CN216160686U

CN216160686U - Data line joint detects smart location carrier

Info

Publication number: CN216160686U
Application number: CN202121879567.2U
Authority: CN
Inventors: 王族明
Original assignee: Kunshan Xuanshi Precision Machinery Co ltd
Current assignee: Kunshan Xuanshi Precision Machinery Co ltd
Priority date: 2021-08-12
Filing date: 2021-08-12
Publication date: 2022-04-01
Anticipated expiration: 2031-08-12

Abstract

The utility model relates to a data line joint detection fine positioning carrier, which comprises: the positioning device comprises a positioning base, a positioning device and a positioning device, wherein the upper surface of the positioning base is provided with a plurality of positioning ports, and one side of each positioning port is provided with a movable port; the positioning abutting component is connected to the positioning base in a sliding mode and used for abutting the joint to be detected in the positioning opening through elastic force; and the movable abutting-pushing assembly is connected with an external driving device and is used for pushing each positioning abutting-pressing assembly to synchronously move so as to be separated from the joint to be tested. When the connector to be detected is placed in the positioning port, the external driving device drives the movable abutting-pushing assembly to reset and separate from the positioning abutting-pressing assembly, the positioning abutting-pressing assembly slides inwards under the action of elastic force, the connector to be detected is clamped, and therefore the connector to be detected is accurately positioned at the corresponding position of the positioning port, and detection accuracy is improved.

Description

Data line joint detects smart location carrier

Technical Field

The utility model relates to the technical field of automatic detection, in particular to a data line joint detection fine positioning carrier.

Background

In order to ensure the stability of data line connection, the joint part of the data line needs to be detected firstly when the data line is processed, and then the processing processes such as injection molding and packaging are carried out after the detection is qualified. When the detection is carried out, the data line connectors are arranged on the material tray, the material tray is manually placed at the feeding station one by one, then the corresponding mechanical arm or the corresponding sucker is used for picking and placing the material tray to the detection mechanism for detection, the chip detection part of the data line connector is accurate, accurate positioning needs to be carried out when the detection mechanism is placed, and the existing detection equipment is prone to causing the situation that the connector is shifted and cannot be accurately detected due to insufficient positioning accuracy.

SUMMERY OF THE UTILITY MODEL

In order to solve the above technical problems, the present invention provides a data line connector detection fine positioning carrier, which has the advantages of being capable of accurately positioning a connector and improving detection precision.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

a data line joint detects smart positioning carrier includes:

the positioning device comprises a positioning base, a positioning device and a positioning device, wherein the upper surface of the positioning base is provided with a plurality of positioning ports for accommodating joints to be detected, and one side of each positioning port is provided with a movable port;

the positioning abutting components are connected to the positioning base in a sliding mode, correspond to the positioning openings one by one and are used for abutting the joint to be detected in the positioning openings tightly through elastic force; and the number of the first and second groups,

the movable abutting and pushing assembly is connected with the positioning base in a sliding mode, matched with each positioning abutting and pushing assembly and used for pushing each positioning abutting and pushing assembly to move synchronously so as to be separated from the joint to be tested, and the movable abutting and pushing assembly is connected with an external driving device.

The technical scheme is realized, during the use, install this location carrier in check out test set, and with the activity support push away the subassembly and be connected with external drive arrangement, when not examining, external drive arrangement promotes the activity and supports and pushes away the subassembly and keep the state that breaks away from with the joint that awaits measuring, the locating hole is in the state of opening completely this moment, the joint that awaits measuring can relax places in the locating hole, after the joint that awaits measuring is placed in the locating hole, external drive arrangement drive activity supports and pushes away the subassembly and resets and break away from the location and support the pressure subassembly, the location supports and supports the pressure subassembly and inwards slides under the effect of elastic force, will await measuring the joint clamp tightly, thereby make the accurate positioning of joint that awaits measuring in the relevant position of locating hole, so that check out test set detects, improve and detect the precision.

As a preferable aspect of the present invention, the positioning and pressing member includes: the movable mounting device comprises a movable mounting block, a pressing claw and an elastic pressing part, wherein the movable mounting block is slidably connected with the positioning base, the pressing claw is fixed on the movable mounting block and penetrates through the movable opening, one end of the elastic pressing part is connected with the positioning base, the other end of the elastic pressing part is connected with the movable mounting block, a first pressing inclined plane is arranged at one side corner of the movable mounting block, when the movable pressing part applies force to the first pressing inclined plane, the pressing claw slides away from the positioning opening, and when the movable pressing part is separated from the first pressing inclined plane, the elastic pressing part presses the movable mounting block to move so that the pressing claw clamps a to-be-tested connector.

As a preferable aspect of the present invention, the movable pushing assembly includes: the movable push rod, a plurality of movable caulking openings and the driving connecting rod are slidably assembled on the movable push rod of the positioning base, the movable caulking openings are arranged on the movable push rod and correspond to the movable mounting blocks one by one, the driving connecting rod is connected to the movable push rod and extends out of the positioning base, the positioning base is used for being connected with an external driving device, and a second abutting-pushing inclined plane matched with the first abutting-pushing inclined plane is arranged on one side of each movable caulking opening.

