CN217059303U - Probe detection device - Google Patents

Abstract

The utility model discloses a probe detection device, which comprises a detection seat, wherein a plurality of detection grooves are arranged on the detection seat; each detection groove is used for clamping a probe, and a part to be detected of the probe extends out of the end part of the detection groove; the crimping component comprises a plurality of pressing blocks; each pressing block is detachably arranged in each detection groove so as to press and connect the probe; the detection assembly comprises a driving piece, an elastic piece mounting plate and a plurality of elastic pieces, and the elastic piece mounting plate is mounted on the detection seat and driven by the driving piece to move along the detection direction; the elastic sheets are arranged on the elastic sheet mounting plate and are distributed at the end parts of the detection grooves in a one-to-one correspondence manner; each spring plate is used for correspondingly jacking the part to be detected of each probe when the spring plate mounting plate moves along the detection direction. The utility model discloses a probe detection device, it can drive the probe that a plurality of shell fragments on the shell fragment mounting panel correspond reciprocal roof pressure detection inslot clamping through the driving piece, accomplishes the detection.

Description

Probe detection device

Technical Field

The utility model relates to a probe detection device.

Background

The probe body is very little, and the diameter only has 0.2mm, and the way of traditional test probe life-span is artifical the detection, and the manual work is placed the probe part under the microscope, adopts hard thing extrusion probe 500 times, and whether observation probe can normally reset, and this method is inefficient, and manual operation intensity is big, and the power of exerting at every turn is unbalanced, causes the harm to the probe easily, and artifical false retrieval still probably causes the defective products to flow.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a probe detection device, it can drive the probe that a plurality of shell fragments on the shell fragment mounting panel correspond reciprocal roof pressure and detect inslot clamping through the driving piece, accomplishes the detection.

The purpose of the utility model is realized by adopting the following technical scheme:

a probe detection device comprises a probe, a probe holder,

the detection seat is provided with a plurality of detection grooves which are distributed at intervals in a detection direction; each detection groove is used for clamping a probe, and a part to be detected of the probe extends out of the end part of the detection groove;

the compression joint assembly comprises a plurality of pressing blocks, and the pressing blocks and the detection grooves are arranged in a one-to-one correspondence manner; each pressing block is detachably arranged in each detection groove so as to be in pressure joint with the probe;

the detection assembly comprises a driving piece, an elastic piece mounting plate and a plurality of elastic pieces, and the elastic pieces are mounted on the elastic piece mounting plate; the elastic sheet mounting plate is arranged on the detection seat and moves along the detection direction under the driving of the driving piece, so that each elastic sheet correspondingly presses the part to be detected of each probe one by one.

Further, the crimping assembly further comprises a pressure plate extending along the detection direction; a plurality of positioning holes are formed in the pressing plate; the detection seat is provided with a plurality of positioning pins, and the positioning pins are correspondingly connected to the positioning holes in a penetrating manner one by one so that the pressing plate is pressed on the pressing blocks.

Furthermore, a first mounting hole is formed in the pressing block, a second mounting hole is formed in the detection groove, a connecting piece penetrates through the first mounting hole, and the first connecting piece is connected into the second mounting hole.

Further, the first connecting piece is a bolt.

Furthermore, a plurality of mounting grooves are formed in the elastic sheet mounting plate, a connecting block is detachably mounted in each mounting groove, and the end part of each connecting block extends out of each mounting groove; the elastic piece is arranged at the end part of the connecting block extending out of the mounting groove.

Further, be equipped with the bar hole on the connecting block, the downthehole second connecting piece that has worn of bar, the second connecting piece connect in the diapire of mounting groove.

Further, the second connecting piece is a bolt.

Furthermore, the driving part comprises a motor, a screw rod, a nut, a guide assembly and a driving plate, the motor is mounted at the bottom end of the detection seat, the screw rod is connected with a rotating shaft of the motor, and the nut is sleeved outside the screw rod in a threaded manner and moves along the screw rod under the guide of the guide assembly; the nut is connected with the driving plate, and the driving plate is connected with the elastic sheet mounting plate through a connecting arm.

