Source: https://patents.google.com/patent/CN102386593B/en
Timestamp: 2020-01-18 04:13:55
Document Index: 695907146

Matched Legal Cases: ['application NO.2010', 'art 35', 'art 35', 'art 35', 'art 35', 'art 31', 'art 31', 'art 31', 'art 75', 'art 75', 'art 75', 'art 42', 'art 42', 'art 42', 'art 59', 'art 59', 'art 55', 'art 55', 'art 55', 'art 55', 'art 51', 'art 51', 'art 51', 'art 59', 'art 59', 'art 59', 'art 59', 'art 61', 'art 61', 'art 61', 'art 61', 'arts 35', 'art 35', 'arts 55', 'art 55', 'art 59', 'art 42', 'art 61', 'art 61', 'art 42', 'art 61', 'art 61', 'art 75', 'art 75', 'art 75', 'art 42', 'art 42', 'art 61', 'art 61', 'art 42']

CN102386593B - Electrical junction box - Google Patents
CN102386593B
CN102386593B CN201110248461.7A CN201110248461A CN102386593B CN 102386593 B CN102386593 B CN 102386593B CN 201110248461 A CN201110248461 A CN 201110248461A CN 102386593 B CN102386593 B CN 102386593B
CN201110248461.7A
CN102386593A (en
佐藤尚史
萩原正之
2010-08-27 Priority to JP2010190794A priority Critical patent/JP5606830B2/en
2010-08-27 Priority to JP2010-190794 priority
2011-08-26 Application filed by 矢崎总业株式会社 filed Critical 矢崎总业株式会社
2012-03-21 Publication of CN102386593A publication Critical patent/CN102386593A/en
2015-07-29 Publication of CN102386593B publication Critical patent/CN102386593B/en
The invention provides one and subtract undersized electrical junction box, in described electrical junction box, improve the reliability of the mechanical connection between the block that is arranged in electrical junction box.Electrical junction box (1) comprising: multiple electric component; First piece (3), it is provided with electric component; With second piece, it is provided with electric component.First piece (3) comprise first component (32,33) of tubular form, and the first component of described tubular form is given prominence to towards second piece (5).Second piece (5) comprise second component (52,53), and described second component is arranged to can be slidably inserted in the first component.First piece (3) and second piece (5) are by can being slidably inserted into described second component (52,53) in described first component (32,33) and being coupled to each other.At least one electric component (8) in multiple electric component is received within the inside of the first component and second component (32,52,33,53).
The cross-application of related application
This introduce by reference present patent application based on priority application Japanese patent application NO.2010-190794.
The present invention relates to a kind of electrical junction box on the whole, and described electrical junction box will be installed in the enging cabin of motor vehicles.
As in the motor vehicles of moving object, multiple electrical equipment is installed.In order to provide electric power to those electrical equipments, electrical junction box is installed on the correct position between power supply and electrical equipment in vehicle.Such electrical junction box is provided with such as connector, relay, and the electric component of fuse.
Term electrical junction box used herein is also referred to as tagblock (block), fuse block or relay box.
Fig. 6 is the perspective view of conventional electrical terminal box 101.Fig. 7 is the cutaway view of the conventional electrical terminal box 101 along the lines II-II shown in Fig. 6.Conventional electrical terminal box 101 comprises: the first boxlike block 103; Second boxlike block 105; The electric component (not shown) of the multiple such as relay, fuse and the fuse that are installed to corresponding boxlike block 103,105; Multiple busbar 108,109, described busbar 108,109 is connected to respective electric parts as connecting elements; Syndeton 110, described syndeton 110 has mechanical connecting structure 110A and electric connection structure 110B, and boxlike block 103,105 is interconnected by described mechanical connecting structure 110A, and busbar 108,109 is interconnected by described electric connection structure 110B; With shell 102, described shell 102 not only receives interconnective boxlike block 103,105, and receives interconnective busbar 108,109.
Corresponding boxlike block 103,105 is shaped to blob-like shapes.As shown in Figure 7, each boxlike block 103,105 is provided with multiple electric component be connected with busbar 108,109.
