CN205790482U - Power supply connector - Google Patents

Abstract

The utility model provides a power connector. The power connector comprises an insulating body and a plurality of power terminal pairs accommodated in the insulating body. The power supply terminal pair comprises two oppositely arranged power supply terminals, and each power supply terminal is provided with a fixing part fixed in the accommodating groove, a contact part extending from one end of the fixing part and a welding part extending from the other end of the fixing part. The power connector also comprises an insulating seat which is formed on the power terminal pair in an injection molding mode, and the insulating seat is fixedly connected with the insulating body.

Description

Power connector

Technical field

This utility model relates to a kind of power connector, particularly relates to a kind of power connector installed on circuit boards.

Background technology

Power connector is the bridge connecting power output end with receiving terminal, thus the electric current output of power connector seems most important, and the factor affecting the transmission of power connector electric current includes conductor conduction material bodies impedance, compression impedance and cross-ventilated cooling system.

For legacy power connector, the packaging technology of its conductor is punch forming, and conductor both sides are provided with agnail, by the interference engagement of agnail Yu insulator, conductor can be made to be retained in insulator.But, the width design of such conductor, it is necessary to consideration conductor can not be interfered with insulator toward the direction of contact site, need to sacrifice the cross-sectional width of conductor front end and contact site, then make current channel diminish so that energy use efficiency is relatively low.

In view of this, it is necessary to existing power connector is improved, to solve the problems referred to above.

Utility model content

The purpose of this utility model is to provide a kind of power connector, and this power connector, without arranging agnail on conductor, not only increases the cross-sectional width of contact site, makes current channel become big, can also strengthen the structural stability of power connector simultaneously.

For realizing above-mentioned utility model purpose, this utility model provides a kind of power connector, comprising:

Insulating body, has docking section, the installation portion extended back from docking section and runs through the accepting groove of described docking section and installation portion；

Some power supply terminals pair, it is contained in described accepting groove, described power supply terminal is to including the two panels power supply terminal that is oppositely arranged, and every power supply terminal is equipped with the holding parts being immobilizated in accepting groove, the contact site that extends from holding parts one end and the weld part extended from the holding parts other end；

Described power connector also include ejection formation in power supply terminal to upper insulating base, described insulating base is fixing with described insulating body to be connected.

As further improvement of the utility model, described insulating base offers thermal convection current passage, and this thermal convection current passage is formed between described two panels power supply terminal.

As further improvement of the utility model, described insulating base and described insulating body use the mode of hot melt to be fixedly connected.

As further improvement of the utility model, the mode that described insulating base uses solvent to be combined with described insulating body is fixedly connected.

As further improvement of the utility model, described insulating base is provided with holding section, and described insulating body is provided with the buckling parts of cooperation corresponding with described holding section, to snap connection described insulating base and described insulating body.

As further improvement of the utility model, described holding section is some T-shaped shape collets, described buckling parts is the corresponding some buckling grooves housing described T-shaped shape collets, the interface being provided with docking section in described buckling groove tilts the snap fit extended, described snap fit cooperates with T-shaped shape collets, with spacing described insulating base.

As further improvement of the utility model, described installation portion includes the stage portion formed from the outside projection of the dual-side of docking section and is opened in the opening on rear side of described stage portion, described buckling groove is opened in described stage portion and runs through the setting of described stage portion, and the holding parts of described power supply terminal is exposed to described opening.

As further improvement of the utility model, the contact site of described power supply terminal includes the first contact arm and second contact arm of spaced setting, described first contact arm is provided with the first contact area, described second contact arm is provided with the second contact area, and described first contact area and the second contact area are generally aligned in the same plane.

As further improvement of the utility model, described second contact arm includes the extension extended from contact site front end, from the rotating part of extension end revolution and from the oppositely extending portion of rotating part end extension, described second contact area is formed in oppositely extending portion and is that front-back staggered is arranged with the first contact area, it is provided with gap between described first contact arm and described oppositely extending portion, described first contact arm extends in V-shape on power connector thickness direction, the extension of described second contact arm is horizontal-extending, oppositely extending portion is that V-shape extends, it is regarded along power connector width, described contact site is p-type shape.

