TWI756131B - Detection component with reset module and detection device using the detection component - Google Patents

Abstract

The invention provides a detection device suitable for detecting electronic products, which comprises a frame body, a board to be tested installed on the frame body, a transmission unit installed on one side of the frame body, and two detection components, The two detection assemblies are installed at one end of the transmission unit, and an object to be tested is loaded on the side plate to be tested, so that the two detection assemblies are respectively close to the to-be-measured area 33 of the object to be tested, wherein, Any of the detection components includes a reset module; with the technical features of the detection device and its components disclosed in the present invention, in addition to achieving the effect of returning the mechanism to the positioning, the two components of the detection device can be further improved. The phenomenon of mechanism error caused by mechanism wear is effectively reduced between the detection assembly and its sub-components.

Description

Detection component with reset module and detection device using the detection component

The present invention is related to the detection technology of electronic products, and particularly relates to a detection component with a return module and a detection device using the detection component.

There are many types of electronic product testing modules currently used. In order to further ensure the normal and complete operation of the product after the manufacturing is completed, the electronic product will undergo a certain procedural electrical test before it is shipped. Design testing devices that meet specific electronic products. That is, as shown in the "detection device" disclosed in the Republic of China Patent Publication No. TWM591621U No. B (the following reference numerals refer to the reference numerals listed in the embodiments of the aforementioned patent cases) and shown in conjunction with the figures, it includes a first carrier (10), a second carrier (20) and an assembly part (30), because the assembly part (30) is installed in the assembly part (13) of the first carrier (10) because of the technical characteristics, it can be The external object to be tested is easily assembled in the assembly area (33) of the assembly element (30), and a movable element (27) is locked through the first carrier (10), so that the first carrier (10) The movable piece (27) can be displaced in the movable hole portion (23) of the second carrier (20), and the movable piece (27) is blocked by the stopper portion (25). system.

Although, the movable member (27) locked on the first carrier (10) can move back and forth in the movable hole portion (23) of the second carrier (20), in the long run, it is easy to make the movable member (27). ) and the blocking portion (25) due to the wear of the mechanism, resulting in the phenomenon of poor action, even indirectly, the phenomenon of poor assembly between the assembly (30) and the object to be tested.

In order to improve the problems mentioned in the prior art, the present invention provides a detection device suitable for detecting electronic products, which includes a frame body, a test board installed on the frame body, and a test board installed on the frame body. A transmission unit and two detection components on one side of the frame body, and the two detection components are installed at one end of the transmission unit, and a test object is loaded on the side plate to be tested, so that the two detection components are respectively close to each other. In the to-be-measured area 33 of the object to be tested, any of the detection components includes a reset module; through the technical characteristics of the detection device and its components disclosed in the present invention, except for the mechanism that can achieve the reset and positioning of the mechanism. In addition to the function, the mechanism error phenomenon caused by mechanism wear can be effectively reduced between the two detection components of the detection device and their respective sub-components.

The present invention discloses a detection component that can be installed in the detection device, which includes a detection module, a reset module assembled on the detection module, and two sets of two reset modules respectively assembled on the reset module. The buffer module; and the detection module includes an assembly part and a first carrier; the assembly part is recessed to form an assembly area and a peripheral wall surrounding the assembly area, the assembly area is connected through There are a plurality of perforations, the peripheral wall of the grouping area is provided with a connecting part with a chamfered angle, and the assembly part is provided with a clamping part; the carrier is recessed to form an assembly part, and the assembly part is provided with A detection seat, the detection seat is provided with a plurality of metal guide pins; wherein, the assembly is assembled in the assembly part of the carrier, so that the detection seat of the carrier is embedded in the clip of the assembly part, and let the plurality of perforations in the assembly area of the assembly correspond to the protruding ends of the plurality of metal guide pins in the detection seat of the carrier respectively; and the reset module includes a A positioning member, a supporting member and a second carrier; the positioning member has a top and a bottom corresponding to the top, and is recessed from the bottom to the top to form an assembly portion, and from the top to the top The direction of the bottom is concave to form a plurality of spaced positioning parts, wherein the assembling part of the positioning part corresponds to the assembling part of the carrier; the supporting part has a top and a corresponding to the top The bottom is recessed from the bottom to the top to form an accommodating portion, and a plurality of spaced perforations are pierced from the top to the bottom, and the perforations are respectively communicated with the accommodating portion, Wherein, the plurality of perforations of the support member correspond to the plurality of positioning portions of the positioning member respectively; the second carrier system is perforated with a plurality of perforations, and any one of the perforations is provided with a return member and Corresponding to the position of one of the through holes of the support piece and the position of one of the positioning parts of the positioning piece, wherein the return pieces of the second carrier are respectively pierced through the through holes and the position of the support piece. After the perforations are respectively limited to the positioning portions of the positioning member.