Mechanical connecting structure 110A comprises insertion portion 104 and receiving portion 106, and described insertion portion 104 is set to the first boxlike block 103, and described receiving portion 106 is set to the second boxlike block 105 and is arranged to receive insertion portion 104.
Electric connection structure 110B comprises the convex terminal 111 being set to busbar 109 and the female terminal 112 being arranged on busbar 108 place.Female terminal 112 comprises the slit section 108a (thus the front view of female terminal 112 is in rotating forked shape (turning-folk-like shape)) for receiving convex terminal 111.
For electrical junction box 101, when boxlike block 103,105 moves towards one another along direction of insertion Z, insertion portion 104 is inserted in receiving portion 106, and boxlike block 103,105 is correspondingly attached to each other (mechanically connecting).Simultaneously, convex terminal 111 is inserted in the slit section 108a of female terminal 112, and the busbar 108 being attached to the first boxlike block 103 is electrically connected to each other (example with reference to Japanese Patent Application Publication NO.2006-345616) with the busbar 109 being attached to the second boxlike block 105.
But, there is a problem in above-mentioned conventional electrical terminal box 101.That is, conventional electrical terminal box 101 needs such syndeton 110, and described syndeton 110 has for by the interconnective mechanical connecting structure 110A of boxlike block 103,105 be used for the interconnective electric connection structure 110B of busbar 108,109.Thus, need the size increasing conventional electrical terminal box 101 (shell 102) to receive syndeton 110.
Another problem is there is in conventional electrical terminal box 101.That is, boxlike block 103,105 is by being inserted into the receiving portion 106 of the second boxlike block 105 by the insertion portion 104 of the first boxlike block 103 and being attached to each other.And busbar 108,109 is by being inserted into the slit section 108a of female terminal 112 by convex terminal 111 and being interconnected.Thus the oscillating movement of such as moving vehicle may cause boxlike block 103,105 to move away from each other along direction of insertion Z, thus causes insertion portion 104 to be separated with receiving portion 106.As a result, not only boxlike block 103,105 may be separated from each other, and busbar 108,109 also may be separated from each other, and disconnects the electrical connection between busbar 108,109 thus.
Consider the problems referred to above, the object of the present invention is to provide one to subtract undersized electrical junction box, described electrical junction box can improve the reliability of the mechanical connection between the boxlike block of electrical junction box.
In order to realize above-mentioned object, the invention provides a kind of electrical junction box, described electrical junction box has: multiple electric component; Be provided with first piece of electric component; Be connected to first piece and second piece of electric component be installed, described electrical junction box comprises: the first component of tubular form, and described first component is set to first piece and outstanding towards second piece; And second component, described second component is set to second piece and is arranged to can be slidably inserted in the first component.First piece and second piece is passed through can be slidably inserted in the first component by second component and be coupled to each other.In addition, at least one electric component in multiple electric component is received within the inside of the first component and the second component be attached to each other.
According to the invention described above, first piece and second piece can be coupled to each other and not need the above-mentioned mechanical connecting structure of conventional electrical terminal box, thus reducing the size of electrical junction box.And, according to the present invention, the quantity of the electric component be installed on first piece and second piece can be increased.
In addition, the first connecting elements being connected to the electric component being installed to first piece and the second connecting elements being connected to the electric component being installed to second piece are electrically connected to each other by least one electric component be received within multiple electric components of the inside of first component and second parts be attached to each other.
According to the invention described above, the first electric wire and the second electric wire can be interconnected and not need the above-mentioned electric connection structure of conventional electrical terminal box, thus reduce the size of electrical junction box further.
In addition, first component is provided with arm section and the first bonding part, and described first bonding part is given prominence to from arm section towards second component, and the direction of insertion that described arm section is arranged in along second component is formed between a pair slit at the first component place.In addition, second component is provided with the second bonding part, and described second bonding part is arranged to engage with the first bonding part.
