CN210607867U

CN210607867U - Automatic AC head and DC head removing equipment

Info

Publication number: CN210607867U
Application number: CN201921486051.4U
Authority: CN
Inventors: 胡安; 邵继铭; 翟保利
Original assignee: Dongguan Guanjia Electronic Equipment Co Ltd
Current assignee: Guanjia Technology Co ltd
Priority date: 2019-09-06
Filing date: 2019-09-06
Publication date: 2020-05-22
Anticipated expiration: 2029-09-06

Abstract

The utility model relates to an automatic joint disengaging technical field, concretely relates to automatic AC head and DC head disengaging equipment, including a conveying device, a test fixture transmitted to the conveying device, AC joints and DC joints are respectively inserted on two sides of the test fixture, AC device disengaging and DC device disengaging are respectively arranged on two sides of the conveying device corresponding to the AC joints and the DC joints, respectively, the conveying device is arranged between the AC device disengaging and the DC device disengaging and is provided with a jacking device for jacking and positioning the test fixture; the utility model provides a current problem that the degree of difficulty is high is extracted to power product test back connector, adopted automatic transport, carry out automatic extraction after the location and take off the lower clutch, degree of automation is high, the material resources of using manpower sparingly, work efficiency is high.

Description

Automatic AC head and DC head removing equipment

Technical Field

The utility model relates to an automatic take off first technical field, especially relate to an automatic take off first and DC head equipment of AC.

Background

Automation technology is widely used in industry, agriculture, military, scientific research, transportation, commerce, medical treatment, services, and home. The automatic technology can not only liberate people from heavy physical labor, partial mental labor and severe and dangerous working environments, but also expand the functions of human organs, greatly improve the labor productivity and enhance the ability of human to know the world and transform the world. Large plants in automation systems are also referred to as automation devices. Refers to a process in which a machine or apparatus automatically operates or controls according to a prescribed program or instruction without human intervention.

After the automatic assembly is accomplished to the PC power, need insert various joints and send into test equipment on and test, and need extract the plug on the power after accomplishing the test, prior art generally extracts the plug through the manual work, and the degree of difficulty of extracting the plug through the manual work is very high, and extremely consuming time is hard, consequently need extract to make automatic improvement to the plug to improve production efficiency.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a solve and to have now to connect after the power product test and extract the high problem of the degree of difficulty, adopted automatic transport, fix a position after carry out automatic extraction and take off the lower clutch, degree of automation is high, the material resources of using manpower sparingly, AC head and DC head equipment are taken off in the automation that work efficiency is high.

The utility model adopts the technical proposal that: the utility model provides an automatic take off AC head and DC head equipment, includes conveyor, transmits in conveyor's test fixture, the test fixture both sides are inserted respectively and are equipped with AC joint and DC and connect, the conveyor both sides correspond AC joint and DC respectively and connect and be provided with respectively and take off the AC device and take off the DC device, conveyor is located take off the AC device and take off and be provided with the jacking device that is used for with test fixture jacking location between the DC device.

The further improvement of the scheme is that the conveying device comprises two groups of conveying supports which are correspondingly arranged, a transmission shaft arranged on the conveying supports, a conveying chain which is connected with the transmission shaft and used for driving the test fixture to transmit, and a conveying motor which is arranged on the conveying supports and used for driving the transmission shaft.

The AC removing device comprises a longitudinal transmission module, a lifting transmission module, a transverse transmission module and a connecting support, wherein the lifting transmission module is arranged on the longitudinal transmission module in a transmission mode, the transverse transmission module is arranged on the lifting transmission module in a transmission mode, the connecting support is arranged on the transverse transmission module, and a plurality of groups of AC extracting modules used for extracting AC connectors are arranged on the connecting support.

The further improvement of the scheme is that the longitudinal transmission module, the lifting transmission module and the transverse transmission module are all arranged in a linear transmission module.

The AC extraction module comprises a base, a front propelling cylinder, a rear propelling cylinder, a clamping cylinder and a clamping plate, wherein the front propelling cylinder and the rear propelling cylinder are mounted on the base, the clamping cylinder is in transmission connection with the front propelling cylinder and the rear propelling cylinder, the clamping plate is in driving connection with the clamping cylinder, and the base is provided with a baffle corresponding to the clamping plate.

