CN105988960B - Data recording clip and data recording module - Google Patents

Abstract

A data recording clip and a data recording module are provided. The data recording clip includes: the device comprises a fixing piece, a plurality of signal transmission probes and two positioning pieces; the fixing piece is provided with a plurality of through holes; the signal transmission probes are respectively provided with an electric contact end and are respectively assembled in the through holes; the two positioning pieces are respectively provided with a clamping end and movably arranged on the fixing piece, the electric contact ends of the signal transmission probes and the two clamping ends of the two positioning pieces protrude out of the same side edge of the fixing piece, and the two positioning pieces can move relative to the fixing piece to enable the two clamping ends to be close to or far away from the fixing piece. The invention can enable the data recording clamp to be firmly clamped on the chip, and improve the alignment precision between the signal transmission probe and the conductive pin of the chip, thereby improving the recording quality of the data recording clamp.

Description

Data recording folder and data recording module

technical field

The invention relates to a data recording device, in particular to a data programming clamp and a data recording module.

Background technique

Currently, BIOS, UEFI, ME and other firmware of server systems mostly use SOP-8 or SOP-16 chip packaged serial flash memory (serial flash). As the content of the firmware (firmware) is becoming more and more complex, and the capacity is correspondingly larger and larger, in the actual recording process, there are often problems of program omission or mistaken recording, resulting in damage to the firmware.

At present, most of the maintenance methods to solve the problem of program omission or misrecording are directly eliminating and replacing the wrong chip or directly using the chip test clip connected to the recorder to modify and update the firmware of the wrong chip. The method of directly eliminating and replacing the wrong chip will not only increase the cost of new hardware, but also increase the processing cost and waste processing time of chip removal and re-soldering. The method of directly using the chip test clip to modify and update the firmware of the wrong chip can reduce the hardware cost and maintenance cost, but the existing chip test clip is difficult to firmly clamp the chip, so that the chip will not be fixed during the recording process. There may be doubts about poor electrical contact between the test clip and the chip, which will cause firmware update failure and prolong the maintenance time. Therefore, how to make the chip test clip firmly clamp on the chip to improve the recording quality of the chip test clip will be one of the problems that developers should solve.

Contents of the invention

The purpose of the present invention is to provide a data recording clip and a data recording module with the data recording clip, so that the chip test clip can be firmly clamped on the chip, and the recording quality of the chip test clip can be improved.

The data recording folder disclosed by the present invention includes: a fixing piece, a plurality of signal transmission probes and two positioning pieces; the fixing piece has a plurality of perforations; each of the signal transmission probes has an electrical contact end, and the signal transmission The transmission probes are respectively assembled in the through holes; each of the two positioning parts has a clamping end, and the two positioning parts are movably arranged on the fixing part, and the electrical contact ends of the signal transmission probes are connected to the The two clamping ends of the two positioning parts protrude from the same side edge of the fixing part, and the two positioning parts can move relative to the fixing part to make the two clamping ends approach or move away from the fixing part.

The data recording module disclosed by the present invention includes: a chip and a data recording clip; the chip includes an insulating body and a plurality of conductive pins, and the insulating body has a first connection side and a second connection side opposite to each other. A first positioning side and a second positioning side, the conductive pins are respectively connected to the first connection side and the second connection side; the data recording clip includes: a fixing piece, a plurality of signal transmission probes and Two positioning parts; the fixing part has a plurality of perforations; each of the signal transmission probes has an electrical contact end, and these signal transmission probes are respectively assembled in the through holes; each of the two positioning parts has a clamping end, the The two positioning elements are movably arranged on the fixing element, and the electrical contact ends of the signal transmission probes protrude from the same side edge of the fixing element as the two clamping ends of the two positioning elements. The two clamping ends of the positioning member respectively abut against the first positioning side and the second positioning side, so that the electrical contact ends of the signal transmission probes respectively contact the conductive pins of the chip .

According to the data recording clip and the data recording module with the data recording clip disclosed in the above-mentioned embodiments, the positioning part and the signal transmission probe adopt a phase-separated design, because the signal transmission probe in the data recording clip is independent of the positioning part, so The two locating parts can be sandwiched between the two locating side edges of the insulating body that are not provided with conductive pins. Thereby, the data recording clip can be clamped firmly on the chip, and the alignment accuracy between the signal transmission probe and the conductive pin of the chip can be improved, thereby improving the recording quality of the data recording clip.