According to the invention described above, first piece and second piece mutually firmly engages, and is prevented from being separated from each other due to the oscillating movement of moving vehicle.Thus, the reliability of the mechanical connection between the first boxlike block and the second boxlike block can be improved.
Fig. 1 is the perspective view being included in the first boxlike block in electrical junction box according to an embodiment of the invention and the second boxlike block;
Fig. 2 shows the schematic diagram of the first receiving portion being arranged on the first boxlike block place shown in Fig. 1 and the second receiving portion being arranged on the second boxlike block place;
Fig. 3 shows the perspective view of the first receiving portion in the Fig. 2 be attached to each other and the second receiving portion;
Fig. 4 is the cutaway view of the lines I-I indicated in Fig. 3;
Fig. 5 shows the perspective view of the fuse of the inside being received within the first receiving portion and the second receiving portion be attached to each other as shown in Figure 3;
Fig. 6 is the perspective view of conventional electrical terminal box;
Fig. 7 is the cutaway view of the lines II-II indicated in Fig. 6.
To 5, electrical junction box according to an embodiment of the invention is described referring to Fig. 1.
Electrical junction box 1 according to the present invention is arranged to be installed in the enging cabin of motor vehicles, to provide electric power to the multiple electrical equipment be installed on motor vehicles.Term electrical junction box used herein is broadly interpreted as terminal box, fuse block and electrical relaybox.
As shown in Fig. 1 to 5, electrical junction box 1 comprises: multiple electric component; There is the first boxlike block 3 of a pair first receiving portions 32,33; Second boxlike block 5, described second boxlike block 5 is connected to the first boxlike block 3, and has a pair second receiving portions 52,53; Many the first electric wires being routed in the first boxlike block 3 place; Many the second electric wires being routed in the second boxlike block 5 place; Be connected to the fuse 8 of the first electric wire and the second electric wire; With the shell (not shown) being arranged to receiving first boxlike block 3 and the second boxlike block 5.Described second receiving portion 52,53 is arranged to can be slidably inserted into respectively in the first receiving portion 32,33.Above-mentioned fuse 8, first electric wire and the second electric wire correspond respectively to " at least one electric component of multiple electric component " of describing in claim, " the first connecting elements " and " the second connecting elements ".
In the accompanying drawings, Y-direction corresponds to the aligning direction of a pair first receiving portions 32,33 of the first boxlike block 3, and also corresponds to the horizontal direction of shell.And X-direction corresponds to the longitudinal direction of shell, and Z-direction is parallel to the height of shell and corresponds to the direction of insertion that the second receiving portion 52,53 inserts the first receiving portion 32,33.In this manual, term upper lateral part and following side use relative to Z-direction.
First boxlike block 3 is made up of synthetic resin, and be formed with on the first block main body 31, a pair first receiving portions 32,33 being set to the first main body 31 and lap 34, described lap 34 is disposed between described a pair first receiving portions 32,33.First receiving portion 32,33 is with tubular moulding and be arranged to give prominence to from the first main body 31 towards the second boxlike block 5.The lap 54 that lap 34 is arranged to adjoin in an overlapping manner the second boxlike block 5 described after a while is placed.
First main body 31 is provided with multiple receivable part 35 and multiple rail engaging portion 36, and described rail engaging portion 36 is arranged to engage with the guide rail of the shell described after a while.Receivable part 35 is arranged to receive the electric component of such as relay, fuse and fuse (these electric components correspond to " being installed to the electric component of first piece " of describing in claim).Multiple receivable part 35 is configured as concavity in z-direction relative to the upper side of the first boxlike block 3.In addition, receivable part 35 is arranged to the terminal clamp receiving the first electric wire from the following side of main part 31, receives the end of electric component from the upper lateral part of main part 31 simultaneously.
The outer surface that rail engaging portion 36 is arranged to the sidewall 31A of the main part 31 from the first boxlike block 3 is given prominence to.The peripheral wall (not shown) described after a while that described sidewall 31A is arranged to adjoin shell is placed.In addition, corresponding rail engaging portion 36 extends and shaping with L shape along the Z direction.