As further improvement of the utility model, it is provided with gap between described first contact arm and the second contact arm, and described first contact arm and the second contact arm all extend in V-shape on power connector thickness direction, described first contact area and the second contact area are located along the same line.

The beneficial effects of the utility model are: power connector of the present utility model by power supply terminal on ejection formation have insulating base, and be connected fixing to described insulating base and described insulating body, thus without arranging agnail on conductor, not only increase the cross-sectional width of contact site, make current channel become big, the structural stability of power connector can also be strengthened simultaneously.

Accompanying drawing explanation

Fig. 1 is the first embodiment axonometric chart of this utility model power connector.

Fig. 2 is the three-dimensional exploded view of power connector shown in Fig. 1.

Fig. 3 is the axonometric chart of insulating body shown in Fig. 2.

Fig. 4 is another view stereo figure of insulating body shown in Fig. 3.

Fig. 5 is the partial enlarged drawing of encircled portion in Fig. 4.

Fig. 6 is the axonometric chart of pair of power source terminals pair shown in Fig. 2.

Fig. 7 is the exploded view of power supply terminal pair shown in Fig. 6.

Fig. 8 is that signal terminal pair shown in Fig. 2 assembles, with limited block, the axonometric chart coordinated.

Fig. 9 is the second embodiment axonometric chart of this utility model power connector.

Figure 10 is the axonometric chart of insulating body shown in Fig. 9.

Figure 11 is the axonometric chart of pair of power source terminals pair shown in Fig. 9.

Figure 12 is the exploded view of power supply terminal pair shown in Figure 11.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearer, with specific embodiment, this utility model is described in detail below in conjunction with the accompanying drawings.

Refer to shown in Fig. 1 to Fig. 8, for the first embodiment of this utility model power connector 100.This power connector 100 is in order to be soldered on a circuit board, and coordinates with docking facilities docking.Some power supply terminals that described power connector 100 includes insulating body 10, be housed in described insulating body 10 to 20 and some signal terminals to 30 and in order to the spacing fixing described signal terminal limited block 40 to 30.

Referring to Fig. 3 to Fig. 5 and combine shown in Fig. 2, described insulating body 10 has docking section 11, the installation portion 12 extended back from docking section 11 and runs through the accepting groove 13 of described docking section 11 and installation portion 12.The front end of docking section 11 is formed with interface 111, and the rear end of installation portion 12 is formed with the installed surface 121 being oppositely arranged with interface 111, and described accepting groove 13 is through to installed surface 121 from interface 111.Described accepting groove 13 include housing power supply terminal to 20 the first accepting groove 131 and in order to house the signal terminal the second accepting groove 132 to 30, due to power supply terminal to 20 with signal terminal to 30 shape be not quite similar, therefore the shape of the first accepting groove 131 and the second accepting groove 132 is also not quite similar, and is not described in detail in this.

Offering the docking groove 112 for inserting docking facilities inside the front end of described docking section 11, described docking groove 112 is connected with described accepting groove 13, in order to 20 and signal terminal are electrically connected with docking facilities respectively by power supply terminal to 30.Being provided with spaced walls 16 between adjacent two the first accepting grooves 131, described docking groove 112 part is opened in described spaced walls 16 so that described spaced walls 16 has U-shaped opening.Two medial walls being oppositely arranged of described second accepting groove 132 are concavely provided with draw-in groove 14, and described installation portion 12 is provided with the contiguous block 15 being connected with docking section 11, and the both sides of described contiguous block 15 are arranged with slit 151 respectively.The both sides of described installation portion 12 are provided with the projection 122 of downward projection, and described projection 122 is in order to be soldered on circuit board.

