CN108819318B

CN108819318B - Heavy-load track butt-joint transmission backflow mechanism for mobile phone pressure maintaining

Info

Publication number: CN108819318B
Application number: CN201810548107.8A
Authority: CN
Inventors: 曾庆荣
Original assignee: Shenzhen Colibri Technologies Co ltd
Current assignee: Shenzhen Colibri Technologies Co ltd
Priority date: 2018-05-31
Filing date: 2018-05-31
Publication date: 2021-07-02
Anticipated expiration: 2038-05-31
Also published as: CN108819318A

Abstract

The invention relates to a heavy-load rail butt-joint transmission backflow mechanism for mobile phone pressure maintaining, which comprises a backflow mechanism, wherein the backflow mechanism is arranged on a square tube frame, a plurality of pressure maintaining cabinet installation sliding plates are respectively arranged on the backflow mechanism, the backflow mechanism comprises a front longitudinal stretching module, a first transverse stretching module and a second transverse stretching module are arranged in parallel in opposite directions to form a transverse stretching mechanism, the side surface of the front longitudinal stretching module is connected with the front end of the transverse stretching mechanism, the side surface of the rear longitudinal stretching module is connected with the rear end of the transverse stretching mechanism, the front longitudinal stretching module is parallel to the rear longitudinal stretching module, and the output end of a controller is respectively connected with the control end of the front longitudinal stretching module, the control end of the rear longitudinal stretching module, the control end of the first transverse stretching module and the control end of the second transverse stretching module. The cost can be effectively controlled under the condition that each mobile phone is recycled, the batch transfer of a plurality of three-plate type pressure maintaining clamps of the pressure maintaining production line is well realized, and the production efficiency is improved.

Description

Heavy-load track butt-joint transmission backflow mechanism for mobile phone pressure maintaining

Technical Field

The invention belongs to the field of mobile phone pressure maintaining, and particularly relates to a heavy-load rail butt-joint transmission backflow mechanism for mobile phone pressure maintaining.

Background

Pressure maintaining of the mobile phone is an important process in mobile phone production, the original process is completed manually, and an LCM (liquid crystal display) and a mobile phone middle frame which are assembled by a screen installing machine are manually pre-pressed for several seconds and then quickly placed into a three-plate type pressure maintaining jig to complete a pressure maintaining process for 3 hours. Put the three-plate tool of good screen and put into the pressurize cabinet module again, the pressurize cabinet of putting into moves and carries and flow out, and the next empty pressurize cabinet flows in the location, circulates 11 times in proper order, and this in-process need be equipped with a large amount of manpowers, and the efficiency of moving of pressurize cabinet also receives the interference of human factor to a great extent, therefore manual operation hardly guarantees its efficiency and location repeatability. Meanwhile, in the production process of the mobile phone, the labor cost is reduced, and the production efficiency of the product is also the first pursuit in the industry.

The self weight of the pressure maintaining cabinet is heavier, so that the transmission torque and the inertia are large, and the cost of the power transmission device is correspondingly higher. Particularly, when the pressure maintaining cabinets are automatically switched and transferred, the long-time downtime and the productivity reduction caused by speed limitation are caused; the labor force can also cause the delayed production of front-end equipment in the waiting process, and has certain influence on the UPH of the whole line.

Disclosure of Invention

The invention aims to provide a heavy-load track butt-joint transmission backflow mechanism for mobile phone pressure maintaining, which can realize full-automatic quick backflow transferring of 11 heavy-load pressure maintaining cabinet modules (1 about 150KG contains 56 three-plate pressure maintaining jigs) in a mobile phone pressure maintaining production process, is mainly used for repeated quick taking, placing and positioning of the three-plate mobile phone pressure maintaining jigs on a pressure maintaining cabinet of mobile phone pressure maintaining line equipment, solves the problem that the productivity is reduced due to low efficiency caused by repeated transferring and stacking of 616 three-plate mobile phone pressure maintaining jigs on a production line, is suitable for an automatic production line with high transferring frequency of the mobile phone pressure maintaining jigs for mobile phone pressure maintaining process of domestic mobile phone manufacturers, and avoids the technical problem of capacity reduction caused by poor positioning repeatability of the equipment in the process of transferring a plurality of mobile phone pressure maintaining jigs simultaneously.