Rail engaging portion 36 and the rail engaging portion 56 of the second boxlike block 5 described after a while are arranged to engage with the guide rail of shell respectively.By respectively rail engaging portion 35,56 being engaged with guide rail, the first boxlike block 3 and the second boxlike block 5 directed along the Z direction to be received within the inside of shell.
In addition, as shown in Figures 2 and 3, the first receiving portion 32,33 is slidably inserted in the second receiving portion 52,53 respectively, thus, is relative to each other attached by the first receiving portion 32,33 and second receiving portion 52,53.Thus receiving portion 32 forms pipe with 52 and receiving portion 33 together with 53, be provided for the receivable part 75 of receiving above-mentioned fuse 8 thus.Described receivable part 75 is arranged to receive the terminal clamp of the end being attached to corresponding first electric wire and the second electric wire inserted from the following side of receiving portion 32,33,52,53.And receivable part 75 is arranged to the end of receiving fuse 8 from the upper lateral part of receiving portion 32,33,52,53.
As shown in figs. 1 and 2, first receiving portion 32,33 is separately positioned on along the Y direction two ends of the first main body 31, and is arranged on along the X direction end (namely adjoining an end of the second boxlike block 5) place of the first main body 31.In addition, among a pair first receiving portions 32,33, a receiving portion 33 is arranged to give prominence in the Y direction relative to the first main body 31.In addition, each first receiving portion 32,33 is provided with the first tubular portion 37 and the second tubular portion 38, and described second tubular portion 38 is from the first tubular portion 37 to downward-extension.First receiving portion 32,33 corresponds to " the first component " that illustrate in claim.
As shown in Figure 2, the first tubular portion 37 forms rectangular tubular by multiple peripheral wall 37A, 37B, 37C.As shown in Figure 5, among multiple peripheral wall 37A, 37B, 37C, each in opposed facing peripheral wall 37A and 37B has insertion portion 39, and described insertion portion 39 is arranged to receive protrusion 81, and described protrusion 81 is given prominence to from the surface relative accordingly of fuse 8.Corresponding insertion portion 39 is formed by the top edge cutting corresponding peripheral wall 37A and 37B in the mode of rectangle.
In addition, as shown in Figure 4, among opposed facing peripheral wall 37A and 37B, the peripheral wall 37A located away from the first main body 31 is provided with engaging arms 40.This engaging arms 40 comprises arm section 41 and the first bonding part 42, and described arm section 41 can strain in the X direction relative to peripheral wall 37A, and described first bonding part 42 is given prominence to from the inner surface of arm section 41.Arm section 41 is positioned between a pair slit 41a, and described a pair slit 41a extends in z-direction point-blank from the bottom of insertion portion 39.First bonding part 42 is arranged in the upper end of arm section 41, and is provided with face 42a and conical section 42b, and described 42a is arranged to the inner surface perpendicular to arm section 41.This conical section 42b is arranged to tilt relative to the inner surface of arm section 41, to leave face 42a along with described conical section 42b, described conical section 42b is closer to the inner surface of arm section 41.
Referring again to Fig. 2, the second tubular portion 38 is formed as pipe, and the diameter of described pipe is less than the diameter of the first tubular portion 37, to be inserted in the second tubular portion 38 by the first electric wire being connected to fuse 8.In addition, the second tubular portion 38 is arranged to be inserted within the encirclement part 59 that describes after a while, and described encirclement part 59 is arranged on corresponding second receiving portion 52,53 place.In addition, as shown in Figure 4, the second tubular portion 38 comprises the peripheral wall 38B continued with the peripheral wall 37B of the first tubular portion 37.Described peripheral wall 38B comprises joint strip 43.
Joint strip 43 with rod shape shape, and is arranged to strain in the X direction.Joint strip 43 prevents the terminal clamp being inserted into the first electric wire of the second tubular portion 38 from the following side of receiving portion 32,33,52,53 from being pulled out from the second tubular portion 38 (or separation).In addition, the inner surface of an end of joint strip 43 and the peripheral wall 38B of the second tubular portion 38 continues, and another end of joint strip 43 is arranged to free end, and described free end upwards extends towards the peripheral wall 38A on the opposite being positioned at peripheral wall 38B.