The DC removing device comprises a support frame, a pulling-out driving module arranged on the support frame, a tightness driving module arranged on the pulling-out driving module, and a plurality of groups of DC pulling-out modules arranged on the tightness driving module.

The further improvement of the scheme is that the pulling-out driving module and the tightness driving module are both arranged by combining a cylinder with a linear guide rail driving structure.

The DC pulling module comprises a transverse guide rail, a fine adjustment connecting block, a lifting guide rail and a clamping plate, wherein the transverse guide rail is arranged on the fine adjustment connecting block; the clamping plate is connected with a correcting block.

The further improvement of the scheme is that the jacking device comprises a bottom plate, a jacking cylinder arranged on the top plate and a positioning supporting plate connected with the jacking cylinder in a driving mode, the positioning supporting plate is connected with a plurality of guide shafts in a lifting transmission mode and arranged on the bottom plate, and a plurality of positioning pins used for positioning the test fixture are arranged on the positioning supporting plate.

The utility model has the advantages that:

set up conveyor and be used for carrying test fixture, test the product through test fixture, and the product of test is connected through AC joint and DC articulate in the testing process, after accomplishing the test, carry out the jacking through the test fixture of jacking device in with the conveying process, fix a position simultaneously at the jacking, after accomplishing the location, extract the operation through AC joint and DC joint that take off that the AC device and the DC device that take off that set up in both sides are connected on to test fixture, after accomplishing to extract so that follow-up product unloading, overall structure adopts automatic work, and is stable in structure and reliable, and degree of automation is high, and manpower and materials are saved.

The utility model discloses in, solved current problem that the degree of difficulty is high to power product test rear connector extraction, adopted automatic transport, fix a position after carry out automatic extraction take off the lower clutch, degree of automation is high, the material resources of using manpower sparingly, work efficiency is high.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of another perspective of the present invention;

FIG. 3 is a schematic view of the three-dimensional structure of the AC removing device of the present invention;

fig. 4 is a schematic perspective view of the AC removing device according to another view angle of the present invention;

FIG. 5 is a schematic view of the three-dimensional structure of the DC remover according to the present invention;

fig. 6 is a schematic perspective view of another view angle of the DC device according to the present invention.

Description of reference numerals: the device comprises a conveying device 100, a conveying support 110, a transmission shaft 120, a conveying chain 130, a conveying motor 140, a test fixture 200, an AC joint 210, a DC joint 220, an AC removing device 300, a longitudinal transmission module 310, a lifting transmission module 320, a transverse transmission module 330, a connecting support 340, an AC extracting module 350, a base 351, a front and rear pushing cylinder 352, a clamping cylinder 353, a clamping plate 354, a baffle 355, a DC removing device 400, a supporting frame 410, an extracting driving module 420, a tightness driving module 430, a DC extracting module 440, a transverse guide rail 441, a fine adjustment connecting block 442, a lifting guide rail 443, a clamping plate 444, a limiting shaft 445, a fixing block 446, a correcting block 447, a lifting device 500, a bottom plate 510, a lifting cylinder 520, a positioning support plate 530, a guide shaft 540 and a positioning pin 550.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 2, an apparatus for automatically removing an AC head and a DC head includes a conveying device 100 and a testing fixture 200 transmitted to the conveying device 100, an AC connector 210 and a DC connector 220 are respectively inserted into two sides of the testing fixture 200, an AC removing device 300 and a DC removing device 400 are respectively arranged on two sides of the conveying device 100 corresponding to the AC connector 210 and the DC connector 220, respectively, and a jacking device 500 for jacking and positioning the testing fixture 200 is arranged between the AC removing device 300 and the DC removing device 400 of the conveying device 100.

The conveying device 100 comprises two groups of conveying supports 110 which are correspondingly arranged, a transmission shaft 120 which is installed on the conveying supports 110, a conveying chain 130 which is connected with the transmission shaft 120 and used for driving the test fixture 200 to be driven, and a conveying motor 140 which is installed on the conveying supports 110 and used for driving the transmission shaft 120, specifically, the conveying chain 130 is driven by the transmission shaft 120 driven by the conveying motor 140 to be driven, the conveying chain 130 drives the test fixture 200 to be driven when being driven on the conveying supports 110, the automation degree is high, and the stability is good.