The invention is realized in such a way, the heavy-duty track butt-joint transmission backflow mechanism for mobile phone pressure maintaining comprises a backflow mechanism, a square tube frame and a plurality of pressure maintaining cabinet installation sliding plates, the backflow mechanism is arranged on the square tube frame, the pressure maintaining cabinet installation sliding plates are respectively arranged on the backflow mechanism, the backflow mechanism comprises a front longitudinal stretching module, a rear longitudinal stretching module, a first transverse stretching module, a second transverse stretching module and a controller, the first transverse stretching module and the second transverse stretching module are arranged in parallel in opposite directions to form a transverse stretching mechanism, the side surface of the front longitudinal stretching module is connected with the front end of the transverse stretching mechanism, the side surface of the rear longitudinal stretching module is connected with the rear end of the transverse stretching mechanism, and the front longitudinal stretching module is parallel to the rear longitudinal stretching module, the output end of the controller is respectively connected with the control end of the front longitudinal stretching module, the control end of the rear longitudinal stretching module, the control end of the first transverse stretching module and the control end of the second transverse stretching module.

The further technical scheme of the invention is as follows: the front longitudinal stretching module is the same as the rear longitudinal stretching module and comprises a longitudinal butt joint moving track assembly, a short stretching in-place assembly and a short in-place stopping assembly, wherein the longitudinal butt joint moving track assembly, the short stretching in-place assembly and the short in-place stopping assembly are respectively arranged on the first bottom plate, and the short in-place stopping assembly is arranged between the longitudinal butt joint moving track assembly and the short stretching in-place assembly.

The further technical scheme of the invention is as follows: the first transverse stretching module is the same as the second transverse stretching module and comprises a transverse stretching assembly, a fixed long track assembly, a second bottom plate and a stopping assembly, wherein the fixed long track assembly comprises a first track and a second track, the first track and the second track are arranged on the second bottom plate in parallel, the transverse stretching assembly and the stopping assembly are respectively arranged on the second bottom plate and are arranged between the first track and the second track, and the transverse stretching assembly and the stopping assembly are relatively and respectively arranged at two ends of the second bottom plate.

The further technical scheme of the invention is as follows: the longitudinal butt joint moving track assembly comprises sliding rails and a longitudinal moving mechanism, the longitudinal moving mechanism is arranged between the sliding rails, the longitudinal moving mechanism comprises driving equipment and a ball screw, and the driving equipment is connected with the ball screw through a coupler.

The further technical scheme of the invention is as follows: the short stretching in-place assembly comprises a stop mechanism, a position sensor and a speed reducing mechanism, wherein the position sensor is arranged on the stop mechanism, the speed reducing mechanism is arranged at the front end of the stop mechanism, and the speed reducing mechanism is parallel to the stop mechanism.

The further technical scheme of the invention is as follows: the short in-place locking assembly comprises a mounting seat and two limiting columns arranged on the mounting seat in parallel.

The further technical scheme of the invention is as follows: the transverse stretching assembly comprises a transverse driving device, a transverse ball screw connected with the transverse driving device through a coupler, and a fixing seat arranged on the transverse ball screw.

The further technical scheme of the invention is as follows: the stop assembly comprises a stop mounting seat and a stop device arranged on the stop mounting seat.

The further technical scheme of the invention is as follows: the backflow mechanism is arranged on the square tube rack through a screw.

The invention has the beneficial effects that: the idea of automatic and safe batch transferring of the pressure-maintaining three-plate type clamp is well realized, heavy work brought by manual moving of batch clamps by a production line is simplified, and the production efficiency is improved; meanwhile, the robot achieves the effect of repeatedly doing things instead of a human, and the cost is effectively controlled. The cost can be effectively controlled under the condition that each mobile phone is recycled, the batch transfer of a plurality of three-plate type pressure maintaining clamps of the pressure maintaining production line is well realized, and the production efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of a heavy-duty rail butt-joint transmission backflow mechanism for mobile phone pressure maintaining according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a heavy-duty rail butt-joint transmission backflow mechanism for mobile phone pressure maintaining according to an embodiment of the present invention.