Second boxlike block 5 is made up of synthetic resin, and the second main body 51 being integrally formed with blob-like shapes, a pair second receiving portions 52,53 and laps 54 being set to the second main body 51, described lap 54 is arranged between a pair second receiving portions 52,53.Second receiving portion 52,53 is arranged to be attached to the first receiving portion 32,33 respectively.Second boxlike block 5 corresponds to " second piece " that describe in claims.
Referring again to Fig. 1 and 2, the second main body 51 is provided with multiple receivable part 55 and multiple rail engaging portion 56, and described rail engaging portion 56 is arranged to engage with the guide rail of shell.Receivable part 55 is arranged to receive the electric component of multiple such as relay, fuse and fuse (these electric components correspond to " being installed to the electric component of second piece " of describing in claim).Multiple receivable part 55 is configured as concavity in z-direction relative to the upper side of the second boxlike block 5.In addition, corresponding receivable part 55 is arranged to receive the terminal clamp of the second electric wire from the following side of main part 51 and the end of simultaneously receiving electric component from the upper lateral part of main part 51.
The outer surface that rail engaging portion 56 is arranged to the sidewall 51A of the main part 51 from the second boxlike block 5 is given prominence to.The peripheral wall (not shown) that described sidewall 51A is arranged to adjoin in an overlapping manner shell is placed.In addition, corresponding rail engaging portion 56 extends and along the Z direction with L shape shape.
As shown in figs. 1 and 2, corresponding second receiving portion 52,53 comprises: the 3rd tubular portion 58, and the second electric wire being connected to fuse 8 is inserted in described 3rd tubular portion 58; Surround part 59 and channel-shaped wall portion 57, described channel-shaped wall portion 57 vertically extends from the top edge of the 3rd tubular portion 58.The inner surface that wall portion 57 is arranged to adjoin the first tubular portion 37 is placed.In addition, surround part 59 and be arranged so that the second tubular portion 38 of the first boxlike block 3 is inserted between encirclement part 59 and the 3rd tubular portion 58.Second receiving portion 52,53 corresponds to " second component " that describe in claim.
As mentioned above, the second electric wire being connected to fuse 8 is inserted in the 3rd tubular portion 58.In addition, as shown in Figure 4, joint strip 63 is set to the inner surface of the peripheral wall 58A away from encirclement part 59 of the 3rd tubular portion 58.
Above-mentioned joint strip 63 with rod shape shape, and is arranged to strain in the X direction.This joint strip 63 prevents the terminal clamp being inserted into the second electric wire of the 3rd tubular portion 58 from the following side of receiving portion 32,33,52,53 to be drawn out from the 3rd tubular portion 58 or to be separated.In addition, the inner surface of an end of joint strip 63 and the peripheral wall 58A of the 3rd tubular portion 58 continues, and another end of joint strip 63 is arranged as free end, and described free end upwards extends towards the peripheral wall 58B on the opposite being positioned at peripheral wall 58A.
Referring again to Fig. 2, wall portion 57 with channel-shaped shape, and is provided with peripheral wall 57A, and the peripheral wall 37A that described peripheral wall 57A is arranged to adjoin in an overlapping manner the first tubular portion 37 places.This peripheral wall 57A comprises the second bonding part 61 and insertion portion 60, and described insertion portion 60 is arranged to overlap (overlap) with the insertion portion 39 of the peripheral wall 37A of the first tubular portion 37.Second bonding part 61 is arranged to engage with engaging arms 40.
The shape similar to the insertion portion 39 of the first receiving portion 32,33 that insertion portion 60 is formed (cutting into), when being attached to each other with convenient first receiving portion 32,33 and second receiving portion 52,53, the edge of insertion portion 39 and 60 is relative to each other overlapping.