The present invention also discloses another detection component that can be installed in the detection device, which includes a detection module, a return module arranged on the detection module, and a return module arranged on the return module respectively. Two buffer modules; and the detection module includes an assembly part and a carrier; the assembly part is recessed to form an assembly area and a peripheral wall surrounding the assembly area, and the assembly area passes through There are a plurality of perforations, the peripheral wall of the assembly area is provided with a chamfered connection portion, the assembly part is provided with a clamping portion; the carrier is recessed to form an assembly portion, and the assembly portion is provided with A detection seat, the detection seat is provided with a plurality of metal guide pins; wherein, the assembly is assembled in the assembly part of the carrier, so that the detection seat of the carrier is embedded in the card of the assembly setting part, and make the plurality of perforations in the assembly area of the assembly part correspond to the protruding ends of the plurality of metal guide pins in the detection seat of the carrier respectively; and the return module includes A positioning member, a supporting member and a second carrier; the positioning member is provided with a positioning plate portion, the positioning plate portion has a top and a bottom corresponding to the top, from the top to the direction of the bottom It is recessed to form a plurality of spaced positioning portions; the support member has a top and a bottom corresponding to the top, and a accommodating portion is recessed from the bottom toward the top, and from the top to the top The direction of the bottom is recessed to form a bearing portion, wherein the bearing portion communicates with the accommodating portion, and a shoulder is formed between the bearing portion and the accommodating portion, so that the positioning plate portion of the positioning member can be The second carrier is movably arranged in the bearing portion of the support and stops at the shoulder of the support; the second carrier is provided with a plurality of perforations, and any one of the perforations is provided with a return piece corresponding to the The position of the positioning plate portion of the positioning member, wherein the return members of the second carrier are respectively limited to the position of the positioning member after passing through the through holes and the bearing portion of the supporting member. and other positioning plates.

The applicant first explains that in the entire specification, including the embodiments described below and the various claims in the scope of the patent application, the terms related to the directionality are used in the drawings listed in the [Brief Description of Illustrations] in this case. direction as the base. Next, in the embodiments and drawings to be introduced below, the same element numbers represent the same or similar elements or their structural features. Moreover, the detailed structure, characteristics, assembling or using, and manufacturing methods of the present invention will be described in the detailed description of the following embodiments. However, those with ordinary knowledge in the field of the present invention should understand that these detailed descriptions The embodiments listed in the present invention are only used to support and illustrate that the present invention can actually be realized, and are not intended to limit the scope of the patent application of the present invention.

Please refer to FIG. 1 to FIG. 3 , which is a detection device 1 suitable for detecting electronic products (eg, displays, etc.) disclosed in the first preferred embodiment of the present invention, which includes a frame 2 , a frame mounted on the frame The board to be tested 3 on the body 2, a transmission unit 4 installed on one side of the frame body 2, and two detection components 5 installed at one end of the transmission unit 4, wherein the side board 3 is loaded with A test object 31, so that the two detection components 5 are close to the test area 33 of the test object 31; wherein, any of the detection components 5 includes a detection module 6, a set in the detection module 6 The reset module 7 and two buffer modules 8 are respectively set on the reset module 7 .

