CN2600933Y

CN2600933Y - Conducting component of zero connet-disconnet force integrated circuit socket

Info

Publication number: CN2600933Y
Application number: CN 03200214
Authority: CN
Inventors: 赖光治
Original assignee: Individual
Current assignee: Individual
Priority date: 2003-01-07
Filing date: 2003-01-07
Publication date: 2004-01-21
Anticipated expiration: 2013-01-07

Abstract

A conductive component of ZIF IC lead socket, wherein clamp part of any conductive component is provided with a contact part and a guide part formed through folding; either the guide part or the contact part is a rocker end that extends from and is connected as a whole with rocker part of the clam part, and the other extends transversely from and is connected as a whole with either the guide part and the contact part, so that the IC pins can easily slide in between the two opposite contact parts; besides, when the insertion part of the conductive component is inserted into the insertion hole, the insertion hole is completely sealed so that solder cannot further penetrate into the insertion hole of the insulated seat body; then the electric connection part is folded into a deflection angle of 90 degrees, which enables the solder to cover the entire electric connection part of the conductive component to effectively increase the qualified rate and to make the soldering effect more perfect.

Description

The conductive member of ZIF integrated circuit socket

Technical field

The utility model relates to a kind of line connector, relates in particular to a kind of effective raising qualification rate, and makes the more perfectly conductive member of ZIF integrated circuit socket of whole scolding tin effect.

Background technology

No. 01264421.8 " conductive member of ZIF integrated circuit socket " novel case of applicant's previous application, wherein ZIF integrated circuit socket (50) comprising: insulating base frame (51) and several conductive members members such as (52).Wherein insulating base frame (51) has several socket apertures (53), and the distance between adjacent two socket apertures is defined as a grafting pitch (P) arbitrarily.And several conductive members (52) are to cut from same stock to form, and cloth is deployed on the same stock abreast in regular turn, distance between adjacent two conductive members (52) is defined as a spread pitch (Pa) arbitrarily, these conductive members (52) are inserted respectively and are embedded in the socket aperture (53) of aforementioned dielectric pedestal (51), peg graft for the pin of integrated circuit.

Each conductive member (52) comprising: embedded part (57), electrical connection section (58), and clamping connection portion (59).Wherein embedded part (57) is inserted in the socket aperture (53) that is embedded in insulating base frame fixing.Electrical connection section (58) is the wherein end extension from embedded part (57), so that be connected in circuit board, to set up the conduction annexation with circuit board.A wherein end of clamping connection portion (59) is to be connected with embedded part (57) one, and an other end of clamping connection portion (59) is to extend to the direction away from electrical connection section (58), pegs graft for the pin of integrated circuit.

Above-mentioned clamping connection portion (59) has: at least two springing parts (60) and (60), and at least two contact sites (61) and (61).A wherein end of each springing part (60) is the other end that one is connected in embedded part (57), and these springing parts (60) are made in correspondence with each other form by Zhe; At least two contact sites (61) and (61), each contact site (61) has first end (61a) and second end (61b), first end (61a) of each contact site one separately is connected in the other end of springing part (60), these springing parts (60), contact site (61), be misplaced the ground spread on stock, so that make the spread pitch on the above-mentioned stock be equal to aforementioned grafting pitch, not only make stock obtain maximum utilance, but also can make conductive member from same stock punch forming can in a plug-in mounting stroke, all stick with same plug socket hole on the insulating base frame.

First gradient and second gradient that two contact sites (61) of this case are provided are near embedded part (57), the pin of integrated circuit is plugged in earlier between the inboard and two contact sites (61) of embedded part (57), when integrated circuit slides to contact position, the pin of integrated circuit slides to two contact sites (61) from the position of embedded part (57) under the guiding of first gradient and second gradient.

The utility model content

In order to overcome the above-mentioned shortcoming that existing ZIF integrated circuit socket exists, the utility model provides a kind of conductive member of ZIF integrated circuit socket, it can make the integrated circuit pin be easy to slip between the contact site of two face-offs, and make scolding tin encase the whole electrical connection section of conductive member, effectively improve the qualification rate of entire product, make whole scolding tin effect perfect more.Wherein electrical connection section is that a wherein end from embedded part extends integratedly, and the width of the connecting portion that links to each other with embedded part at electrical connection section is different, position at embedded part further has protuberance, is embedded in the socket aperture of insulating base frame and force embedded part closely to be inserted.