Detailed Description

Reference numerals: 1-longitudinal butt joint moving track component 2-transverse stretching component 3-fixed long track component 4-stopping component 5-longitudinal butt joint moving track component 6-short stretching to-position component 7-pressure maintaining cabinet installation sliding plate 8-short to-position stopping component

FIG. 1 shows a heavy-duty rail butt-joint transmission backflow mechanism for mobile phone pressure maintaining provided by the present invention, the heavy-duty rail butt-joint transmission backflow mechanism comprises a backflow mechanism, a square tube frame and a plurality of pressure maintaining cabinet mounting sliding plates, the backflow mechanism is arranged on the square tube frame, the plurality of pressure maintaining cabinet mounting sliding plates are respectively arranged on the backflow mechanism, the backflow mechanism comprises a front longitudinal stretching module, a rear longitudinal stretching module, a first transverse stretching module, a second transverse stretching module and a controller, the first transverse stretching module and the second transverse stretching module are arranged in parallel in opposite directions to form a transverse stretching mechanism, the side surface of the front longitudinal stretching module is connected with the front end of the transverse stretching mechanism, the side surface of the rear longitudinal stretching module is connected with the rear end of the transverse stretching mechanism, the front longitudinal stretching module is parallel to the rear longitudinal stretching module, the output end of the controller is respectively connected with the control end of the front longitudinal stretching module, the control end of the rear longitudinal stretching module, the control end of the first transverse stretching module and the control end of the second transverse stretching module.

The front longitudinal stretching module is the same as the rear longitudinal stretching module and comprises longitudinal butt joint moving track assemblies 1 and 5, a short stretching in-place assembly 6 and a short in-place stopping assembly 8, the longitudinal butt joint moving track assemblies 1 and 5, the short stretching in-place assembly 6 and the short in-place stopping assembly 8 are respectively arranged on the first bottom plate, and the short in-place stopping assembly 8 is arranged between the longitudinal butt joint moving track assemblies 1 and 5 and the short stretching in-place assembly 6.

The first transverse stretching module is the same as the second transverse stretching module and comprises a transverse stretching assembly 2, a fixed long track assembly 3, a second bottom plate and a stopping assembly 4, wherein the fixed long track assembly 3 comprises a first track and a second track which are arranged on the second bottom plate in parallel, the transverse stretching assembly 2 and the stopping assembly 4 are respectively arranged on the second bottom plate and between the first track and the second track, and the transverse stretching assembly 2 and the stopping assembly 4 are oppositely and respectively arranged at two ends of the second bottom plate.

The longitudinal butt joint moving track assemblies 1 and 5 comprise sliding rails and longitudinal moving mechanisms, the longitudinal moving mechanisms are arranged between the sliding rails, each longitudinal moving mechanism comprises driving equipment and a ball screw, and the driving equipment is connected with the ball screws through couplers.

The short stretching in-place assembly 6 comprises a stop mechanism, a position sensor and a speed reducing mechanism, wherein the position sensor is arranged on the stop mechanism, the speed reducing mechanism is arranged at the front end of the stop mechanism, and the speed reducing mechanism is parallel to the stop mechanism.

The short in-place locking assembly 8 comprises a mounting seat and two limiting columns arranged on the mounting seat in parallel.

The transverse stretching assembly 2 comprises a transverse driving device, a transverse ball screw connected with the transverse driving device through a coupler, and a fixing seat arranged on the transverse ball screw.

The stop assembly 4 comprises a stop mounting seat and a stop device arranged on the stop mounting seat.

The backflow mechanism is arranged on the square tube rack through a screw.

The method is realized by the following technical scheme: the device mainly comprises a longitudinal butt joint moving track component 1, a transverse stretching component 2, a fixed long track component 3, a stopping component 4, a longitudinal butt joint moving track component 5, a short stretching in-place component 6, a pressure maintaining cabinet installation sliding plate 7 and a short in-place stopping component 8. Wherein, the longitudinal front butt joint moving track component 1, the short stretching in-place component 6 and the short in-place stopping component 8 are a module; the transverse stretching component 2, the fixed long track component 3 and the stopping component 4 are symmetrical 2 modules; the four modules are installed on one plane of the square tube frame through screws.