Please refer to FIGS. 2 to 7 together, and the detection module 6 includes an assembly 10 and a first carrier 20 . The assembly 10 has a top 11 and a bottom 12 corresponding to the top 11 , and is recessed from the bottom 12 of the assembly 10 toward the top 11 to form an assembly area 13 and surrounding A peripheral wall 130 of the assembly area 13; wherein, the position of an imaginary center point in the assembly area 13 of the assembly 10 is provided with a plurality of through holes 131; wherein, the bottom 12 of the assembly 10 A connecting portion 133 is formed between the peripheral wall 130 surrounding the assembly area 13 , and the connecting portion 133 is formed by tapering from the bottom 12 of the assembly 10 toward the assembly area 13 . Arc-shaped or push-pull-shaped chamfers; and from the bottom 12 of the assembly 10 toward the top 11 are respectively recessed to form four accommodating portions 14 and a clamping portion 15 of the same size, so that the The four accommodating portions 14 surround the clamping portion 15 and are arranged at intervals. The first carrier 20 has a top portion 21 and a bottom portion 22 corresponding to the top portion 21 . An assembly portion 23 is formed concavely from the bottom portion 22 of the first carrier 20 toward the top portion 21 . The setting portion 23 is provided with a detection seat 25, and a plurality of metal guide pins 251 are arranged in the detection seat 25; wherein, the assembly 10 is assembled in the assembly portion 23 of the first carrier 20, so that the first The detection seat 25 of a carrier 20 is embedded in the position of the clamping portion 15 of the assembly 10 , and the plurality of through holes 131 in the assembly area 13 of the assembly 10 correspond to the first The protruding end of the plurality of metal guide pins 251 in the detection base 25 of a carrier 20 ; in addition, from the assembling portion 23 of the first carrier 20 toward the top 21, it is recessed to form four same size The accommodating parts 24 are arranged so that the four accommodating parts 24 surround the circumference of the detection seat 25 and are arranged at intervals, and the accommodating parts 24 of the first carrier 20 are respectively corresponding to the assembly The positions of the accommodating portions 14 of the component 10 are determined. Preferably, there is one accommodating portion 14 between any of the accommodating portions 14 of the assembly 10 and any of the accommodating portions 24 of the first carrier 20. Spring 17.

Please refer to FIG. 2 , FIG. 3 to FIG. 7 again, and the reset module 7 includes a positioning member 40 , a supporting member 50 and a second carrier 60 . The positioning member 40 has a top portion 41 and a bottom portion 42 corresponding to the top portion 41 . An assembly portion 43 is formed concavely from the bottom portion 42 of the positioning member 40 toward the top portion 41 . The direction of the top 41 of the 40 toward the bottom 42 is concave to form four spaced and concave arc-shaped positioning portions 45, and any of the positioning portions 45 has an imaginary center point, and the imaginary center point of the positioning portion 45 is formed. A positioning hole 451 is formed through the center point toward the bottom 42 of the positioning member 40 , wherein the assembling portion 43 corresponds to the position of the assembling portion 23 of the first carrier 20 . One end is inserted between the assembling portion 43 of the positioning member 40 and the first carrier 20 , so that the other end of the plurality of metal guide pins 251 in the detection seat 25 of the first carrier 20 protrudes It is electrically conductive with the detection cable 90. Preferably, four zinc rod screws are respectively passed through the positioning holes 451 in the positioning portions 45 of the positioning member 40, and then locked in the positioning hole 451. The position of the detection cable 90 is used to avoid the phenomenon that the detection cable 90 is detached during detection. The support member 50 has a top portion 51 and a bottom portion 52 corresponding to the top portion 51 . A receiving portion 53 is formed concavely from the bottom portion 52 of the support member 50 toward the top portion 51 . The top 51 of the 50 is provided with four through holes 55 arranged at intervals in the direction of the bottom 52 , and the through holes 55 are respectively connected to the accommodating portion 53 . The through holes 55 correspond to the positions of the four positioning portions 45 of the positioning member 40 respectively. The second carrier 60 has a top 61 and a bottom 62 corresponding to the top 61 , and four through holes 63 are pierced from the top 61 of the second carrier 60 toward the bottom 62 . A return piece 65 is disposed in the through hole 63 , so that the return piece 65 in the four through holes 63 of the second carrier 60 respectively corresponds to the positions of the four through holes 55 of the support member 50 and The positions of the four positioning portions 45 of the positioning member 40 are such that any one of the returning members 65 of the second carrier 60 passes through the through holes 63 of the second carrier 60 and the through holes 55 of the support member 50 respectively. , and is limited to the position of the concave arc-shaped positioning portion 45 of the positioning member 40 ; and it is worth mentioning that in this embodiment, any one of the return members 65 of the second carrier 60 is a roller A ball 651 is provided at the end of any one of the return elements 65, preferably, any one of the return elements 65 of the second carrier 60 close to the ball 651 is radially protruded to form an annular block 653, The position of a shoulder 553 in the through hole 55 of the support member 50 can be stopped and limited. Of course, any one of the return members 65 of the second carrier 60 can also be a ball.