The above descriptions about the content of the present invention and the following descriptions of the embodiments are used to demonstrate and explain the principles of the present invention, and provide further explanations of the claims of the present invention.

Description of drawings

FIG. 1 is a perspective view of a data recording module according to a first embodiment of the present invention.

FIG. 2 is an exploded schematic diagram of FIG. 1 .

FIG. 3 is a schematic side view of FIG. 2 .

FIG. 4 is an exploded schematic view of the data recording clip of FIG. 1 .

FIG. 5 is a schematic plan view of the data recording clip of FIG. 1 sandwiched on the chip.

FIG. 6 is a schematic plan view of another viewing angle of the data recording clip of FIG. 1 sandwiched on the chip.

FIG. 7 is an exploded schematic view of the data recording clip according to the second embodiment of the present invention.

FIG. 8 is an exploded view of the data recording clip according to the third embodiment of the present invention.

Fig. 9 is a schematic perspective view of a fixing member according to a fourth embodiment of the present invention.

Description of main component symbols:

1 Data recording module 100b second side

10 circuit board 110 first side

11 Circuit layout side 120 Second side

20 chips 130 perforations

22 Insulation body 140, 150 Groove

22a First connecting side 160, 170 Chutes

22b Second connection side 200 Signal transmission probe

22c First positioning side 210 Electrical contact end

22d Second positioning side 300 Positioning piece

22e First positioning slope 310 Pivot joint

24 Conductive pin 320 Press part

24a Connecting section 330 Clamping part

24b Welding section 331 Clamping end

30, 30x, 30y Data recording clip 331a Second positioning ramp

100, 100x, 100y, 100z Mounts 340 Slider

1001 Main body 400 Pivot shaft

1002 Protrusion 500 Elastic

100a First side

Detailed ways

See Figures 1 through 3. FIG. 1 is a perspective view of a data recording module according to a first embodiment of the present invention. FIG. 2 is an exploded schematic diagram of FIG. 1 . FIG. 3 is a schematic side view of FIG. 2 .

The data recording module 1 of this embodiment includes a circuit board 10 , a chip 20 and a data recording clip 30 . The circuit board 10 has a circuit layout surface 11 . The chip 20 is, for example, an SOP-16 chip. The chip 20 includes an insulating body 22 and a plurality of conductive pins 24 . The insulating body 22 has a first connecting side 22a and a second connecting side 22b opposite to each other, and a first positioning side 22c and a second positioning side 22d opposite to each other. The opposite two sides of the first positioning side 22c are respectively connected to one end of the first connecting side 22a and the second connecting side 22b, and the opposite two sides of the second positioning side 22d are respectively connected to the other end of the first connecting side 22a and the second connecting side 22b. one end. Each of the first positioning side 22c and the second positioning side 22d of the insulating body 22 has a first positioning slope 22e.

The number of conductive pins 24 in this embodiment is 16 as an example, and each of these conductive pins 24 includes a connecting section 24a and a welding section 24b connected thereto. The connecting sections 24a of the conductive pins 24 are respectively connected to the first connection side 22a and the second connection side 22b. The welding sections 24b are respectively connected to the joining sections 24a. These welding sections 24b are welded to the circuit layout surface 11 of the circuit board 10, and the connecting sections 24a of the conductive pins 24 form an acute angle θ with the circuit layout surface 11, and the welding sections 24b of the conductive pins 24 are parallel to the circuit Layout surface 11.

See also Figure 4. FIG. 4 is an exploded schematic view of the data recording clip of FIG. 1 . The data recording clip 30 includes a fixing part 100 , a plurality of signal transmission probes 200 , two positioning parts 300 , two pivot shafts 400 and an elastic part 500 .

The fixing member 100 is made of insulating materials such as acrylic, for example. The fixing member 100 has a first surface 110 and a second surface 120 opposite to each other. The fixing member 100 has a first side 100a and a second side 100b. The first side 100 a is connected to one side of the first surface 110 and the second surface 120 , and the second side 100 b is connected to an opposite side of the first surface 110 and the second surface 120 . The fixing member 100 has a plurality of through holes 130 between the first side 100a and the second side 100b. The number of the through holes 130 in this embodiment is 16 as an example, and these through holes 130 pass through the first surface 110 and the second surface 120 . In addition, each of the first side 100 a and the second side 100 b of the fixing member 100 has a groove 140 , 150 . In detail, the grooves 140, 150 on the first side 100a are recessed from the first side 100a toward the second side 100b, and the grooves 140, 150 on the second side 100b are recessed from the second side 100b toward the first side 100a. .