As shown in fig. 3 to 4, the AC removing device 300 includes a longitudinal transmission module 310, a lifting transmission module 320 installed in the longitudinal transmission module 310 in a transmission manner, a transverse transmission module 330 installed in the lifting transmission module 320 in a transmission manner, and a connecting bracket 340 installed in the transverse transmission module 330, wherein a plurality of sets of AC extracting modules 350 for extracting the AC connector 210 are installed on the connecting bracket 340, specifically, XYZ triaxial transmission is formed by the longitudinal transmission module 310, the lifting transmission module 320, and the transverse transmission module 330, so that new transmission can be performed in a wider range, the connecting bracket 340 is driven, and the AC extracting modules 350 are driven to extract the AC connector 210, so that the automation degree is high, and the reliability is high.

The longitudinal transmission module 310, the lifting transmission module 320 and the transverse transmission module 330 are all arranged in a linear transmission module, a linear module structure is adopted, specifically, linear transmission is realized by combining a motor drive screw with a linear guide rail, and the whole structure is high in transmission precision and strong in stability.

The AC extraction module 350 comprises a base 351, a front propulsion cylinder 352 and a rear propulsion cylinder 352 which are installed on the base 351, a clamping cylinder 353 which is in transmission connection with the front propulsion cylinder 352 and a clamping plate 354 which is in driving connection with the clamping cylinder 353, wherein the base 351 is provided with a baffle 355 corresponding to the clamping plate 354, the base 351 plays a role in connection and installation, is used for power driving when the front propulsion cylinder 352 and the rear propulsion cylinder 352 are arranged for extraction, plays a role in clamping and extraction of the AC connector 210 by driving the clamping plate 354 through the clamping cylinder 353, and plays a role in clamping and limiting, so that the AC connector 210 can be placed at a designated position after the AC connector is extracted, and the practicability is high.

As shown in fig. 5 to 6, the DC removing device 400 includes a support frame 410, a pulling-out driving module 420 installed on the support frame 410, a tension driving module 430 installed on the pulling-out driving module 420, and a plurality of groups of DC pulling-out modules 440 installed on the tension driving module 430, and particularly, the support frame 410 plays a supporting and installing role, the pulling-out and lifting driving roles are respectively played through the pulling-out driving module 420 and the tension driving module 430, the pulling-out and tension driving roles make the DC pulling-out module 440 pull out the inserted DC connector 220 after clamping the DC connector 220 on the product, and the degree of automation is high.

The pulling-out driving module 420 and the loosening and tightening driving module 430 are both arranged in a structure that a cylinder is combined with a linear guide rail driving structure, specifically, the cylinder is used for linear driving, and then the guide rail is combined to realize stable transmission, so that the transmission precision is high.

The DC extraction module 440 comprises a fine adjustment connecting block 442 with a cross guide rail 441 mounted on the cross guide rail 441, a lifting guide rail 443 mounted on the fine adjustment connecting block 442, a clamping plate 444 mounted on the lifting guide rail 443, the clamping plate 444 being provided with a limiting shaft 445 connected with the fine adjustment connecting block 442, the fine adjustment connecting block 442 being further connected with a fixing block 446 through a spring; the clamping plate 444 is connected with a correction block 447, specifically, the transverse guide rail 441 and the lifting guide rail 443 play a role in guiding transmission and guiding in transverse and lifting, and the fine adjustment connecting block 442 enables the clamping plate 444 to be capable of fine adjustment, so that the connector can be pulled out by accurate alignment even in the case of slight deviation.

Jacking device 500 includes bottom plate 510, installs in the jacking cylinder 520 of roof, the location layer board 530 that links to each other with jacking cylinder 520 drive, location layer board 530 is connected a plurality of guiding axles 540 liftable transmission in bottom plate 510, location layer board 530 is installed a plurality of locating pins 550 that are used for test fixture 200 location, specifically is the erection bracing use through bottom plate 510 effect overall structure, goes up and down through jacking cylinder 520 drive location layer board 530, sets up the guiding axle 540 simultaneously and guarantees lifting transmission's stability and precision, fixes a position test fixture 200 combining locating pin 550, and positioning effect is good, and structural stability is strong.