Further, the guide assembly comprises a slide rail and a slide block, and the slide rail extends along the detection direction; the sliding block is connected with the driving plate and is in sliding fit with the sliding rail.

Furthermore, a protective cover is arranged on the top end cover of the detection seat.

Compared with the prior art, the beneficial effects of the utility model reside in that: it is detecting time measuring, can be simultaneously at a plurality of briquettings with a plurality of probe clamping to the detection inslot that corresponds, the tip of each probe can be stretched out by the tip that detects the groove, and correspond the setting with the shell fragment on the shell fragment mounting panel, afterwards, the shell fragment mounting panel is along detection direction reciprocating motion under the drive of driving piece, each shell fragment alright roof pressure is by the part to be measured of the probe that detects the groove and stretch out many times, detection efficiency is improved, guarantee test strength through the driving piece simultaneously, still reducible human factor causes the false retrieval, the harm.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic view of a partial structure of the present invention;

fig. 3 is a schematic structural view of the driving member of the present invention.

In the figure: 10. a detection seat; 11. detecting a groove; 12. positioning pins; 21. pressing a plate; 211. positioning holes; 22. briquetting; 221. a first connecting member; 31. the elastic sheet mounting plate; 32. connecting blocks; 321. a second connecting member; 33. a spring plate; 35. a motor; 36. a screw rod; 37. a nut; 38. A drive plate; 391. a slider; 392. a slide rail; 40. and (3) a probe.

Detailed Description

The invention will be further described with reference to the following drawings and detailed description:

as shown in fig. 1, 2 and 3, the probe detecting apparatus includes a detecting base 10, a pressing component and a detecting component, wherein a plurality of detecting grooves 11 are formed on the detecting base 10, and the detecting grooves 11 may be distributed at intervals in a detecting direction, which is a length direction of the detecting base 10 in this embodiment.

Particularly, each detection groove 11 is used for clamping the probe 40, and after the probe 40 is clamped in the detection groove 11, the part to be detected of the probe 40 can extend out of the end part of the detection groove 11. The crimping component comprises a plurality of pressing blocks 22, the pressing blocks 22 can be detachably assembled with the detection grooves 11 in a one-to-one correspondence mode, after the probes 40 are assembled in the detection grooves 11, the pressing blocks 22 can be assembled with the detection grooves 11, the pressing blocks 22 can be crimped on the probes 40 of the detection grooves 11, and the probes 40 are kept in a compression state.

In addition, the detecting assembly includes a driving member, a spring plate mounting plate 31 and a plurality of spring plates 33, the plurality of spring plates 33 are mounted on the spring plate mounting plate 31, the spring plate mounting plate 31 is mounted on the detecting base 10, and the spring plate mounting plate 31 can move along the detecting direction under the driving of the driving member, so that the spring plates 33 correspondingly press the to-be-detected portions of the probes 40 one by one.

On the basis of the structure, use the utility model discloses a during probe detection device, can place a plurality of probes 40 one-to-one in detecting groove 11 earlier, probe 40 wait to detect the part and can stretch out by the detection groove 11 tip that corresponds, afterwards, assemble briquetting 22 in the detection groove 11 that corresponds again respectively, be connected with detecting groove 11 through briquetting 22, make briquetting 22 compress tightly on detecting groove 11's probe 40, probe 40 alright fasten in detecting groove 11, and each probe 40's tip can be stretched out by the tip that detects groove 11, and correspond the setting with shell fragment 33 on the shell fragment mounting panel 31.

When detecting, shell fragment mounting panel 31 is along detection direction reciprocating motion under the drive of driving piece, because the probe 40 part that each tip that detects groove 11 stretches out can correspond with each shell fragment 33, in the motion process of shell fragment mounting panel 31, each shell fragment 33 alright roof pressure many times by the part of awaiting measuring of the probe 40 that detects groove 11 stretches out, improve detection efficiency, guarantee test intensity through the driving piece simultaneously, still reducible human factor causes false retrieval, harm.

It should be noted that, because the probes 40 are pressed by the pressing blocks 22 in the process that the elastic sheet 33 presses the probes 40 in a reciprocating manner, the elastic sheet 33 presses the probes 40 for multiple times, the positions of the probes 40 are not changed, the probes 40 are pressed by the elastic sheet 33 for no less than 500 times, and whether the probes 40 can be reset normally or not is observed, so that the detection can be realized.