The second positioning member 300 is made of hard materials such as metal, for example. The two positioning elements 300 are respectively pivotally disposed on the first side 100 a and the second side 100 b of the fixing element 100 , and the two positioning elements 300 are movably located in the two grooves 140 , 150 of the fixing element 100 . In detail, each of the two positioning elements 300 includes a pivot portion 310 , a pressing portion 320 and a clamping portion 330 . The pressing portion 320 and the clamping portion 330 are respectively connected to opposite sides of the pivot portion 310 . The two pivot portions 310 of the two positioning components 300 are respectively pivotally disposed on the first side 100 a and the second side 100 b of the fixing component 100 through two pivot shafts 400 . In addition, each of the two positioning elements 300 has a clamping end 331 . The two clamping ends 331 are respectively located at the ends of the two clamping portions 330 away from the two pivoting portions 310 , and respectively correspond to the first positioning side 22 c and a second positioning side 22 d of the insulating body 22 . In this embodiment, the clamping end 331 of each positioning member 300 also has a second positioning slope 331a, and the two second positioning slopes 331a are matched with the two first positioning slopes 22e, so that the positioning member 300 can be more stable and accurate. Ground clamped on the first positioning side 22c and a second positioning side 22d of the insulating body 22 .

The number of signal transmission probes 200 in this embodiment is 16 as an example, and these signal transmission probes 200 are respectively assembled in the through holes 130 . The signal transmission probes 200 each have an electrical contact end 210 , and the electrical contact ends 210 of the signal transmission probes 200 and the two clamping ends 331 of the two positioning components 300 protrude from the second surface of the fixing component 100 120. The electrical contact ends 210 of the signal transmission probes 200 are respectively in contact with the welding sections 24 b of the conductive pins 24 . These signal transmission probes 200 are, for example, telescopic probes. If the lengths of each signal transmission probe 200 protruding from the second surface 120 of the fixing member 100 are different due to assembly errors, the use of telescopic probes can eliminate assembly errors and allow each signal transmission probe 200 to be tightly pressed. on each conductive pin 24 . In addition, the electrical contact ends 210 of the signal transmission probes 200 may have a claw structure to improve the electrical contact quality between the signal transmission probes 200 and the conductive pins 24 .

The elastic member 500 is, for example, a compression spring, and the opposite ends of the elastic member 500 respectively abut against the two pressing parts 320 of the two positioning parts 300, so that the two pressing parts 320 of the two positioning parts 300 are relatively far apart in a normal state, and the two positioning parts are linked to each other. The two clamping ends 331 of the component 300 are normally relatively close to each other.

Please refer to Figure 5 and Figure 6. FIG. 5 is a schematic plan view of the data recording clip of FIG. 1 sandwiched on the chip. FIG. 6 is a schematic plan view of another viewing angle of the data recording clip of FIG. 1 sandwiched on the chip.

As shown in FIG. 5 , through the elasticity of the elastic member 500, the two clamping portions 330 of the two positioning members 300 can respectively abut against the first positioning side 22c and the second positioning side 22d of the insulating body 22, so that the insulating body 22 clamps It is disposed between the two clamping portions 330 of the two positioning elements 300 . When the two clamping portions 330 of the two positioning members 300 abut against the first positioning side 22c and the second positioning side 22d of the insulating body 22 respectively, the second positioning slope 331a on the clamping portion 330 will abut against the insulating body 22 The first positioning slope 22e of each signal transmission probe 200 guides the electrical contact ends 210 of each signal transmission probe 200 to automatically align and electrically contact each soldering section 24b of each conductive pin 24 (as shown in FIG. 6 ). In addition, if the clamping relationship between the data recording clip 30 and the chip 20 is to be released, press the two pressing parts 320 of the two positioning parts 300 to drive the two clamping parts 330 of the two positioning parts 300 to be relatively far away from the chip 20. Insulation body 22.

As can be seen from the above, since the two clamping parts 330 of the two positioning members 300 are clamped on the insulating body 22 with a stronger structural strength, instead of being clamped on the signal transmission probe 200 with a weaker structural strength, data recording can be improved. The firmness of clamping between the clip 30 and the chip 20 . In addition, through the guidance of the two second positioning slopes 331a on the two positioning members 300 and the two first positioning slopes 22e on the insulating body 22, each electrical contact end 210 of each signal transmission probe 200 can be driven to accurately and vertically Each soldering section 24 b of each conductive pin 24 presses against and electrically contacts.