The external driving device drives the movable push rod to move through the driving connecting rod, and in the moving process, the first abutting inclined surface is matched with the second abutting inclined surface to synchronously push each movable mounting block to move backwards, so that the abutting claw slides towards one side far away from the positioning opening, the positioning opening is completely opened, and the joint to be tested is convenient to place; after the joint to be measured is placed into the positioning port, the external driving device drives the movable push rod to reset and separate from the movable mounting block, at the moment, the movable mounting seat slides inwards under the action of elastic force of the elastic abutting part until the movable mounting seat is embedded into the movable embedding port, and the abutting claw abuts against the joint to be measured tightly, so that the accurate positioning of the joint to be measured is realized.

As a preferable scheme of the utility model, a limiting convex claw is arranged on one side of the pressing claw facing the positioning opening, and the distance between the lower surface of the limiting convex claw and the bottom wall of the positioning opening is matched with the thickness of the joint to be measured.

According to the technical scheme, the limiting convex claw can limit the vertical movement of the joint to be detected, and the detection precision is further improved.

As a preferable aspect of the present invention, an upper side edge of the pressing claw is provided with a chamfer.

The technical scheme is realized, and the pressing claw is convenient to mount.

As a preferable scheme of the present invention, a chamfer is provided at an upper edge of the positioning opening.

By the technical scheme, the joint to be tested can be conveniently placed into the positioning port.

In conclusion, the utility model has the following beneficial effects:

the embodiment of the utility model provides a data line joint detection fine positioning carrier, which comprises: the positioning device comprises a positioning base, a positioning device and a positioning device, wherein the upper surface of the positioning base is provided with a plurality of positioning ports for accommodating joints to be detected, and one side of each positioning port is provided with a movable port; the positioning abutting components are connected to the positioning base in a sliding mode, correspond to the positioning openings one by one and are used for abutting the joint to be detected in the positioning openings tightly through elastic force; and the movable abutting-pushing assembly is connected with an external driving device and is slidably connected with the positioning base, matched with each positioning abutting-pressing assembly and used for pushing each positioning abutting-pressing assembly to synchronously move so as to be separated from the joint to be tested. During the use, install this location carrier in check out test set, and push away the subassembly with the activity and be connected with external drive device, when not examining, external drive device promotes the activity and supports and push away the subassembly and keep the state that breaks away from with the joint that awaits measuring, the position mouth is in the state of opening completely this moment, the joint that awaits measuring can relax places in the position mouth, after the joint that awaits measuring is placed in the position mouth, external drive device drive activity supports and pushes away the subassembly and resets and break away from the location and support the pressure subassembly, the location supports and supports the pressure subassembly and inwards slides under the effect of elastic force, will await measuring the joint clamp tightly, thereby make the joint that awaits measuring pinpoint the relevant position at the position mouth, so that check out test set detects, improve and detect the precision.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is an exploded view of an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a positioning and pressing assembly according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a movable pushing assembly according to an embodiment of the present invention.

The corresponding part names indicated by the numbers and letters in the drawings:

1. a positioning base; 11. positioning the opening; 12. a movable opening; 2. positioning the abutting component; 21. a movable mounting block; 22. pressing the claw; 23. an elastic pressing member; 24. a first pushing inclined plane; 25. a limiting convex claw; 3. a movable pushing component; 31. a movable push rod; 32. a movable rabbet; 33. a drive link; 34. the second pushing inclined plane.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

A data line connector detection fine positioning carrier, as shown in fig. 1 to 4, comprising: the connector testing fixture comprises a positioning base 1, wherein the upper surface of the positioning base 1 is provided with a plurality of positioning ports 11 for accommodating connectors to be tested, and one side of each positioning port 11 is provided with a movable port 12; the positioning abutting components 2 are connected to the positioning base 1 in a sliding mode, correspond to the positioning openings 11 one by one and are used for abutting the joint to be detected in the positioning openings 11 tightly through elastic force; and the movable abutting-pushing component 3 is connected with the positioning base 1 in a sliding manner, is matched with each positioning abutting-pressing component 2 and is used for pushing each positioning abutting-pressing component 2 to synchronously move so as to be separated from the joint to be tested, and the movable abutting-pushing component 3 is connected with an external driving device.