The technical scheme that its technical problem that solves the utility model adopts is:

A kind of conductive member of ZIF integrated circuit socket comprises: insulating base frame has first, with the circuit board adjacency; Second is to contact with the wherein one side of integrated circuit; Several socket apertures, a wherein end of each socket aperture are to be communicated in first of insulating base frame; And inlaid hole, this inlaid hole is connected perforation with a wherein end of socket aperture, an other end of inlaid hole is to be communicated in second of insulating base frame, and the distance between adjacent two socket apertures is defined as a grafting pitch arbitrarily, several conductive members are to cut from same stock to form, and cloth is deployed on the same stock abreast in regular turn, distance between adjacent two conductive members is defined as a spread pitch arbitrarily, this conductive member is inserted respectively and is embedded in the socket aperture of aforementioned dielectric pedestal, pegs graft for the pin of integrated circuit; Several conductive members, cut from same stock and to form, and cloth is deployed on the same stock abreast in regular turn, distance between adjacent two conductive members is defined as a spread pitch arbitrarily, these conductive members are inserted respectively and are embedded in the socket aperture of aforementioned dielectric pedestal, pin for integrated circuit is pegged graft, and each conductive member comprises embedded part, is to insert in the inlaid hole that is embedded in insulating base frame to fix; Electrical connection section is from the wherein end extension of embedded part, so that be connected in circuit board; Clamping connection portion, wherein an end is to be connected with the embedded part one, its other end extends to the direction away from electrical connection section, and but springing ground hangs and is arranged in socket aperture, peg graft for the pin of integrated circuit, described clamping connection portion has: at least two springing parts, each springing part have cardinal extremity and springing end, wherein the cardinal extremity one is connected in an other end of embedded part, and longitudinal extension; It is characterized in that, the clamping connection portion of described conductive member also comprises two contact sites and two guidance parts, one of them position in described contact site and guidance part one separately is connected in the springing end of springing part, extend from one of them position integral transverse at another one position in described contact site and guidance part two positions, this springing part, contact site are misplaced the ground spread on stock, make the spread pitch on the described stock be equal to aforementioned grafting pitch; The guidance part of aforementioned arbitrary conductive member respectively has gradient, and two guidance parts one separately are connected these two contact sites of face-off mutually, and the importing end of this two guidance part forms and imports spacing; The junction that this two guidance part is connected with contact site separately then forms the linking spacing, be to form the clamping connection spacing between the contact site of two-phase face-off, described clamping connection spacing be connected spacing all less than the width or the diameter of the pin of integrated circuit, the importing spacing of the importing end of two guidance parts is then greater than the width or the diameter of the pin of integrated circuit.

The conductive member of aforesaid ZIF integrated circuit socket, wherein the cardinal extremity of the springing part of two face-offs forms the cardinal extremity spacing, two springing ends of this two springing part then form springing end spacing, the cardinal extremity spacing is greater than springing end spacing, two mutually the contact sites of face-off then be located at the springing end of springing part, two mutually the guidance part of face-off then to be each do horizontal expansion since two contact sites.

The conductive member of aforesaid ZIF integrated circuit socket, wherein the cardinal extremity spacing between two cardinal extremities of the springing part of two face-offs equals the spacing between the two springing ends of this two springing part, two guidance parts that stand facing each other mutually are that each does horizontal expansion since the springing end of springing part, and the contact sites of two mutual face-offs then are each guidance parts integral transverse extensions again since two mutual face-offs.

The conductive member of aforesaid ZIF integrated circuit socket, wherein electrical connection section is to extend from a wherein end one of embedded part by the position that links to each other, and at the width of electrical connection section with the position that links to each other of embedded part, less than the width of embedded part.

The conductive member of aforesaid ZIF integrated circuit socket, wherein embedded part has protuberance.