Described installation portion 12 includes the stage portion 123 of the outside projection of the dual-side up and down formation from docking section 11 and is opened in the opening 124 on rear side of described stage portion 123, the design of described opening 124 makes described installation portion 12 in open, then make described power supply terminal to 20 Partial exposure in described opening 124, having bigger area and air contact, radiating effect is preferable.Offer in described stage portion 123 and run through, along abutting direction, the buckling groove 125 that described stage portion 123 is arranged, and described buckling groove 125 is opened in the junction of described docking section 11 and stage portion 123.The interface 111 being provided with docking section 11 in described buckling groove 125 tilts the snap fit 1251 extended, fluting 126 is offered with described buckling groove 125 corresponding section on described installation portion 12, described fluting 126 is connected with described buckling groove 125, to be collectively forming buckling parts.

Refer to Fig. 6 Yu Fig. 7 and combine shown in Fig. 3 to Fig. 5, described power supply terminal includes the two panels power supply terminal 21 being oppositely arranged, contact site 211, the weld part 213 extended from holding parts 212 other end and the ejection formation insulating base 214 on described holding parts 212 that every power supply terminal 21 is equipped with the holding parts 212 being immobilizated in the first accepting groove 131, extends from holding parts 212 one end to 20.Described holding parts 212 is exposed to described opening 124.

Described contact site 211 includes the first contact arm 2111 and the second contact arm 2112 of spaced setting, described first contact arm 2111 is provided with the first contact area 2113, described second contact arm 2112 is provided with the second contact area 2114, and described first contact area 2113 and the second contact area 2114 are located substantially at same plane.

In the present embodiment, described first contact arm 2111 and the second contact arm 2112 tear molding, and described first contact area 2113 and the second contact area 2114 are arranged in front-back staggered.Certainly, described first contact area 2113 may be alternatively provided as being located along the same line with the second contact area 2114.

Described second contact arm 2112 includes the extension 2115 extended from contact site 211 front end, the rotating part 2116 turned round from extension 2115 end and the oppositely extending portion 2117 extended from rotating part 2116 end, and described second contact area 2114 is formed in described oppositely extending portion 2117.Described first contact arm 2111 extends in V-shape on power connector 100 thickness direction；Extension 2115 portion 2117 horizontal-extending, oppositely extending of described second contact arm 2112 extends in V-shape, regards it along power connector 100 width, and described contact site 211 is in p-type shape；Thus it is possible not only to ensure the glacing flatness of first, second contact area 2113,2114, also takes into account contact area, when flowing a current through first, second contact area 2113,2114, have bigger passage, energy use efficiency is maximized.

It is provided with gap, to avoid disturbing between the first contact arm 2111 and oppositely extending portion 2117 between described first contact arm 2111 and described oppositely extending portion 2117.The width being positioned at the first contact area 2113 front end on described first contact arm 2111 is gradually reduced, and the width that described second contact arm 2112 is positioned at the second contact area 2114 front end is gradually reduced；Certainly, described first contact arm 2111 also may be designed as wide with the front end of the second contact arm 2112, is as the criterion to be actually needed, and not limits in this.

Described insulating base 214 is fixing with described insulating body 10 to be connected.Offer thermal convection current passage 2141 on described insulating base 214, and this thermal convection current passage 2141 is formed between described two panels power supply terminal 21, so that 20 heats produced are distributed by described power supply terminal.In present embodiment, described insulating base 214 includes the difference ejection formation upper insulating base 2142 on two panels power supply terminal 21 and lower insulating base 2143, described upper insulating base 2142 mutually assembles with lower insulating base 2143 and coordinates, and described thermal convection current passage 2141 is formed between described upper insulating base 2142 and lower insulating base 2143, specifically refer to shown in Fig. 7.Certainly, described insulating base 214 is also designed to one-body molded.

The rear end of described stage portion 123 is arranged with the recess 127 for the described insulating base of spacing collecting 214, and described recess 127 is located at the periphery of described first accepting groove 131, and is connected with described buckling groove 125, fluting the 126, first accepting groove 131 simultaneously.