Specifically, the department of going up along of location mouth 11 is equipped with the chamfer to in putting into location mouth 11 with the joint that awaits measuring, the location supports presses subassembly 2 to include: the device comprises a movable mounting block 21 connected to the positioning base 1 in a sliding manner, a pressing claw 22 fixed to the movable mounting block 21 and penetrating through the movable opening 12, and an elastic pressing part 23 with one end connected to the positioning base 1 and the other end connected to the movable mounting block 21, wherein a first pressing inclined surface 24 is arranged at an angle of one side edge of the movable mounting block 21, when the movable pressing component 3 applies force to the first pressing inclined surface 24, the pressing claw 22 slides away from the positioning opening 11, when the movable pressing component 3 is separated from the first pressing inclined surface 24, the elastic pressing part 23 presses the movable mounting block 21 to move so that the pressing claw 22 clamps a to-be-tested connector, the elastic pressing part 23 is a spring, and a chamfer is arranged on the upper side edge of the pressing claw 22 so as to facilitate the mounting of the pressing claw 22.

The movable pushing component 3 comprises: the positioning device comprises a movable push rod 31 assembled on the positioning base 1 in a sliding manner, a plurality of movable embedding openings 32 arranged on the movable push rod 31 and corresponding to the movable mounting blocks 21 one by one, and a driving connecting rod 33 connected to the movable push rod 31 and extending out of the positioning base 1 for being connected with an external driving device, wherein one side of each movable embedding opening 32 is provided with a second abutting-pushing inclined surface 34 matched with the first abutting-pushing inclined surface 24.

The external driving device can be a cylinder, an electric cylinder and the like, the external driving device drives the movable push rod 31 to move through the driving connecting rod 33, and in the moving process, the movable mounting blocks 21 are synchronously pushed to move backwards through the matching of the first abutting-pushing inclined surface 24 and the second abutting-pushing inclined surface 34, so that the abutting-pressing claw 22 slides towards one side far away from the positioning opening 11, the positioning opening 11 is completely opened, and the to-be-detected connector is convenient to place; when the to-be-tested connector is placed in the positioning opening 11, the external driving device drives the movable push rod 31 to reset and separate from the movable mounting block 21, at this time, the movable mounting seat slides inwards under the action of the elastic force of the elastic pressing piece 23 to be embedded in the movable embedding opening 32, and the pressing claw 22 tightly presses the to-be-tested connector, so that the accurate positioning of the to-be-tested connector is realized.

Further, support and press claw 22 to be equipped with spacing convex claw 25 towards one side of location mouth 11, the distance between the lower surface of spacing convex claw 25 and the 11 diapalls of location mouth is adapted with the thickness of the joint that awaits measuring, can restrict the joint that awaits measuring through spacing convex claw 25 and move about from top to bottom, further improves and detects the precision.

When the positioning carrier is used, the positioning carrier is installed in detection equipment, the movable abutting-pushing component 3 is connected with an external driving device, when the positioning carrier is not detected, the external driving device pushes the movable abutting-pushing component 3 to keep a state of being separated from a to-be-detected connector, the positioning port 11 is in a completely opened state, the to-be-detected connector can be easily placed in the positioning port 11, after the to-be-detected connector is placed in the positioning port 11, the external driving device drives the movable abutting-pushing component 3 to reset and separate from the positioning abutting-pressing component 2, the positioning abutting-pressing component 2 slides inwards under the action of elastic force, the to-be-detected connector is clamped, and the to-be-detected connector is accurately positioned at a corresponding position of the positioning port 11, so that the detection equipment can detect, and the detection precision is improved.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides a data line connects and detects smart location carrier which characterized in that includes:

2. The data line joint detection fine positioning carrier of claim 1, wherein the positioning pressing component comprises: the movable mounting device comprises a movable mounting block, a pressing claw and an elastic pressing part, wherein the movable mounting block is slidably connected with the positioning base, the pressing claw is fixed on the movable mounting block and penetrates through the movable opening, one end of the elastic pressing part is connected with the positioning base, the other end of the elastic pressing part is connected with the movable mounting block, a first pressing inclined plane is arranged at one side corner of the movable mounting block, when the movable pressing part applies force to the first pressing inclined plane, the pressing claw slides away from the positioning opening, and when the movable pressing part is separated from the first pressing inclined plane, the elastic pressing part presses the movable mounting block to move so that the pressing claw clamps a to-be-tested connector.

3. The data line joint detection fine positioning carrier of claim 2, wherein the movable pushing assembly comprises: the movable push rod, a plurality of movable caulking openings and the driving connecting rod are slidably assembled on the movable push rod of the positioning base, the movable caulking openings are arranged on the movable push rod and correspond to the movable mounting blocks one by one, the driving connecting rod is connected to the movable push rod and extends out of the positioning base, the positioning base is used for being connected with an external driving device, and a second abutting-pushing inclined plane matched with the first abutting-pushing inclined plane is arranged on one side of each movable caulking opening.

4. The carrier of claim 2 or 3, wherein a position-limiting protrusion is disposed on a side of the pressing claw facing the position opening, and a distance between a lower surface of the position-limiting protrusion and a bottom wall of the position opening is adapted to a thickness of the joint to be tested.

5. The data line joint detection fine positioning carrier as claimed in claim 2 or 3, wherein the upper edge of the pressing claw is provided with a chamfer.

6. The carrier of claim 1, wherein a chamfer is formed at an upper edge of the positioning opening.