Please refer to FIG. 2 , FIG. 4 , FIG. 5 , FIG. 7 and FIG. 8 first, and the two buffer modules 8 are respectively assembled on the support member 50 of the return module 7 , so that the two buffer modules 8 are arranged On both sides of the positioning member 40 of the reset module 7 and the second carrier 60 ; and any of the buffer modules 8 includes a fixed seat 81 , a buffer column 83 and an abutting member 85 , the fixed seat 81 It is assembled on the support member 50 of the return module 7, so that the buffer column 83 is passed through the fixed seat 81 and the support member 50 of the return module 7, and can extend back and forth in the fixed seat 81, The abutting member 85 is installed on the buffer column 83 and is close to the side of the second first carrier 20 of the detection module 6. Preferably, the entire length of the abutting member 85 is greater than the plurality of numbers The length of the detection seat 25 of the second first carrier 20 protruding from the metal guide pins 251 is protruded.

The above are the technical features of the detection device 1 and its constituent components disclosed in the preferred embodiment of the present invention. Next, the operation mode of the detection device 1 and the desired effect to be achieved are as follows:

First, it has a structural design with stable assembly. Please refer to FIG. 2 , FIG. 5 , FIG. 7 , and FIG. 8 , first, load the DUT 31 which is expected to be electrically tested on the DUT 3 of the detection device 1 , and then activate the transmission unit 4. Let the two detection components 5 installed at one end of the transmission unit 4 gradually approach the direction of the area to be tested 33 of the object to be tested 31 on the plate 3 to be tested, so that any of the detection components 5 The abutting members 85 of the two buffer modules 8 gradually approach the object to be tested 31 , and then, when the abutting members 85 of the buffer modules 8 of the two detection components 5 abut the object to be tested At 31:00, at this time, by virtue of the technical feature that the abutting member 85 of any of the buffer modules 8 is installed on the buffer column 83, the buffer column 83 is gradually retracted toward the direction of the fixed seat 81, thereby driving the buffer column 83. The detection module 6 is gradually approached toward the object to be tested 31 and achieves the effect of maintaining the overall pressing stability of the detection components 5 when gradually approaching the object to be tested 31 of the side plate 3 until the detection module The assembly area 13 of the assembly 10 of the detection module 6 is assembled to the to-be-measured area 33 of the object to be tested 31 , preferably, through the assembly area 13 of the assembly 10 of the detection module 6 . The technical feature that the connecting portion 133 is in an arc shape or a push-pull chamfer will achieve the effect of sliding to the test area 33 of the test object 31 and successfully completing the assembly.

Second, it has a structural design for mechanism correction and compensation. Please refer to FIG. 2 , FIG. 5 and FIG. 6 together again, that is, when the detection module 6 of the two detection components 5 of the detection device 1 cannot be smoothly assembled in the to-be-measured area 33 of the test object 31 At the same time, because the set area 13 of the assembly 10 of any of the detection modules 6 has the technical characteristics of larger size compared with the to-be-measured area 33 of the object to be tested 31, the assembly 10 is The assembling area 13 is convenient to be assembled into the testing area 33 of the object 31 to be tested, so as to achieve the effect of mechanism calibration and compensation.