Described insulating base 214 is provided with the holding section of cooperation corresponding with described buckling parts, with being clasped by described holding section and buckling parts, fixing connects described insulating base 214 and described insulating body 10.Described holding section is to be darted at described upper insulating base 2142 and the some T-shaped shape collets 2144 on lower insulating base 2143 respectively, described T-shaped shape collets 2144 correspondence is housed in described buckling groove 125, and cooperate with described snap fit 1251, with spacing described upper and lower insulating base 2142,2143, thus, it is possible not only to ensure that power supply terminal consolidates 20 be contained in the first accepting groove 131, but also can prevent when docking with docking facilities power supply terminal from moving 20, improve docking stability.

Certainly, described insulating base 214 is the most a variety of, such as with the fixing connected mode of described insulating body 10: use the mode of hot melt to be fixedly connected；Or the mode using solvent to combine is fixedly connected, as long as ensure that described insulating base 214 is fixedly connected with described insulating body 10, not limit in this.

Refer to Fig. 8 and combine shown in Fig. 3 Yu Fig. 4, described signal terminal includes that to 30 the two panels signal terminal 31 being oppositely arranged, every signal terminal 31 all include insertion section 312, the Plug Division 311 extended from one end, insertion section 312 and the pin 313 extended from insertion section 312 other end.Described Plug Division 311 is contained in described second accepting groove 132 and portion projects enters described docking groove 112, to realize being electrically connected with docking facilities.The front end of described Plug Division 311 is provided with clinch 3111, it is provided with, in described second accepting groove 132, the overlap joint block 133 matched with described clinch 3111, described clinch 3111 is overlapped on overlap joint block 133, even damages because signal terminal 31 more carefully and easily deforms during to prevent from docking with docking facilities.

The dual-side of described insertion section 312 is respectively equipped with agnail 3121 and projection 3122, and described agnail 3121 is arranged on the side, close Plug Division 311 of insertion section 312, and described projection 3122 is arranged on close pin 313 side of insertion section 312.Described projection 3122 correspondence is housed in described slit 151, described agnail 3121 and described draw-in groove 14 interference engagement, therefore, it is possible not only to ensure that signal terminal consolidates 30 be contained in the second accepting groove 132, but also can prevent signal terminal from moving 30 when docking with docking facilities, improve docking stability.

Described pin 313 houses and is fixed in described limited block 40, and described pin 313 entirety is divided into four rows, the adjacent two spaced settings of row's pin 313, strengthens and gripping power during welding circuit board with this.

Described limited block 40 in offer in step-like setting, and described limited block 40 for intert house described pin 313 wear groove 41, the both sides of described limited block 40 are equipped with projection 42.Described installation portion 12 is provided with the host cavity 128 for housing described limited block 40, two medial walls being oppositely arranged of described host cavity 128 are concavely provided with groove 129, described projection 42 is housed in described groove 129, with cooperating and spacing described limited block 40 and insulating body 10 by projection 42 and groove 129.

Refer to shown in Fig. 9 to Figure 12, for the second embodiment of this utility model power connector 100 '.In the present embodiment, the structure of power connector 100 ' is substantially the same with the structure of aforementioned power source adapter 100, and difference essentially consists in: one, the structure of power supply terminal 21 ' is different；Two, the structure of insulating body 10 ' slightly difference.Herein below will elaborate mainly for difference structure, and other identical structures repeat no more.

In the present embodiment, the first contact arm 2111 ' of power supply terminal 21 ' and the second contact arm 2112 ' all extend in V-shape on power connector 100 ' thickness direction, and the first contact area 2113 ' is located along the same line with the second contact area 2114 '.Being provided with gap 2118 between described first contact arm 2111 ' and the second contact arm 2112 ', this gap 2118 can not only be used for the reserved Sheet Metal Forming Technology edge of a knife and uses, it is possible to as thermovent use, have double effects.