Of course, after the probe 40 is detected, each of the pressing blocks 22 may be detached from the detection tank 11, and the probe 40 may be taken out.

Further, the crimping assembly further comprises a pressing plate 21, the pressing plate 21 extends along the detection direction, a plurality of positioning holes 211 are formed in the pressing plate 21, then a plurality of positioning pins 12 are arranged on the detection base 10, and the positioning pins 12 penetrate through the positioning holes 211 in a one-to-one correspondence manner, so that the pressing plate 21 is crimped on the pressing blocks 22.

Like this, after each briquetting 22 compresses tightly on each probe 40 that corresponds and detects groove 11, can the locating hole 211 of clamp plate 21 cooperate with a plurality of locating pins 12 on detecting the seat 10, with the further clamping of clamp plate 21 in the top of each briquetting 22, is exerting an even pressure to the top of each briquetting 22 for each probe 40 presss from both sides the structure more stably in the testing process.

Further, in order to facilitate the disassembly and assembly of the pressing block 22 and the detection groove 11, a first mounting hole may be formed in the pressing block 22, a second mounting hole is formed in the detection groove 11 correspondingly, a connecting member is connected in the first mounting hole in a penetrating manner, and the first connecting member 221 is connected in the second mounting hole.

In this embodiment, the first connecting member 221 is a bolt, the corresponding first mounting hole and the corresponding second mounting hole can be selected as threaded holes in the prior art, the bolt is matched with the threaded holes to be disassembled and assembled, and the bolt and the threaded holes are screwed in or out, so that the pressure of the pressing block 22 on the probe 40 can be adjusted, and the adjustment is convenient according to actual needs.

Further, can also be equipped with a plurality of mounting grooves on shell fragment mounting panel 31, connecting block 32 is all installed with the detachable mode in above-mentioned each mounting groove, and the tip of connecting block 32 stretches out in the mounting groove, and above-mentioned shell fragment 33 can be installed in the tip that connecting block 32 stretches out in the mounting groove, so, can correspond the mounting groove of assembly on shell fragment mounting panel 31 with shell fragment 33 through connecting block 32 in, realize shell fragment 33's location installation, shell fragment 33's mounting structure is stable.

More specifically, for the installation of convenient connecting block 32 and mounting groove, can also be equipped with the bar hole on connecting block 32, and the downthehole wearing of bar has connect second connecting piece 321, and second connecting piece 321 connects in the diapire of mounting groove, because the bar hole has great adjustment range for ordinary round hole, therefore when second connecting piece 321 wears to assemble, second connecting piece 321 need not to aim at the round hole and inserts the assembly, and the cartridge is easier.

Further, second connecting piece 321 is the bolt, and the afterbody of bolt can be after passing the bar hole spiro union to the diapire of mounting groove, and the dismouting is more convenient.

Of course, in this embodiment, the first connecting element 221 and the second connecting element 321 may also be implemented by using a connecting structure such as a pin, an elastic pin, or a rivet in the prior art.

Further, the driving member comprises a motor 35, a lead screw 36, a nut 37, a guiding assembly and a driving plate 38, the motor 35 is mounted at the bottom end of the detection base 10, the lead screw 36 is connected with a rotating shaft of the motor 35, the nut 37 is sleeved outside the lead screw 36 in a threaded manner, and the nut 37 can move along the lead screw 36 under the guidance of the guiding assembly in the rotating process of the lead screw 36. The nut 37 is connected to the drive plate 38, and the drive plate 38 is connected to the spring mounting plate 31 through a connecting arm.

So, when realizing the reciprocating motion of shell fragment mounting panel 31, can drive lead screw 36 through motor 35 and rotate, lead screw 36 rotates and drives nut 37 and rotate, the rotary motion of nut 37 converts the linear motion along lead screw 36 axis under the guide of direction subassembly, therefore nut 37 can drive the drive plate 38 of being connected with it and move along the direction of detection, and then drive the shell fragment mounting panel 31 motion of being connected with drive plate 38, adopt the helicitic texture to realize the transmission, the drive stroke precision is higher, be convenient for control shell fragment mounting panel 31 at the reciprocating motion in-process top pressure of the motion stroke of shell fragment 33 to probe 40.