Thirdly, it has the structural design of mechanism return positioning. Please refer to FIG. 3 and FIG. 11 together again, that is, when the detection module 6 of the two detection components 5 of the detection device 1 is successfully assembled in the to-be-measured area 33 of the object to be tested 31, in order to To overcome the mechanism error phenomenon between the assembly area 13 of the assembly 10 and the to-be-measured area 33 of the object to be tested 31 due to mechanical wear, that is, when any of the reset modules 7 When the return elements 65 of the second carrier 60 and the positioning portions 45 of the positioning element 40 are respectively mechanically offset, at this time, the return elements 65 of the second carrier 60 are rollers. Or the technical feature of the ball 651 is provided at the end, so that the return members 65 of the second carrier 60 can slide to the positioning in the concave arc-shaped positioning portions 45 of the positioning member 40 respectively. The hole 451 is limited by the hole 451 , in addition to the effect of returning the mechanism to the positioning, it can also effectively reduce the mechanism error caused by the mechanism wear between the two detection components 5 of the detection device 1 and their respective sub-components. .

Please refer to FIG. 12 to FIG. 14 and FIG. 22 , which are another two detection components 5A suitable for being installed on the transmission unit 4 of the detection device 1 according to the second preferred embodiment of the present invention. The technical features, connection relationships and desired functions of the component 5A and its sub-components are similar to those disclosed in the first preferred embodiment, that is, similarly, any of the detection components 5A includes A detection module 6A, a reset module 7A set on the detection module 6A, and two buffer modules 8A set on the reset module 7A respectively; similarly, a detection cable 90A has a One end is inserted between the set portion 43A of the positioning member 40A of any of the detection components 5A and the first carrier 20A, so that the plurality of metal pins 251A in the detection seat 25A of the first carrier 20A The protruding other end is electrically connected to one end of the detection cable 90A; and the difference lies in:

Please refer to FIGS. 12 to 20 and 22 together. The support 50A of the reset module 7A of any of the detection components 5A has a top 51A and a bottom 52A corresponding to the top 51A. The bottom 52A of the support member 50A is recessed toward the top 51A to form a receiving portion 53A, and the support portion 54A is recessed from the top 51A of the support 50A toward the bottom 52A to form a bearing portion 54A. 54A communicates with the accommodating portion 53A, and the inner diameter of the bearing portion 54A is larger than the inner diameter of the accommodating portion 53A, so that a shoulder 55A is formed between the bearing portion 54A and the accommodating portion 53A. In addition, the positioning member 40A is provided with a positioning plate portion 40B, and the positioning plate portion 40B is movably disposed in the bearing portion 54A of the supporting member 50A and abuts against the shoulder portion 55A of the supporting member 50A. The positioning plate portion 40B has a top portion 41B and a bottom portion 42B corresponding to the top portion 41B, which are recessed from the top portion 41B of the positioning plate portion 40B toward the bottom portion 42B to form four spaced apart and in the direction of the bottom portion 42B. The concave arc-shaped positioning portion 45B, preferably, the positioning plate portion 40B is fastened to the body of the positioning member 40A through four zinc rod screws 43B, respectively. It is worth mentioning that, in this embodiment, any one of the return elements 65A of the second carrier 60A is a roller, and the end of any of the return elements 65A has a ball 651A, preferably , any one of the return pieces 65A of the second carrier 60A close to the ball 651A is radially protruded to form an annular block 653A, which can be stopped and limited to a shoulder in the through hole 63A of the second carrier 60A The position of 631A, of course, any of the return elements 65A of the second carrier 60A can also be balls.

Please refer to FIG. 12 to FIG. 22 together, and the second preferred embodiment of the present invention discloses another two detection components 5A suitable for being installed on the transmission unit 4 of the detection device 1 . The effect is that when any of the return pieces 65A of the second carrier 60A of the return module 7A and the positioning parts 45B of the positioning plate part 40B of the positioning piece 40A have a mechanism deviation phenomenon, at this time , through the technical feature that the positioning plate portion 40B of the positioning member 40A of any of the detection components 5A has a movable margin in the bearing portion 54A of the support member 50A of the return module 7A, and the second carrier 60A The return elements 65A are a roller or have the technical feature of the ball 651A at the end, so that the return elements 65A of the second carrier 60A can respectively slide to the positioning plate of the positioning element 40A. The position of the concave arc-shaped positioning portion 45B in the portion 40B is thus limited, thereby achieving the effect of being more convenient for returning to the positioning.