The beneficial effects of the utility model are, it can make the integrated circuit pin be easy to slip between the contact sites of two face-offs, and make scolding tin encase the whole electrical connection section of conductive member, effectively improve the qualification rate of entire product, make whole scolding tin effect perfect more.Wherein electrical connection section is that a wherein end from embedded part extends integratedly, and the width of the connecting portion that links to each other with embedded part at electrical connection section is different, position at embedded part further has protuberance, is embedded in the socket aperture of insulating base frame and force embedded part closely to be inserted.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is the schematic perspective view of first embodiment of the utility model conductive member.

Fig. 2 is the expanded view of first embodiment of the single conductive member of the utility model.

Fig. 3 is the expanded view of first embodiment of two continuous conductive members of the utility model.

Vertical view when Fig. 4 is plugged in insulated receptacle for first embodiment of the utility model conductive member (state the when pin that shows integrated circuit does not contact with conductive member as yet).

Fig. 5 is the profile of 5-5 line shown in Figure 4.

Fig. 6 is the local enlarged diagram of regional area 6 shown in Figure 4.

Fig. 7 is the local enlarged diagram of regional area 7 shown in Figure 5.

Vertical view when Fig. 8 is plugged in insulated receptacle for first embodiment of the utility model conductive member (state the when pin that shows integrated circuit has contacted with conductive member).

Fig. 9 is the profile of 9-9 line shown in Figure 8.

Figure 10 is the local enlarged diagram of regional area 10 shown in Figure 8.

Figure 11 is the schematic perspective view of second embodiment of the utility model conductive member.

Figure 12 is the expansion schematic diagram of second embodiment of two continuous conductive members of the utility model.

Figure 13 is the expansion schematic diagram of second embodiment of single conductive member of the utility model.

Number in the figure illustrates that auxiliary embedded part 58 electrical connection sections of second 52 conductive member of 51 insulating base frame 51a (insulating base frame (51)) first surface 51b (insulating base frame (51)), 53 socket apertures, 54 integrated circuits, 55 pins, 56 inlaid holes, 57 embedded part 57a protuberance 57b 60 springing parts, the 61 contact site 61a first end 61b of 59 clamping connection sections the second end 62 continuous position D (pin (55)) width (or diameter) Wa cardinal extremity spacing Wa ' cardinal extremity spacing Wb springing end spacing Wb ' springing end spacing Wc import spacing Wc ' importing spacing Wd and are connected spacing Wd ' linking spacing We clamping connection spacing We ' clamping connection spacing W57 (embedded part (57)) width W 62 (position (62) that links to each other) width

Embodiment

See also Fig. 1 to shown in Figure 12, the ZIF integrated circuit socket comprises in the utility model: insulating base frame (51) and several conductive members (52).Wherein insulating base frame (51) has: first (51a) is and the circuit board adjacency; Second (51b) is to contact with the wherein one side of integrated circuit (54); Several socket apertures (53), a wherein end of each socket aperture (53) are first (51a) that is communicated in insulating base frame (51); Inlaid hole (56) is to be connected perforation with a wherein end of socket aperture (53), and an other end of inlaid hole (56) is be connected with second (51b) of insulating base frame (51) (please consulting Fig. 5 and shown in Figure 7 especially).And the distance between adjacent two socket apertures is defined as a grafting pitch arbitrarily.And several conductive members are to cut from same stock to form, and cloth is deployed on the same stock abreast in regular turn, distance between adjacent two conductive members is defined as a spread pitch arbitrarily, these conductive members are inserted respectively and are embedded in the socket aperture of aforementioned dielectric pedestal, be plugged in wherein for the pin of integrated circuit that (this section explanation is the application content of No. 01264421.8 " conductive member of ZIF integrated circuit socket " utility model of applicant's previous application.If any not clear part, see also this case specification and accompanying drawing).

See also Fig. 1 to shown in Figure 12, each conductive member comprises: embedded part (57), electrical connection section (58) and clamping connection portion (59).Wherein embedded part (57) is to insert in the inlaid hole (56) that is embedded in insulating base frame (51) to fix.Electrical connection section (58) is the wherein end extension from embedded part (57), so that be connected in circuit board, to set up the conduction annexation with circuit board.A wherein end of above-mentioned clamping connection portion (59) then is to be connected with embedded part (57) one, and an other end of this clamping connection portion (59) is to extend to the direction away from electrical connection section (58), and but springing ground hangs and is arranged in socket aperture (53), pegs graft for the pin (55) of integrated circuit (54).