Second bonding part 61 is arranged to give prominence to from the outer surface of peripheral wall 57A.In addition, the second bonding part 61 comprises face 61a and conical section 61b, and described 61a arranges perpendicular to the outer surface of peripheral wall 57A.This conical section 61b is in tilted layout, to leave face 61a along with conical section 61b, conical section 61b is with more near the outer surface of peripheral wall 57A.
Shell (not shown) comprises: shell main body; For the upper cover in cover housing body top face; With the lower cover of the bottom surfaces for cover housing main body.
Shell main body comprises the peripheral wall of multiple formation framework and the outstanding guide rail of multiple inner surface from corresponding peripheral wall.Multiple peripheral wall and multiple guide rail are made by synthetic resin, and mutually form.
The assembly program of electrical junction box 1 will be described below.First, shell main body is provided with the lower cover of the bottom surfaces of cover housing main body.Multiple electric component is installed to multiple receivable parts 35 of the first boxlike block 3 respectively.Then, the first electric wire is attached to respectively and is installed on multiple electric components of receivable part 35.Next, multiple electric component is installed to multiple receivable parts 55 of the second boxlike block 5, then the second electric wire is attached to respectively the electric component being installed to receivable part 55.Alternately, on the position be separated or equipment, electric component can be installed to corresponding boxlike block 3,5 simultaneously.
Next, the the first boxlike block 3 being provided with multiple electric component and the second boxlike block 5 being provided with multiple electric component move towards one another, to make the second tubular portion 38 of the first receiving portion 32,33 be slidably inserted into respectively in the encirclement part 59 of the second receiving portion 52,53.Thus, the first bonding part 42 of the first tubular portion 37 of the first receiving portion 32,33 is connected on the second bonding part 61 of the wall portion 57 of the second receiving portion 52,53.Thus, along with the first boxlike block 3 and the second boxlike block 5 move towards one another further time, the conical section 42b of the first tubular portion 37 and conical section 61b of wall portion 57 relative to each other slides, thus causes the arm section 41 of the first tubular portion 37 strain on the direction of the second bonding part 61 away from wall portion 57.Finally, the first bonding part 42 of the first tubular portion 37 moves across the second bonding part 61 of wall portion 57, and arm section 41 returns to the initial condition before its distortion.Like this, the face 42a of the first tubular portion 37 and face 61a of wall portion 57 is placed on mutually corresponding position, makes arm section 41 engage with the second bonding part 61 thus.In this condition, the edge of the insertion portion 39 of the first receiving portion 32,33 and the insertion portion 60 of the second receiving portion 52,53 relative to each other overlapping.As a result, the first receiving portion 32,33 and second receiving portion 52,53 is attached to each other, so the first boxlike block 3 and the second boxlike block 5 are coupled to each other.
Next, when the first boxlike block 3 and the second boxlike block 5 are coupled to each other, then by the pair of protrusions 81 of fuse 8 is inserted overlapped corresponding insertion portion 39,60, described fuse 8 is received into each component receptacle 75 from the upper lateral part of receiving portion 32,52,33,53 (i.e. receivable part 75).Under the state that corresponding fuse 8 is received within the inside of receivable part 75, the terminal clamp of corresponding first electric wire and the second electric wire is inserted corresponding tubular portion 38,58 along the Z direction from the following side of receivable part 75.Thus, each terminal clamp is connected on joint strip 43,63.By being inserted into by terminal clamp in tubular portion 38,58 further, then terminal clamp pushing joint strip 43,63, makes joint strip 43,63 leg 38B, 58A strain or bending toward the outside thus.By being inserted into by terminal clamp in tubular portion 38,58 further, then terminal clamp moves across joint strip 43,63, and joint strip 43,63 returns to the initial condition before its distortion.Therefore, joint strip 43,63 prevents the terminal clamp being attached to wire end from being pulled out from tubular portion 38,58 or being separated.By terminal clamp being inserted into further tubular portion 38,58, described terminal clamp is connected to the end of fuse 8.By doing like this, being routed in the first boxlike block 3 place and being connected to multiple first electric wire of the electric component being installed to the first boxlike block 3 and being routed in the second boxlike block 5 place and multiple second electric wires being connected to the electric component being installed to the second boxlike block 5 are electrically connected to each other by fuse 8.Thus, the corresponding electric wire being routed in corresponding boxlike block 3,5 place is electrically connected to each other by corresponding fuse 8.