1: Detection device 2: Frame 3: Board to be tested 31: Object to be tested 33: Area to be tested 4: Transmission unit 5: Detection components 6: Detection module 7: Regression Module 8: Buffer module 10: Components 11: Top 12: Bottom 13: Set up areas 130: Zhou Wall 131: Perforation 133: Connector 14: accommodating part 15: Card setting department 17: Spring 20: The first carrier 21: Top 22: Bottom 23: Organization Department 24: accommodating part 25: detection seat 251: metal lead 40: Positioning pieces 41: Top 42: Bottom 43: Organization Department 45: Positioning part 451: Positioning hole 50: Supports 51: Top 52: Bottom 53: accommodating part 55: Perforation 553: Shoulder 60: Second carrier 61: Top 62: Bottom 63: Perforation 65: Returns 651: Ball 653: Block Wall 81: Fixed seat 83: Buffer column 85: Abutment 90: Detection cable 5A: Detection components 6A: Detection module 7A: Return Module 8A: Buffer module 40A: Positioning piece 40B: Positioning plate part 41B: Top 42B: Bottom 43B: Zinc rod screw 45B: Positioning part 50A: Supports 51A: Top 52A: Bottom 53A: accommodating part 54A: Bearing part 55A: Shoulder 60A: Second carrier 63A: Perforated 631A: Shoulder 65A: return piece 651A: Ball 653A: Barrier

FIG. 1 is a three-dimensional schematic diagram of a first preferred embodiment of the present invention, which mainly discloses a detection device 1 . FIG. 2 is a three-dimensional schematic diagram of some components of FIG. 1 , mainly exposing a detection component 5 installed on the detection device 1 . FIG. 3 is a perspective view of the detection assembly 5 of FIG. 2 from another angle. FIG. 4 is a schematic cross-sectional view of some components of FIG. 2 . FIG. 5 is a schematic side view of FIG. 2 . FIG. 6 is a schematic top view of FIG. 2 , which mainly discloses a positioning member 40 , a support member 50 , and a second carrier 60 of the detection assembly 5 in an undisplaced state. FIG. 7 is a partial cross-sectional view and a side view of the components shown in FIG. 1 , which mainly discloses a state in which the detection device 1 and an object to be tested 31 have not been electrically connected. FIG. 8 is a schematic side view of a part of components similar to FIG. 7 , mainly showing the contact state between a buffer module 8 of the detection device 1 and the object to be tested 31 . 9 is a schematic cross-sectional and side view of a part of the components similar to FIG. 8 , mainly showing that the detection device 1 and the detection area 33 of the object to be tested 31 are electrically connected, and the second carrier 60 and the detection area 33 are electrically connected. The positioning member 40 has not returned to the position of positioning. FIG. 10 is a schematic top view of FIG. 9 , which mainly shows that the positioning member 40 , the supporting member 50 , and the second carrier 60 of the detection assembly 5 are in a state that has not been returned to the position. FIG. 11 is a schematic cross-sectional and side view of a part of the components similar to FIG. 10 , mainly showing that the positioning member 40 , the supporting member 50 and the second carrier 60 of the detection assembly 5 are in a state where they have been returned to their positions. FIG. 12 is a perspective view of the second preferred embodiment of the present invention, which mainly discloses another two detection components 5A installed on the transmission unit 4 of the detection device 1 . FIG. 13 is a three-dimensional schematic diagram of a part of the components of FIG. 12 , which mainly discloses another detection component 5A installed on the detection device 1 . FIG. 14 is a perspective view of the detection assembly 5A of FIG. 13 from another angle. FIG. 15 is a schematic cross-sectional view of some components of FIG. 13 . FIG. 16 is a schematic side view of FIG. 13 . FIG. 17 is a schematic top view of FIG. 13 , which mainly shows that a positioning member 40A, a supporting member 50A and a second carrier 60A of the detection assembly 5A are in a state where they are not offset. FIG. 18 is a partial cross-sectional view and a side view of the components shown in FIG. 12 , which mainly discloses a state in which the detection device 1 and an object to be tested 31 have not been electrically connected. FIG. 19 is a schematic side view of a part of components similar to FIG. 18 , mainly showing the contact state between a buffer module 8A of the detection device 1 and the object to be tested 31 . 20 is a schematic cross-sectional and side view of a part of the components similar to FIG. 19 , mainly showing that the detection device 1 and the detection area 33 of the object to be tested 31 are electrically connected, and the second carrier 60A and the The positioning member 40A has not returned to the state of positioning. FIG. 21 is a schematic top view of FIG. 20 , which mainly discloses that the positioning member 40A, the supporting member 50A and the second carrier 60A of the detection assembly 5A are in a state that has not been returned to the position. 22 is a schematic cross-sectional and side view of a part of the components similar to FIG. 21 , mainly showing that the positioning member 40A, the supporting member 50A and the second carrier 60A of the detection assembly 5A are in a state where they have been returned to their positions.