Set up conveyor 100 and be used for carrying test fixture 200, test the product through test fixture 200, and the product of test is connected through AC joint 210 and DC joint 220 in the test process, after accomplishing the test, carry out the jacking through jacking device 500 with test fixture 200 in the transport process, fix a position simultaneously at the jacking, after accomplishing the location, through setting up taking off AC device 300 and taking off DC device 400 of both sides and extracting the operation to AC joint 210 and DC joint 220 that are connected on test fixture 200, after accomplishing to extract so that follow-up product unloading, overall structure adopts automatic operation, stable in structure is reliable, degree of automation is high, manpower and material resources are saved.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. An automatic AC head and DC head removing device is characterized in that: the test fixture comprises a conveying device and a test fixture transmitted to the conveying device, wherein an AC connector and a DC connector are respectively inserted into two sides of the test fixture, an AC removing device and a DC removing device are respectively arranged on two sides of the conveying device corresponding to the AC connector and the DC connector, and a jacking device used for jacking and positioning the test fixture is arranged between the AC removing device and the DC removing device.

2. An automatic AC head and DC head disengaging apparatus according to claim 1, wherein: the conveying device comprises two groups of conveying supports which are correspondingly arranged, a transmission shaft arranged on the conveying supports, a conveying chain which is connected with the transmission shaft and used for driving the test fixture to transmit, and a conveying motor which is arranged on the conveying supports and used for driving the transmission shaft.

3. An automatic AC head and DC head disengaging apparatus according to claim 1, wherein: the AC removing device comprises a longitudinal transmission module, a lifting transmission module, a transverse transmission module and a connecting support, wherein the lifting transmission module is arranged on the longitudinal transmission module in a transmission mode, the transverse transmission module is arranged on the lifting transmission module in a transmission mode, the connecting support is arranged on the transverse transmission module, and a plurality of groups of AC extracting modules used for extracting AC connectors are arranged on the connecting support.

4. An automatic AC head and DC head removing device according to claim 3, wherein: the longitudinal transmission module, the lifting transmission module and the transverse transmission module are all arranged in a linear transmission module.

5. An automatic AC head and DC head removing device according to claim 4, wherein: the AC extraction module comprises a base, a front propelling cylinder, a rear propelling cylinder, a clamping cylinder and a clamping plate, wherein the front propelling cylinder and the rear propelling cylinder are installed on the base, the clamping cylinder is in transmission connection with the front propelling cylinder and the rear propelling cylinder, the clamping plate is connected with the clamping cylinder in a driving mode, and the base is provided with a baffle corresponding to the clamping plate.

6. An automatic AC head and DC head disengaging apparatus according to claim 1, wherein: the DC removing device comprises a support frame, a pulling-out driving module arranged on the support frame, a tightness driving module arranged on the pulling-out driving module, and a plurality of groups of DC pulling-out modules arranged on the tightness driving module.

7. An automatic AC head and DC head disengaging apparatus as claimed in claim 6, wherein: the pulling-out driving module and the tightness driving module are both arranged by combining a cylinder with a linear guide rail driving structure.

8. An automatic AC head and DC head disengaging apparatus as claimed in claim 7, wherein: the DC pulling module comprises a fine adjustment connecting block, a lifting guide rail and a clamping plate, wherein the transverse guide rail is arranged on the transverse guide rail; the clamping plate is connected with a correcting block.

9. An automatic AC head and DC head disengaging apparatus according to claim 1, wherein: the jacking device comprises a bottom plate, a jacking cylinder and a positioning supporting plate, wherein the jacking cylinder is arranged on the top plate, the positioning supporting plate is connected with the jacking cylinder in a driving mode, the positioning supporting plate is connected with a plurality of guide shafts in a lifting transmission mode and is arranged on the bottom plate, and a plurality of positioning pins used for positioning the test fixture are arranged on the positioning supporting plate.