If the signal transmission probe 200 is in electrical contact with the inclined connection section 24a, the signal transmission probe 200 may not be able to press tightly against the conductive pin 24 due to the inclination. Therefore, compared to the signal transmission probe 200 electrically contacting the inclined connection section 24a, the signal transmission probe 200 vertically pressing against the flat welding section 24b will enable the signal transmission probe 200 to press tightly. The conductive pins 24 help to improve the electrical connection quality between the signal transmission probe 200 and the conductive pins 24 , and then improve the recording quality of the chip 20 by an external recording device (not shown) through the data recording clip 30 .

The above-mentioned two positioning parts 300 in the embodiment of FIG. 1 are pivotally arranged on the fixing part 100 through the double pivot shaft 400, but it is not limited thereto. In other embodiments, the two positioning parts 300 can also be connected only through a single pivot The shaft 400 is pivotally disposed on the fixing member 100 . See Figure 7. FIG. 7 is an exploded schematic view of the data recording clip according to the second embodiment of the present invention.

The data recording clip 30x of this embodiment includes a fixing part 100x , a plurality of signal transmission probes 200 , two positioning parts 300 , a pivot shaft 400 and an elastic part 500 .

The fixing member 100x is made of insulating materials such as acrylic, for example. The fixing member 100x further includes a body portion 1001 and a protruding portion 1002 . The body portion 1001 of the fixing member 100x has a first surface 110 and a second surface 120 opposite to each other. The body portion 1001 has a first side 100a and a second side 100b. The first side 100 a is connected to one side of the first surface 110 and the second surface 120 , and the second side 100 b is connected to an opposite side of the first surface 110 and the second surface 120 . The body portion 1001 has a plurality of through holes 130 between the first side 100 a and the second side 100 b, and these through holes 130 pass through the first surface 110 and the second surface 120 . In addition, the first side 100 a and the second side 100 b of the main body 1001 each have a groove 140 , 150 . In detail, the grooves 140, 150 on the first side 100a are recessed from the first side 100a toward the second side 100b, and the grooves 140, 150 on the second side 100b are recessed from the second side 100b toward the first side 100a. . The protruding portion 1002 protrudes from the first surface 110 of the main body portion 1001 .

The second positioning member 300 is made of hard materials such as metal, for example. The two positioning elements 300 are respectively pivoted on the first side 100 a and the second side 100 b of the main body 1001 , and the two positioning elements 300 are movably located in the two grooves 140 , 150 of the main body 1001 . In detail, each of the two positioning elements 300 includes a pivot portion 310 , a pressing portion 320 and a clamping portion 330 . The pressing portion 320 and the clamping portion 330 are respectively connected to opposite sides of the pivot portion 310 . The two pivoting portions 310 of the two positioning members 300 are pivoted to the protruding portion 1002 through a single pivoting shaft 400 . In addition, each of the two positioning elements 300 has a clamping end 331 . The two clamping ends 331 are respectively located at the ends of the two clamping portions 330 away from the two pivoting portions 310 , and respectively correspond to the first positioning side 22 c and a second positioning side 22 d of the insulating body 22 . In this embodiment, the clamping end 331 of each positioning member 300 also has a second positioning slope 331a, and the two second positioning slopes 331a are matched with the two first positioning slopes 22e, so that the positioning member 300 can be more stable and accurate. Ground clamped on the first positioning side 22c and a second positioning side 22d of the insulating body 22 .

The signal transmission probes 200 are respectively assembled in the through holes 130 . Each of the signal transmission probes 200 has an electrical contact end 210 , and the electrical contact ends 210 of the signal transmission probes 200 and the two clamping ends 331 of the two positioning members 300 protrude from the second surface of the main body 1001 120. The electrical contact ends 210 of the signal transmission probes 200 are respectively in contact with the welding sections 24 b of the conductive pins 24 . These signal transmission probes 200 are, for example, telescopic probes. If the lengths of each signal transmission probe 200 protruding from the second surface 120 of the main body 1001 are different due to assembly errors, the use of telescopic probes can eliminate assembly errors and allow each signal transmission probe 200 to be tightly pressed. on each conductive pin 24 . In addition, the electrical contact ends 210 of the signal transmission probes 200 may have a claw structure to improve the electrical connection quality between the signal transmission probes 200 and the conductive pins 24 .