Above-mentioned clamping connection portion (59) has: at least two springing parts (60) and (60), each springing part (60) has cardinal extremity and springing end, wherein cardinal extremity is the other end that one is connected in embedded part (57), and makes longitudinal extension, and these springing parts (60) are made in correspondence with each other form by Zhe.

Of the present utility model being characterised in that:

The clamping connection portion (59) of above-mentioned conductive member also comprises: two contact sites (61a) reach (61a), and two guidance parts (61b) reach (61b), above-mentioned contact site (61a) reaches (61a), and guidance part (61b) and (61b) wait two positions in one of them position be that one is connected in the springing end of springing part (60) separately, and above-mentioned contact site (61a) reaches (61a), and guidance part (61b) and (61b) the another one position in two positions then do horizontal expansion from this one of them position one, these springing parts (60), contact site (61a), or, springing part (60) and contact site (61a) are to be misplaced the ground spread on stock, so that make the spread pitch on the above-mentioned stock be equal to aforementioned grafting pitch, not only make stock can obtain maximum utilance, but also can make conductive member from same stock punch forming in a plug-in mounting stroke, all stick with same plug socket hole on the insulating base frame.

See also Fig. 1, Fig. 2, Fig. 3, shown in Figure 4, the conductive member of above-mentioned ZIF integrated circuit socket, wherein the cardinal extremity of the springing part of two face-offs (60) forms cardinal extremity spacing (Wa), two springing ends of two springing parts (60) then form springing end spacing (Wb), and cardinal extremity spacing (Wa) is greater than springing end spacing (Wb) (being Wa＞Wb).Two mutual contact sites (61a) that stand facing each other reach the springing end that (61a) then is arranged on springing part (60), and two guidance parts (61b) that stand facing each other mutually reach (61b) then respectively (61a) does horizontal expansion since two contact sites (61a) reach.

The guidance part of aforementioned arbitrary conductive member (61b) is respectively to have the gradient that forms via the Zhe system.In addition, two guidance parts (61b) and (61b) be that one is connected these two contact sites (61a) and (61a) of face-off mutually separately, this two guidance part (61b) and importing end (61b) form and import spacing (Wc); This two guidance part (61b) and (61b) then form linking spacing (Wd) with contact site (61a) and the junction that (61a) is connected separately.Pin (55) in integrated circuit (54) does not slip into two contact sites (61a) that stand facing each other mutually and reaches (61a) before, formation clamping connection spacing (We) between two contact sites (61a) of face-off reach (61a) mutually.Above-mentioned clamping connection spacing (We) be connected spacing (Wd) all less than the width (or diameter) of the pin (55) of integrated circuit (54) (D) (that is We＜D, and We＜D).But the importing spacing (Wc) of two guidance parts (61b) and (61b) importing end is then greater than the width (or diameter) of the pin (55) of integrated circuit (54) (D) (that is Wc＞D).Thereby the pin (55) that makes integrated circuit (54) is easy to just slip into two importing ends of the guidance part (61b) of face-off mutually, and under the guiding of the gradient of two guidance parts (61b) that stand facing each other mutually, successfully slip into two mutually the face-off contact sites (61a) and (61a) between, and by the contact sites (61a) of two face-offs that originally spacing is little than pin (55) width (D) and (61a) clamp, and the formation good contact effect.

The conductive member of aforesaid ZIF integrated circuit socket, wherein the setting-in portion (57) of conductive member (52) is after inserting inlaid hole (56), just, scolding tin can further not infiltrated in the socket aperture (53) of insulating base frame (51) fully with inlaid hole (56) blocking fully closely.Further electrical connection section (58) Zhe is become the Zhe angle of 90 degree again, and make the end face at Zhe angle and socket aperture (53) bottom surface on every side of insulating base frame (51) form little gap, make scolding tin can encase the whole electrical connection section (58) of conductive member (52), effectively improve the qualification rate of entire product, and make whole scolding tin effect perfect more.