More specifically, the guiding assembly includes a sliding rail 392 and a sliding block 391, the sliding rail 392 extends along the detecting direction; the sliding block 391 is connected with the driving plate 38 and is in sliding fit with the sliding rail 392, that is, in the rotation process of the nut 37, since the driving plate 38 connected with the nut 37 is provided with the sliding block 391, the sliding block 391 is in sliding fit with the sliding rail 392, so that the rotation motion of the nut 37 can be converted into the linear motion along the extending direction of the sliding rail 392, and the driving structure is stable.

It should be noted that the driving element may also be implemented by using other linear motion output mechanisms such as an air cylinder and an electric sliding table in the prior art.

Furthermore, the top end of the detection seat 10 is covered with a protection cover, when the probe 40, the pressing block 22 and other structures are assembled in the detection groove 11 and start to perform detection, the protection cover can be covered on the top end of the detection seat 10, so that interference of external environment to the internal detection process in the detection process is prevented, and the detection process is more stable.

Various other modifications and changes can be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims.

Claims (10)

1. A probe detection device is characterized by comprising,

the detection seat is provided with a plurality of detection grooves which are distributed at intervals in a detection direction; each detection groove is used for clamping a probe, and a part to be detected of the probe extends out of the end part of the detection groove;

the compression joint assembly comprises a plurality of pressing blocks, and the pressing blocks and the detection grooves are arranged in a one-to-one correspondence manner; each pressing block is detachably arranged in each detection groove so as to be in pressure joint with the probe;

the detection assembly comprises a driving part, an elastic sheet mounting plate and a plurality of elastic sheets, and the elastic sheet mounting plate is mounted on the detection seat and driven by the driving part to move along the detection direction; the elastic sheets are arranged on the elastic sheet mounting plate and distributed at the end parts of the detection grooves in a one-to-one correspondence manner; each spring plate is used for correspondingly jacking the part to be detected of each probe one by one when the spring plate mounting plate moves along the detection direction.

2. The probe inspection device of claim 1, wherein the crimping assembly further comprises a pressure plate extending along the inspection direction; a plurality of positioning holes are formed in the pressing plate; the detection seat is provided with a plurality of positioning pins, and the positioning pins are correspondingly connected to the positioning holes in a penetrating manner one by one, so that the pressing plate is pressed on the pressing blocks in a pressing manner.

3. The apparatus according to claim 2, wherein the pressing block has a first mounting hole, the detection slot has a second mounting hole, and the first mounting hole has a first connecting member passing therethrough and connected to the second mounting hole.

4. The probe test device of claim 3, wherein the first connector is a bolt.

5. The probe detection device according to claim 1, wherein the spring plate mounting plate is provided with a plurality of mounting grooves, each mounting groove is detachably provided with a connecting block, and an end of the connecting block extends out of the mounting groove; the elastic piece is arranged at the end part of the connecting block extending out of the mounting groove.

6. The probe detection device according to claim 5, wherein a bar-shaped hole is formed in the connecting block, a second connecting piece penetrates through the bar-shaped hole, and the second connecting piece is connected to the bottom wall of the mounting groove.

7. The probe test device of claim 6, wherein the second connector is a bolt.

8. The probe detection device according to any one of claims 1 to 7, wherein the driving member comprises a motor, a lead screw, a nut, a guiding assembly and a driving plate, the motor is mounted at the bottom end of the detection base, the lead screw is connected with a rotating shaft of the motor, the nut is sleeved outside the lead screw in a threaded manner and moves along the lead screw under the guidance of the guiding assembly; the nut is connected with the drive plate, and the drive plate is connected with the elastic sheet mounting plate through a connecting arm.

9. The probe inspection apparatus of claim 8, wherein the guide assembly comprises a slide rail and a slider, the slide rail extending along the inspection direction; the sliding block is connected with the driving plate and is in sliding fit with the sliding rail.

10. The probe card apparatus according to any of claims 1 to 7, wherein the top end cover of the test socket is provided with a protective cover.

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