Next, make the first boxlike block 3 and the second boxlike block 5 towards the shell bulk motion with lower cover.Thus, the guide rail of the shell main body of shell and the rail engaging portion 36,56 of the first main body 31 and the second main body 51 are bonded with each other.Thus, the first boxlike block 3 and the second boxlike block 5 are guided by along direction Z, and are received within the inside of the shell main body (being provided with lower cover) of shell.Finally, upper cover is attached to shell main body, so that the upper side of cover housing main body is to complete shell, thus completes the assembling of electrical junction box 1.
According to above-mentioned embodiments of the invention, provide a kind of electrical junction box 1, described electrical junction box 1 has: multiple electric component; First boxlike block 3 (first piece), described first boxlike block 3 is provided with electric component; With the second boxlike block 5 (second piece), described second boxlike block 5 is connected to the first boxlike block 3 and is provided with electric component.Electrical junction box comprises further: the first receiving portion 32,33 (the first component) of tubular form, and the first receiving portion 32,33 of described tubular form is set to the first boxlike block 3, and gives prominence to towards the second boxlike block 5; With the second receiving portion 52,53 (second component), described second receiving portion 52,53 is set to the second boxlike block 5, and is arranged to can be slidably inserted in the first receiving portion 32,33.By the second receiving portion 52,53 can be slidably inserted into the first receiving portion 32,33, the first boxlike block 3 and the second boxlike block 5 are coupled to each other.In addition, at least one electric component in multiple electric component is received within the inside of the first receiving portion 32,33 and second receiving portion 52,53 be attached to each other.
And, be routed in the first boxlike block 3 place and be connected to first electric wire (the first connecting elements) of the electric component being installed to the first boxlike block 3 and be routed in the second boxlike block 5 place and the second electric wire (the second connecting elements) being connected to the electric component being installed to the second boxlike block 5 is electrically connected to each other by the fuse 8 of the inside being received in the first receiving portion 32,33 and second receiving portion 52,53 be attached to each other.As a result, the first electric wire and the second electric wire can be interconnected and not need the electric connection structure 110B that is arranged in conventional electrical terminal box, thus reduce the size of electrical junction box.
And, first receiving portion 32,33 is provided with arm section 41 and the first bonding part 42, described first bonding part 42 is given prominence to from arm section 41 towards the second receiving portion 52,53, arm section 41 is arranged between a pair slit 41a, and described a pair slit 41a is formed in the first receiving portion 32,33 place along the direction of insertion of the second receiving portion 52,53.And the second receiving portion 52,53 is provided with the second bonding part 61, described second bonding part 61 is arranged to engage with the first bonding part 42.As a result, the first boxlike block 3 and the second boxlike block 5 can firmly be bonded with each other, and can not be separated from each other because of the oscillating movement of moving vehicle.Thus, the reliability of the mechanical connection between the first boxlike block 3 and the second boxlike block 5 can be improved.
In embodiment described above, electric wire is used as connecting elements (i.e. the first connecting elements or the second connecting elements), but the present invention is not limited thereto, and the busbar be made up of conductive plates can be used as connecting elements.
The embodiment illustrated herein is only representative embodiment, and not as limitation of the present invention.Should be understood that, without departing from the scope of the invention, various amendment can be made to these embodiments.
1. an electrical junction box, described electrical junction box has: multiple electric component; First piece, described first piece is provided with electric component; With second piece, described second piece is connected to first piece and is provided with electric component, wherein,
Described first piece is integrally formed with: be formed as the first block main body, give prominence to and a pair first components being formed as tubulose and the first lap be arranged between described a pair first components towards described second piece from described first main body, described first component has the tubular portion being formed as tubulose by multiple peripheral walls facing with each other
Described second piece is integrally formed with: be formed as the second block main body, be arranged at described second main body and slide a pair second component inserting and be arranged on the second lap between described a pair second component and overlapping with described first lap with the direction that described first component extends along the tubular portion of described first component overlappingly
Wherein, at described first piece and second piece by under described second component being slidably inserted into the state that is coupled to each other in described first component, by being slidably inserted into along the direction that described second component is inserted in described first component near described first component be attached to each other and described second component by least one electric component in described multiple electric component, at least one electric component described in described multiple electric component is received within the inside of described first component and the second component be attached to each other.