For can accurately bending up at position (62) Zhe that electrical connection section (58) links to each other with embedded part (57), the Zhe angle that makes above-mentioned 90 degree sees, above-mentioned electrical connection section (58) is to extend by a wherein end (being the lower end shown in the figure) one of the position (62) that links to each other from embedded part (57), and at the width (W62) of electrical connection section (58) with the position that links to each other (62) of embedded part (57), less than the width (W57) (being W62＜W57) of embedded part (57), the Zhe angle can accurately be bent at continuous position (62) Zhe that electrical connection section (58) links to each other with embedded part (57).

In addition, also have protuberance (57a), can further force electrical connection section (58) closely to be inserted and be embedded in the socket aperture (53) of insulating base frame (51) at embedded part (57).

Moreover embedded part (57) also has auxiliary embedded part (57b), inserts by auxiliary embedded part (57b) to be embedded in the socket aperture (53) of insulating base frame (51), conductive member (52) is firmly inserted be embedded in the socket aperture (53) of insulating base frame (51).

See also Figure 11, Figure 12, shown in Figure 13, wherein the cardinal extremity spacing (Wa ') between two cardinal extremities of the springing part of two face-offs (60) and (60) is at or about the springing end spacing (Wb ') (being Wa '=Wb ') between the two springing ends of this two springing part (60) and (60).As for two mutually face-off guidance parts (61b) and (61b) each does horizontal expansion since the springing end of springing part (60), two mutually face-off contact sites (61a) and (61a) then each since two mutually face-off guidance parts (61b) and (61b) further makes integral transverse again and extends.

The guidance part of aforementioned arbitrary conductive member (61b) has the gradient that forms via the Zhe system too separately.In addition, this two guidance part (61b) and importing end (61b) form and import spacing (Wc '); This two guidance part (61b) and (61b) separately with contact site (61a) and the junction (61a) form and to be connected spacing (Wd ').Pin (55) in integrated circuit (54) does not slip into two contact sites (61a) that stand facing each other mutually and reaches (61a) before, formation clamping connection spacing (We ') between two contact sites (61a) of face-off reach (61a) mutually.Pin (55) in integrated circuit (54) does not slip into two contact sites (61a) that stand facing each other mutually and reaches (61a) before, above-mentioned clamping connection spacing (We ') be connected spacing (Wd ') all less than the width (or diameter) of the pin (55) of integrated circuit (54) (D) (that is We '＜D, and Wd '＜D).But the importing spacing (Wc ') of two guidance parts (61b) and (61b) importing end is then greater than the width (or diameter) of the pin (55) of integrated circuit (54) (D) (that is Wc '＞D).Thereby the pin (55) that makes integrated circuit (54) is easy to slip into two importing ends of the guidance part (61b) of face-off mutually, and under the guiding of the gradient of two guidance parts (61b) that stand facing each other mutually, successfully slip into two mutually the face-off contact sites (61a) and (61a) between, and by the contact sites (61a) of two face-offs that originally spacing is little than pin (55) width (D) and (61a) clamp, and form good contact effect.

The utlity model has following effect and advantage:

1. the clamping connection section of the utility model conductive member has contact site and curved and form guidance part by Zhe, Wherein one of them position at two positions such as guidance part and contact site is that one is received in the springing of clamping connection section The springing end of section; And the another one position at guidance part and two positions of contact site then is integral transverse ground Receive in one of them position at two positions such as guidance part and contact site, it is sliding that the integrated circuit pin is easy to Enter between the contact site of two face-offs.

2. the setting-in section of the utility model conductive member is after inserting inlaid hole, and is just that inlaid hole is fully tight Thickly blocking can further not infiltrate in the socket aperture of insulating base frame scolding tin fully. Again further with electricity Connecting portion Zhe becomes the Zhe angle of 90 degree, and makes the socket aperture bottom surface on every side of end face and the insulating base frame at Zhe angle Form little gap, make scolding tin can encase the whole electrical connection section of conductive member, the whole product of Effective Raise Qualification rate, and make whole scolding tin effect more perfect.