The elastic member 500 is, for example, a compression spring, and the opposite ends of the elastic member 500 respectively abut against the two pressing parts 320 of the two positioning parts 300, so that the two pressing parts 320 of the two positioning parts 300 are relatively far apart in a normal state, and the two positioning parts are linked to each other. The two clamping ends 331 of the component 300 are normally relatively close to each other.

The usage of the data recording clip 30 in this embodiment is similar to the usage of the data recording clip 30 in FIG. 1 , so it will not be repeated here.

In the above-mentioned embodiment, the two positioning parts 300 are combined with the fixing parts 100 and 100x in a pivotal manner, but the present invention is not limited thereto. In other embodiments, the two positioning parts can also be combined with the fixed parts in a sliding manner. on the fixture. See Figure 8. FIG. 8 is an exploded view of the data recording clip according to the third embodiment of the present invention.

The data recording clip 30y of this embodiment includes a fixing part 100y , a plurality of signal transmission probes 200 , two positioning parts 300 and an elastic part 500 .

The fixing part 100y has a first surface 110 and a second surface 120 opposite to each other. The fixing member 100y has a first side 100a and a second side 100b. The first side 100 a is connected to one side of the first surface 110 and the second surface 120 , and the second side 100 b is connected to an opposite side of the first surface 110 and the second surface 120 . Each of the first side 100a and the second side 100b of the fixing member 100y has a slide groove 160 , 170 . In detail, the chute 160, 170 on the first side 100a extends from the first side 100a to the second side 100b, and the chute 160, 170 on the second side 100b extends from the second side 100b to the first side 100a. .

These signal transmission probes 200 are installed on the fixing part 100y. These signal transmission probes 200 each have an electrical contact end 210 , and each electrical contact end 210 protrudes from the second surface 120 of the fixing member 100y.

Each of the two positioning components 300 has a clamping end 331 , and the two clamping ends 331 protrude from the second surface 120 of the fixing component 100y. In addition, each of the two positioning elements 300 has a sliding rod 340, and the two sliding rods 340 are respectively slidably disposed on the two slide grooves 160, 170, so that the two positioning elements 300 are relatively slidably disposed on the first side 100a of the fixing element 100y. and the second side 100b. In this way, the two positioning components 300 can slide relative to the fixing component 100y so that the two clamping ends 331 are relatively close to or far away from each other.

The elastic member 500 is, for example, a tension spring. The opposite ends of the elastic member 500 are respectively connected to the two positioning members 300 , so that the two clamping ends 331 of the two positioning members 300 are relatively close to each other in a normal state and can be clamped on the insulating body 22 of the chip 20 .

See Figure 9. Fig. 9 is a schematic perspective view of a fixing member according to a fourth embodiment of the present invention.

In the above-mentioned embodiment of FIG. 1, the fixing member 100z is designed corresponding to the SOP-16 type chip, so the number of perforations and the number of signal transmission probes are all 16, but it is not limited thereto, as shown in FIG. 9 , in this embodiment, the fixing member 100z is designed corresponding to the SOP-8 type chip, so the number of through holes and the number of signal transmission probes are both changed to 8.

According to the data recording clip and the data recording module with the data recording clip disclosed in the above-mentioned embodiments, the positioning part and the signal transmission probe adopt a phase-separated design, because the signal transmission probe in the data recording clip is independent of the positioning part, so The two locating parts can be sandwiched between the two locating side edges of the insulating body that are not provided with conductive pins. Thereby, the data recording clip can be clamped firmly on the chip, and the alignment accuracy between the signal transmission probe and the conductive pin of the chip can be improved, thereby improving the recording quality of the data recording clip.

In addition, the signal transmission probe is vertically pressed against the soldering section of the conductive pin lying flat on the circuit board, so the signal transmission probe can be pressed tightly against the soldering section of the conductive pin to further improve the connection between the signal transmission probe and the chip. The quality of the electrical connection between the conductive pins.

Although the embodiments of the present invention are disclosed as above, they are not intended to limit the present invention. Any person skilled in the art, without departing from the spirit and scope of the present invention, can use any shape according to the claims of the present invention , structure, features and quantity should be slightly changed, so the scope of patent protection of the present invention must be defined by the scope of the claims appended to this description as the criterion.