5A: Detection components

8A: Buffer module

40A: Positioning piece

50A: Supports

60A: Second carrier

Claims (10)

A detection assembly, comprising: a detection module, a set of reset modules arranged on the detection module, and two buffer modules respectively set on the reset module; and the detection module comprises a set of A connector and a first carrier; the connector is recessed to form a set of zones and a peripheral wall surrounding the set zone, the set zone is pierced with a plurality of perforations, and the peripheral wall of the set zone has A chamfered connecting part, the assembly is provided with a clamping part; the first carrier is recessed to form a set of parts, the set part is provided with a detection seat, the detection seat is provided with a plurality of metal Guide feet; wherein, the assembly is assembled in the assembly part of the first carrier, so that the detection seat of the first carrier is embedded in the clamping part of the assembly, and the assembly is The plurality of perforations in the assembly area correspond to one end of the protruding end of the plurality of metal guide feet in the detection seat of the first carrier, respectively; and the reset module includes a positioning member, a supporting member and a second carrier; the positioning member has a top and a bottom corresponding to the top, and is concave from the bottom toward the top to form a set of parts, and is concave from the top toward the bottom A plurality of positioning portions arranged in concave arc-shaped intervals are formed, wherein the assembling portion of the positioning member corresponds to the assembling portion of the first carrier; the supporting member has a top and a bottom corresponding to the top , the direction from the bottom to the top is concave to form an accommodating part, the direction from the top to the bottom is through a plurality of spaced through holes, the The equal perforations are respectively communicated with the accommodating parts, wherein the plurality of perforations of the support piece correspond to the plurality of positioning parts of the positioning member respectively; the second carrier system is perforated with a plurality of perforations, and any A return piece is arranged in the through hole and corresponds to the position of one of the through holes of the support piece and the position of one of the positioning parts of the positioning piece, wherein the return pieces of the second carrier are respectively After passing through the perforations and the perforations of the support member, they are respectively limited to the positioning portions of the positioning member. The detection assembly according to claim 1, wherein the assembly has a top and a bottom corresponding to the top, and the direction from the bottom of the assembly to the top is respectively recessed to form a plurality of capacitances. The accommodating part is arranged so that the plurality of accommodating parts are arranged around the clamping part and spaced apart; wherein, the first carrier system has a top and a bottom corresponding to the top, from the bottom of the first carrier The set portion is formed concavely toward the top, and a plurality of accommodating portions are concavely formed from the set portion toward the top, so that the plurality of accommodating portions are spaced around the circumference of the detection seat Setting; wherein, the accommodating portions of the first carrier correspond to the accommodating portions of the assembly respectively, and any one of the accommodating portions of the assembly and the first carrier A spring is fastened between the accommodating parts. The detection assembly according to claim 2, wherein the two buffer modules are disposed on two sides of the positioning member of the return module and the second carrier, and any of the buffer modules comprises a fixing seat, a A buffer column and an abutting member, the fixed seat is assembled on the return module, so that the buffer column is passed through the fixed seat and The abutting member is arranged on the buffer column and is close to the second first carrier of the detection module, which can be reciprocally extended in the fixing seat. The detection assembly as claimed in claim 3, wherein any one of the return elements of the second carrier close to the ball is radially protruded to form an annular block, which can be stopped and limited to the through hole of the support element. A shoulder position. A detection assembly, comprising: a detection module, a set of reset modules arranged on the detection module, and two buffer modules respectively set on the reset module; and the detection module comprises a set of A connector and a first carrier; the connector is recessed to form a set of zones