3. the utility model electrical connection section is that a wherein end from embedded part extends integratedly, and at electrical connection section And the width of the connecting portion between the embedded part is different. That is the width of embedded part is greater than electrical connection section The width of the connecting portion that links to each other with embedded part, the position Zhe that the Zhe angle can be accurately changed at width is curved.

4. the utility model further has protuberance at the position of embedded part, can force embedded part closely Insert and be embedded in the socket aperture of insulating base frame.

Claims

1. the conductive member of a ZIF integrated circuit socket comprises:

Insulating base frame has first, with the circuit board adjacency; Second is to contact with the wherein one side of integrated circuit; Several socket apertures, a wherein end of each socket aperture are to be communicated in first of insulating base frame; And inlaid hole, this inlaid hole is connected perforation with a wherein end of socket aperture, an other end of inlaid hole is to be communicated in second of insulating base frame, and the distance between adjacent two socket apertures is defined as a grafting pitch arbitrarily, several conductive members are to cut from same stock to form, and cloth is deployed on the same stock abreast in regular turn, distance between adjacent two conductive members is defined as a spread pitch arbitrarily, this conductive member is inserted respectively and is embedded in the socket aperture of aforementioned dielectric pedestal, pegs graft for the pin of integrated circuit;

Several conductive members, cut from same stock and to form, and cloth is deployed on the same stock abreast in regular turn, distance between adjacent two conductive members is defined as a spread pitch arbitrarily, these conductive members are inserted respectively and are embedded in the socket aperture of aforementioned dielectric pedestal, pin for integrated circuit is pegged graft, and each conductive member comprises embedded part, is to insert in the inlaid hole that is embedded in insulating base frame to fix; Electrical connection section is from the wherein end extension of embedded part, so that be connected in circuit board; Clamping connection portion, wherein an end is to be connected with the embedded part one, its other end extends to the direction away from electrical connection section, and but springing ground hangs and is arranged in socket aperture, peg graft for the pin of integrated circuit, described clamping connection portion has: at least two springing parts, each springing part have cardinal extremity and springing end, wherein the cardinal extremity one is connected in an other end of embedded part, and longitudinal extension;

It is characterized in that,

The clamping connection portion of described conductive member also comprises two contact sites and two guidance parts, one of them position in described contact site and guidance part one separately is connected in the springing end of springing part, extend from one of them position integral transverse at another one position in described contact site and guidance part two positions, this springing part, contact site are misplaced the ground spread on stock, make the spread pitch on the described stock be equal to aforementioned grafting pitch; The guidance part of aforementioned arbitrary conductive member respectively has gradient, and two guidance parts one separately are connected these two contact sites of face-off mutually, and the importing end of this two guidance part forms and imports spacing; The junction that this two guidance part is connected with contact site separately then forms the linking spacing, be to form the clamping connection spacing between the contact site of two-phase face-off, described clamping connection spacing be connected spacing all less than the width or the diameter of the pin of integrated circuit, the importing spacing of the importing end of two guidance parts is then greater than the width or the diameter of the pin of integrated circuit.

2. the conductive member of ZIF integrated circuit socket according to claim 1, the cardinal extremity that it is characterized in that the springing part of described two face-offs forms the cardinal extremity spacing, two springing ends of this two springing part then form springing end spacing, the cardinal extremity spacing is greater than springing end spacing, two mutually the contact sites of face-off then be located at the springing end of springing part, two mutually the guidance part of face-off then to be each do horizontal expansion since two contact sites.

3. the conductive member of ZIF integrated circuit socket according to claim 1, it is characterized in that cardinal extremity spacing between two cardinal extremities of springing part of described two face-offs equals the spacing between the two springing ends of this two springing part, two guidance parts that stand facing each other mutually are that each does horizontal expansion since the springing end of springing part, and the contact sites of two mutual face-offs then are each guidance parts integral transverse extensions again since two mutual face-offs.

4. according to the conductive member of claim 1 or 2 or 3 described ZIF integrated circuit sockets, it is characterized in that described electrical connection section is to extend from a wherein end one of embedded part by the position that links to each other, and at the width of electrical connection section, less than the width of embedded part with the position that links to each other of embedded part.

5. according to the conductive member of claim 1 or 2 or 3 described ZIF integrated circuit sockets, it is characterized in that described embedded part has protuberance.