminal inserting portion 3 by the pair of nails 83, a relative position between the terminal core 8 and the circuit board 6 can be previously fixed by the protrusion 82B before being inserted into the case body 2. Therefore, by inserting the terminal core 8 and the circuit board 6 into the case body 2 together with the terminal inserting portion 3 and fitting the terminal inserting portion 3 to the case body 2, it is possible to maintain the terminal core 8 and the circuit board 6 at an intended position.
(2b) Since the terminal core 8 has the guide 82A engaged with the ridge line 22 of the case body 2, even in a case where the inside of the case body 2 is long (i.e. even in a case where the circuit board 6 is long), the terminal core 8 and circuit board 6 can be smoothly inserted into the case body 2. It is therefore possible to facilitate the positioning of the circuit board 6 and the terminal core 8 (the positioning between the circuit board 6 and the terminal core 8) in the case body 2. Further, it is possible to prevent the circuit board 6 from striking against the inner surface of the case body 2 and from breaking when being inserted into the case body 2.
(2c) The positioning between the terminal core 8 and the circuit board 6 is made by a relatively simple structure of the fitting of the protrusion 82B into the board penetration hole 61. It is therefore possible to improve the workability of the positioning between the terminal core 8 and the circuit board 6 while suppressing cost of components.
(2d) Since the engaging portion 82C has the pair of nails 83, it is possible to fix the terminal core 8 to the terminal inserting portion 3 easily and surely.
(2e) Since the crimping terminal is connected to the tip end of each first connecting cable 4, it is possible to reduce error affecting minute electric current that is transmitted and received when the plurality of first connecting cables 4 are connected to a sensor. That is, if the plurality of first connecting cables 4 and the circuit board 5 are connected by contact connection, a contact resistance of a terminal contact portion changes due to environmental load such as vibration load. However, by using the crimping terminal, the change of the contact resistance can be suppressed.
(2f) The retainer 82 of the terminal core 8 and the terminal inserting portion 3 form the retainer mechanism that restrains the movements in the X-axis direction of the top end portions 71 of the plurality of crimping terminals. It is thus possible to prevent the crimping terminal from coming off from the first connecting cable 4.
(2g) The area, which is the cross section that is perpendicular to the center axis of the case body 2, of the inside space of the case body 2 is gradually smaller from the opening of the case body 2 toward the opposite side to the opening. Hence, this facilities the insertion of the circuit board 6. Further, positioning accuracy of the terminal core 8 and the circuit board 6 in the longitudinal direction in the case body 2 can be improved.
Electronic equipment 100 shown in
As the electronic device 101, it is a heater, a sensor that detects a physical quantity or a chemical quantity, and so on. As the sensor, for instance, it is a gas sensor that detects an oxygen concentration in exhaust and a temperature sensor that detects temperature of fluid to be measured.
Here, the plurality of second terminals 81 of the circuit connection device 1 are connected to an electronic control device (not shown) that performs, for instance, control of a vehicle, through the plurality of second connecting cables 5.
[3-2. Effect]
According to the embodiment described above, the following effects can be obtained.
(3a) Because of ease of positioning of the circuit board 6, it is possible to improve reliability of connection between the electronic device 101 and the circuit board 6.
The present invention has been explained above on the basis of the above embodiments. However, the present invention is not limited to the above embodiments, but needless to say, includes variety of modifications.
(4a) In the circuit connection device 201 of the above embodiment, as shown in
(4b) In the circuit connection device 1 of the above embodiment, the circuit board 6 could be provided with two or more board penetration holes, and the positioning portion 82B of the retainer 82 could include two or more protrusions that are fitted into the two or more board penetration holes of the circuit board 6. Further, the positioning portion 82B could include a positioning structure except the protrusion, such as a clip structure that holds or grasps the circuit board 6.
(4c) In the circuit connection device 1 of the above embodiment, the engaging portion 82C of the retainer 82 does not necessarily have the pair of nails 83. As long as the engaging portion 82C of the retainer 82 can be engaged with a part of the terminal inserting portion 3, an engagement structure except the nail can be employed.
(4d) In the circuit connection device 1 of the above embodiment, the first terminal 7 is not necessarily the crimping terminal, but other terminal can be used. However, as mentioned above, it is preferable to use the crimping terminal when using the sensor signal.
(4e) In the circuit connection device 1 of the above embodiment, the restraint of the movement in the X-axis direction of the top end portion 71 of the plurality of first terminal 7 is not necessarily required. The top end portion 71 of the plurality of first terminal 7 could be connected to the circuit board 6 with the top end portion 71 being free without being sandwiched by the terminal inserting portion 3 etc.
(4f) In the circuit connection device 1 of the above embodiment, the area, which is the cross section that is perpendicular to the center axis of the case body 2, of the inside space of the case body 2 is not necessarily smaller from the opening of the case body 2 toward the opposite side to the opening, but could be constant. Further, as for the width in the Y-axis direction of the circuit board 6, it is not necessarily smaller (narrower) toward the bottom surface 21 side of the case body 2.
(4g) A function which one component of the above embodiments has could be realized by a plurality of components, and functions which a plurality components have could be realized by one component. In addition, a part of the above configuration or structure could be omitted. Moreover, at least a part of the above configuration or structure could be added to a configuration or structure of other embodiment described above, or might be replaced. The present invention includes all design modifications and equivalents belonging to the technical scope of the present invention.
Number | Date | Country | Kind |
---|---|---|---|
2017-008935 | Jan 2017 | JP | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2018/001632 | 1/19/2018 | WO | 00 |