Being equipped with fin 17 on first accepting groove 131 ' inwall of insulating body 10 ', described fin 17 is located on the internal face of both sides up and down of docking section 11 ', and described fin 17 is correspondingly arranged with described gap 2118.

In sum, power connector 100,100 ' of the present utility model by power supply terminal to 20 on ejection formation have insulating base 214, and be connected fixing with described insulating body 10,10 ' for described insulating base 214, thus without arranging agnail on power supply terminal 21,21 ', not only increase the cross-sectional width of power supply terminal 21,21 ' contact site 211, make current channel become big, the structural stability of power connector 100,100 ' can also be strengthened simultaneously.

Above example is only in order to illustrate the technical solution of the utility model and unrestricted, although this utility model being described in detail with reference to preferred embodiment, it will be understood by those within the art that, the technical solution of the utility model can be modified or equivalent, without deviating from the spirit and scope of technical solutions of the utility model.

Claims (10)

1. a power connector, including:

Insulating body, has docking section, the installation portion extended back from docking section and runs through the accepting groove of described docking section and installation portion；

Some power supply terminals pair, it is contained in described accepting groove, described power supply terminal is to including the two panels power supply terminal that is oppositely arranged, and every power supply terminal is equipped with the holding parts being immobilizated in accepting groove, the contact site that extends from holding parts one end and the weld part extended from the holding parts other end；

It is characterized in that: described power connector also include ejection formation in power supply terminal to upper insulating base, described insulating base is fixing with described insulating body to be connected.

Power connector the most according to claim 1, it is characterised in that: offer thermal convection current passage on described insulating base, and this thermal convection current passage is formed between described two panels power supply terminal.

Power connector the most according to claim 1, it is characterised in that: described insulating base and described insulating body use the mode of hot melt to be fixedly connected.

Power connector the most according to claim 1, it is characterised in that: the mode that described insulating base uses solvent to be combined with described insulating body is fixedly connected.

Power connector the most according to claim 1, it is characterised in that: described insulating base is provided with holding section, and described insulating body is provided with the buckling parts of cooperation corresponding with described holding section, to snap connection described insulating base and described insulating body.

Power connector the most according to claim 5, it is characterized in that: described holding section is some T-shaped shape collets, described buckling parts is the corresponding some buckling grooves housing described T-shaped shape collets, the interface being provided with docking section in described buckling groove tilts the snap fit extended, described snap fit cooperates with T-shaped shape collets, with spacing described insulating base.

Power connector the most according to claim 6, it is characterized in that: described installation portion includes the stage portion formed from the outside projection of the dual-side of docking section and is opened in the opening on rear side of described stage portion, described buckling groove is opened in described stage portion and runs through the setting of described stage portion, and the holding parts of described power supply terminal is exposed to described opening.

Power connector the most according to claim 1, it is characterized in that: the contact site of described power supply terminal includes the first contact arm and second contact arm of spaced setting, described first contact arm is provided with the first contact area, described second contact arm is provided with the second contact area, and described first contact area and the second contact area are generally aligned in the same plane.

Power connector the most according to claim 8, it is characterized in that: described second contact arm includes the extension extended from contact site front end, from the rotating part of extension end revolution and from the oppositely extending portion of rotating part end extension, described second contact area is formed in oppositely extending portion and is that front-back staggered is arranged with the first contact area, it is provided with gap between described first contact arm and described oppositely extending portion, described first contact arm extends in V-shape on power connector thickness direction, the extension of described second contact arm is horizontal-extending, oppositely extending portion is that V-shape extends, it is regarded along power connector width, described contact site is p-type shape.

Power connector the most according to claim 8, it is characterized in that: between described first contact arm and the second contact arm, be provided with gap, and described first contact arm and the second contact arm all extend in V-shape on power connector thickness direction, described first contact area and the second contact area are located along the same line.