Install 11 pressurize cabinets that assemble on 11 pressurize cabinet installation slides 7, power-on reset in the first step: the device comprises a longitudinal butt joint moving track assembly 1, a transverse stretching assembly 2, a stop assembly 4, a longitudinal butt joint moving track assembly 5 and a short stretching in-place assembly 6; secondly, the longitudinal butt joint moving track assembly 1, the longitudinal butt joint moving track assembly 5 and the short stretching in-place assembly 6 are in butt joint with the fixed long track assembly 3; thirdly, the transverse stretching assembly 2 stretches out and stretches the pressure maintaining cabinet mounting sliding plate 7 of one station, and at the moment, the rear 5 pressure maintaining cabinet mounting sliding plates 7 move together by one station and then reach the longitudinal rear butt joint moving rail assembly 5; fourthly, the stopping component 4 acts to stop the fifth pressure maintaining cabinet installation sliding plate 7; a fifth step of short stretching in-place component 6 pulls the 6 th pressure maintaining cabinet installation sliding plate 7 to a short in-place stopping component 8; sixthly, the pressure maintaining cabinet installation sliding plate 7 moves to the symmetrical end of the fixed long track assembly 3 under the action of the longitudinal butt joint moving track assembly 1 and the longitudinal butt joint moving track assembly 5; repeating the second, third, fourth, fifth and sixth steps, and circulating in sequence.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. A heavy-load rail butt-joint transmission backflow mechanism for mobile phone pressure maintaining is characterized in that the heavy-load rail butt-joint transmission backflow mechanism comprises a backflow mechanism, a square tube frame and a plurality of pressure maintaining cabinet installation sliding plates, the backflow mechanism is arranged on the square tube frame, the pressure maintaining cabinet installation sliding plates are respectively arranged on the backflow mechanism, the backflow mechanism comprises a front longitudinal stretching module, a rear longitudinal stretching module, a first transverse stretching module, a second transverse stretching module and a controller, the first transverse stretching module and the second transverse stretching module are arranged in parallel in opposite directions to form a transverse stretching mechanism, the side surface of the front longitudinal stretching module is connected with the front end of the transverse stretching mechanism, the side surface of the rear longitudinal stretching module is connected with the rear end of the transverse stretching mechanism, and the front longitudinal stretching module is parallel to the rear longitudinal stretching module, the output end of the controller is respectively connected with the control end of the front longitudinal stretching module, the control end of the rear longitudinal stretching module, the control end of the first transverse stretching module and the control end of the second transverse stretching module;

the front longitudinal stretching module is the same as the rear longitudinal stretching module and comprises a longitudinal butt joint moving track assembly, a short stretching in-place assembly and a short in-place stopping assembly, wherein the longitudinal butt joint moving track assembly, the short stretching in-place assembly and the short in-place stopping assembly are respectively arranged on the first bottom plate, and the short in-place stopping assembly is arranged between the longitudinal butt joint moving track assembly and the short stretching in-place assembly;

the first transverse stretching module is the same as the second transverse stretching module and comprises a transverse stretching assembly, a fixed long track assembly, a second bottom plate and a stopping assembly, wherein the fixed long track assembly comprises a first track and a second track, the first track and the second track are arranged on the second bottom plate in parallel, the transverse stretching assembly and the stopping assembly are respectively arranged on the second bottom plate and are arranged between the first track and the second track, and the transverse stretching assembly and the stopping assembly are relatively and respectively arranged at two ends of the second bottom plate.

2. The mechanism of claim 1, wherein the rail assembly comprises a slide rail and a longitudinal moving mechanism, the longitudinal moving mechanism is disposed between the slide rails, the longitudinal moving mechanism comprises a driving device and a ball screw, and the driving device is connected to the ball screw through a coupling.

3. The mechanism of claim 2, wherein the short stretch assembly comprises a stop mechanism, a position sensor and a speed reduction mechanism, the position sensor is disposed on the stop mechanism, the speed reduction mechanism is disposed at a front end of the stop mechanism, and the speed reduction mechanism is parallel to the stop mechanism.

4. The mechanism of claim 3, wherein the short stop assembly comprises a mounting base and two limiting posts arranged on the mounting base, and the two limiting posts are arranged in parallel.

5. The mechanism of claim 4, wherein the transverse tension assembly comprises a transverse driving device, a transverse ball screw coupled to the transverse driving device via a coupling, and a fixing seat disposed on the transverse ball screw.

6. The mechanism of claim 5, wherein the stop assembly comprises a stop mount, and a stop device disposed on the stop mount.

7. The return mechanism for butt-joint transmission of heavy-duty rails according to claim 6, wherein said return mechanism is installed on said square tube frame by screws.