2. electrical junction box according to claim 1, wherein, the first connecting elements being connected to the electric component being installed to first piece and the second connecting elements being connected to the electric component being installed to second piece are electrically connected to each other by least one electric component described in the inside that is received within described first component and the second component be attached to each other.
3. electrical junction box according to claim 1, wherein,
Described first component is provided with arm section and the first bonding part, described first bonding part is outstanding from described arm section towards described second component, described arm section is arranged between a pair slit, described a pair slit is formed in described first component place along the direction of insertion of described second component, and
Described second component is provided with the second bonding part, and described second bonding part is arranged to engage with described first bonding part of described first component.
4. electrical junction box according to claim 2, wherein
CN201110248461.7A 2010-08-27 2011-08-26 Electrical junction box CN102386593B (en)
JP2010190794A JP5606830B2 (en) 2010-08-27 2010-08-27 Electrical junction box
JP2010-190794 2010-08-27
CN102386593A CN102386593A (en) 2012-03-21
CN102386593B true CN102386593B (en) 2015-07-29
ID=45566390
CN201110248461.7A CN102386593B (en) 2010-08-27 2011-08-26 Electrical junction box
US (1) US8491326B2 (en)
JP (1) JP5606830B2 (en)
CN (1) CN102386593B (en)
DE (1) DE102011081692B4 (en)
US20140357095A1 (en) * 2013-06-03 2014-12-04 Toyota Motor Engineering & Manufacturing North America, Inc. Block connector holder
JP6292468B2 (en) * 2014-01-31 2018-03-14 住友電装株式会社 connector
CN106655807B (en) 2015-10-29 2019-02-26 台达电子企业管理（上海）有限公司 Power supply change-over device
CN106655806B (en) 2015-10-29 2019-02-26 台达电子企业管理（上海）有限公司 Power supply change-over device
TWM551769U (en) * 2017-07-28 2017-11-11 Amphenol Fiber Optic Tech (Shenzhen) Power adapter apparatus
CN1236205A (en) * 1998-02-20 1999-11-24 矢崎総业株式会社 Electric connection box
CN101202384A (en) * 2006-11-02 2008-06-18 矢崎总业株式会社 Plate connector
JP3046738B2 (en) * 1995-01-25 2000-05-29 矢崎総業株式会社 Electrical junction box
JP3311657B2 (en) * 1997-10-01 2002-08-05 矢崎総業株式会社 Electrical junction box
JP2003037920A (en) * 2001-07-24 2003-02-07 Sumitomo Wiring Syst Ltd Electrical connection box
FR2838879B1 (en) * 2002-04-23 2004-06-04 Entrelec Electronic box connection device
JP4047656B2 (en) * 2002-08-08 2008-02-13 矢崎総業株式会社 Split-type electrical junction box
JP2004312793A (en) * 2003-04-02 2004-11-04 Yazaki Corp Electric junction box and assembling method thereof
JP4544132B2 (en) * 2005-11-01 2010-09-15 住友電装株式会社 Electrical junction box
JP5024946B2 (en) * 2007-10-17 2012-09-12 矢崎総業株式会社 Electrical junction box
JP5221255B2 (en) * 2008-08-29 2013-06-26 矢崎総業株式会社 Electrical junction box
JP2010190794A (en) 2009-02-19 2010-09-02 Shin Nippon Hihakai Kensa Kk Thinning detection method
2010-08-27 JP JP2010190794A patent/JP5606830B2/en active Active
2011-08-25 US US13/217,573 patent/US8491326B2/en active Active
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DE102011081692A1 (en) 2012-03-01
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