Claims (12)

1. a kind of data recording folder, data recording folder include：

One fixing piece, the fixing piece have multiple perforation；

Multiple signals transmit probe, those signals transmission probe respectively has one to be electrically connected with contravention, those signals transmit probe difference It is assembled in those perforation；And

Two locating pieces, two locating piece respectively have a clamping end, which is movably arranged at the fixing piece, and those are believed Those two clamping ends for being electrically connected with contravention and two locating piece of number transmission probe protrude from the same lateral margin of the fixing piece, should Two locating pieces can with respect to the fixing piece activity and make two clamping end with respect to the fixing piece close to or far from；

Wherein two clamping end respectively has one second positioning inclined-plane, has 2 first locating latchs when the data recording is located in one When the chip in face, which is born against in the 2 first positioning inclined-plane.

Further include two drive-connecting shafts 2. data recording as described in claim 1 folder, the fixing piece have opposite one first side and One second side, two locating piece respectively include an articulated section, a press section and a clamping part, and the press section and the clamping part connect respectively It is connected to the opposite sides of the articulated section, two articulated section of two locating piece passes through two drive-connecting shaft respectively and is hubbed at the fixing piece First side and the second side, two clamping end be located at the one end of two clamping parts far from two articulated section.

3. data recording as claimed in claim 2 folder, wherein first side of the fixing piece and the second side respectively have one recessed Slot, two locating piece are movably located at two groove of the fixing piece.

Further include an elastic component 4. data recording as claimed in claim 2 folder, the opposite end of the elastic component bear against in Two press section of two locating piece.

5. data recording folder as described in claim 1, further includes a drive-connecting shaft, which further includes that a body part and one are convex Portion out, the body part have opposite one first face and one second face, those perforation run through first face and second face, this is convex Portion protrudes from first face of the body part out, which respectively includes an articulated section, a press section and a clamping part, this is pressed Splenium and the clamping part are connected to the opposite sides of the articulated section, and two articulated section of two locating piece passes through the pivot respectively Spindle is hubbed at the protrusion of the fixing piece, which is located at one of two clamping part far from two articulated section Those two clamping ends for being electrically connected with contravention and two locating piece at end, those signals transmission probe all protrude from the body part Second face.

Further include an elastic component 6. data recording as claimed in claim 5 folder, the opposite end of the elastic component bear against in Two press section of two locating piece.

7. data recording folder as claimed in claim 5, wherein the body part has one first opposite side and a second side, should First side of body part and the second side respectively have a groove, two locating piece be movably located at the body part this is two recessed Slot.

8. data recording folder as described in claim 1, wherein the fixing piece has one first opposite side and a second side, should Two locating pieces can be relatively slidably set on first side of the fixing piece and the second side.

9. data recording folder as claimed in claim 8, wherein first side of the fixing piece and the second side respectively have one to slide Slot, two locating piece respectively have a slide bar, which is respectively slidably set to two sliding slot.

10. data recording folder as claimed in claim 9, further includes an elastic component, the opposite end of the elastic component is separately connected In two locating piece.

11. a kind of data recording module, the data recording module include：

One chip, the chip include an insulating body and more conductive pins, which has one first opposite connection Side and one second connecting side and opposite one first oriented side and one second oriented side, those conductive pins be connected to this One connecting side and second connecting side；And

One data recording folder, data recording folder include：

One fixing piece, the fixing piece have multiple perforation；

Multiple signals transmit probe, those signals transmission probe respectively has one to be electrically connected with contravention, those signals transmit probe difference It is assembled in those perforation；And

Two locating pieces, two locating piece respectively have a clamping end, which is movably arranged at the fixing piece, and those are believed Those two clamping ends for being electrically connected with contravention and two locating piece of number transmission probe protrude from the same lateral margin of the fixing piece, should Two clamping end of two locating pieces is born against in first oriented side and second oriented side, so that those signals transmit probe Those be electrically connected with those conductive pins that contravention is contacted with the chip respectively；

Wherein two clamping end respectively has one second positioning inclined-plane, and first oriented side and second oriented side respectively have one first Inclined-plane is positioned, which bears against in the 2 first positioning inclined-plane.

12. data recording module as claimed in claim 11, further includes a circuit board, which has a circuit layout Face, those conductive pins respectively include connected a joining section and a welding section, and the joining section of those conductive pins is separately connected In first connecting side and second connecting side, those welding sections are connected to those joining sections, those conductive pins are somebody's turn to do A little joining sections and the circuit layout face press from both sides an acute angle, those welding sections of those conductive pins are parallel to the circuit layout face, should Those of a little signal transmission probes are electrically connected with those welding sections that contravention is contacted with those conductive pins respectively.