and a peripheral wall surrounding the set zone, the set zone is pierced with a plurality of perforations, and the peripheral wall of the set zone has A chamfered connecting part, the assembly is provided with a clamping part; the first carrier is recessed to form a set of parts, the set part is provided with a detection seat, the detection seat is provided with a plurality of metal Guide feet; wherein, the assembly is assembled in the assembly part of the first carrier, so that the detection seat of the first carrier is embedded in the clamping part of the assembly, and the assembly is The plurality of perforations in the assembly area correspond to one end of the protruding end of the plurality of metal guide feet in the detection seat of the first carrier, respectively; and the reset module includes a positioning member, a supporting member and a second carrier; the positioning member is provided with a positioning plate portion, the positioning plate portion has a top and a bottom corresponding to the top, and the direction from the top to the bottom is recessed to form a plurality of spaced The positioning part; the support is provided with A top and a bottom corresponding to the top are recessed from the bottom toward the top to form an accommodating portion, and recessed from the top to the bottom to form a bearing portion, wherein the bearing portion It communicates with the accommodating part, and a shoulder is formed between the carrying part and the accommodating part, so that the positioning plate part of the positioning piece is movably arranged in the carrying part of the supporting piece, and stops at the The shoulder of the support piece; the second carrier is provided with a plurality of perforations, and any of the perforations is provided with a return piece corresponding to the position of the positioning plate of the positioning piece, wherein the second carrier is After passing through the through holes and the bearing portion of the supporting member, the equal-returning elements are respectively limited to the positioning plate portions of the positioning element. The detection assembly according to claim 5, wherein the assembly has a top and a bottom corresponding to the top, and the direction from the bottom of the assembly toward the top is respectively recessed to form a plurality of capacitances. The accommodating part is arranged so that the plurality of accommodating parts are arranged around the clamping part and spaced apart; wherein, the first carrier system has a top and a bottom corresponding to the top, from the bottom of the first carrier The set portion is formed concavely toward the top, and a plurality of accommodating portions are concavely formed from the set portion toward the top, so that the plurality of accommodating portions are spaced around the circumference of the detection seat Setting; wherein, the accommodating portions of the first carrier correspond to the accommodating portions of the assembly respectively, and any one of the accommodating portions of the assembly and the first carrier A spring is fastened between the accommodating parts. The detection assembly according to claim 6, wherein the two buffer modules are disposed on two sides of the positioning member of the return module and the second carrier, and any of the buffer modules comprises a fixing seat, a A buffer column and an abutting member, the fixed seat is assembled on the return module, so that the buffer column can be reciprocally extended in the fixed seat through the fixed seat, and the abutting member is installed on the The buffer column is close to the first carrier of the detection module. The detection assembly according to claim 7, wherein any one of the return elements of the second carrier near the ball is radially protruded to form an annular block, which can be stopped and limited to the through hole of the second carrier one of the shoulders. A detection device, comprising: a frame body, a board to be tested installed on the frame body, a transmission unit installed on one side of the frame body, and two as described in any one of claims 1 to 8 The two detection components are installed at one end of the transmission unit, and the side plate to be tested is loaded with an object to be tested, so that the two detection components are respectively close to the test area of the object to be tested. The detection device as claimed in claim 9, wherein one end of a detection cable is inserted between the positioning member of any of the detection components and the first carrier, so that the plurality of detection seats in the first carrier The other end protruding from the metal guide pin is electrically conductively connected to one end of the detection cable.

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