CN218225459U

CN218225459U - Automatic kludge of gate lock switch

Info

Publication number: CN218225459U
Application number: CN202222273150.2U
Authority: CN
Inventors: 汤可峰
Original assignee: Dongguan Kexunwei Electronic Technology Co ltd
Current assignee: Dongguan Kexunwei Electronic Technology Co ltd
Priority date: 2022-08-29
Filing date: 2022-08-29
Publication date: 2023-01-06
Anticipated expiration: 2032-08-29

Abstract

The utility model relates to a lock switch assembly technical field especially relates to an automatic kludge of big gate lock switch, which comprises a worktable, locate the workstation on the board, locate the casing sideslip mechanism on the workstation, and locate on the workstation along casing sideslip mechanism moving direction in proper order with casing sideslip mechanism intersection, a locking button equipment mechanism for installing locking button on the casing, a locking button assembly mechanism for assembling locking button on the casing, and locate and be used for controlling casing sideslip mechanism on the board, locking button equipment mechanism and the controlling means of locking button assembly mechanism function, casing sideslip mechanism is equipped with correcting unit. The utility model discloses a set up casing sideslip mechanism, locking button equipment mechanism, locking key equipment mechanism on the board, from the material loading to the whole process of assembly by mechanized automatic completion, reduced artificial intervention, improved the efficiency of production, reduced the spending of cost of labor simultaneously.

Description

Automatic kludge of gate lock switch

Technical Field

The utility model relates to a lock switch assembly technical field especially relates to an automatic kludge of big lock switch.

Background

The gate lock switch is composed of a shell 1 (shown in figure 1), a locking button 2, a locking key 3 and two springs 4. The assembly of the large door lock switch in the prior art is manually assembled by workers, so that more labor is needed, the labor cost is caused, the assembly efficiency is lower, and the assembly is more laborious.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the automatic assembling machine for the gate lock switch is high in assembling efficiency and high in consistency of the assembled gate lock switch.

The utility model provides a technical scheme that its technical problem adopted is:

an automatic kludge of big lock switch includes: the locking mechanism comprises a machine table, a workbench arranged on the machine table, a shell transverse moving mechanism arranged on the workbench, and a control device arranged on the machine table and used for controlling the shell transverse moving mechanism, the locking button assembling mechanism and the locking button assembling mechanism to operate, wherein the control device is used for controlling the shell transverse moving mechanism, the locking button assembling mechanism and the locking button assembling mechanism to operate; locking key assembly devices is equipped with the locking key conveyer way, and the discharge end of locking key conveyer way is equipped with and is used for the rotatory second upset subassembly of locking key, and the rear side of second upset subassembly is equipped with bulldozes the locking key to the casing on and compress tightly the subassembly with the second of locking button lock.

Further, the shell transverse moving mechanism is arranged at the bottom of the workbench and provided with a shell conveying channel, the shell transverse moving mechanism is also provided with a supporting base with a slide rail, a transverse moving slide which is arranged on the supporting base in a sliding way and is provided with a longitudinal guide rail and a base driving source for driving the transverse moving slide to move back and forth along the slide rail, the transverse moving slide is provided with a shell clamping plate moving back and forth along the longitudinal guide rail in a sliding way and a longitudinal driving source for driving the shell clamping plate to move, the workbench is provided with an assembling flow channel communicated with the shell conveying channel, and a sensor electrically connected with the base driving source and the longitudinal driving source is arranged at the intersection of the assembling flow channel and the shell conveying channel; a finished product conveying flow channel connected with the discharge end of the assembling flow channel is also arranged on the workbench; the feeding, the assembling and the blanking are all completed on one flow channel, so that the space occupation of the equipment is reduced, the working flow of the equipment is optimized, and the working efficiency of the equipment is improved.

Furthermore, the correcting device is arranged on the upper surface of the workbench and is provided with a clamping block matched with the shape of the shell, and a pushing driving source for pushing the clamping block to clamp the shell, wherein the output end of the pushing driving source is connected with the clamping block; the correcting device is arranged to prevent the shell from being deviated or inclined when the shell is moved to the corresponding assembling station, and the locking button and the locking key can be effectively and quickly installed on the shell.

Furthermore, locking button equipment mechanism and locking key equipment mechanism all are equipped with spring assembly spare, spring assembly spare is located the top of locking button conveyer way and locking key conveyer way, spring assembly spare is equipped with the spring blanking pipe, be equipped with at spring blanking pipe bottom and block the piece, spring assembly spare is equipped with and promotes to block the moving block and the removal driving source that leave the orificial movable block of spring blanking pipe, spring assembly spare still is equipped with and is used for compressing tightly the spring in the pressure spring thimble and the output on locking button and locking key and is connected the thimble driving source that promotes the pressure spring thimble and push down with pressure spring thimble top.

Furthermore, one end of the locking button conveying channel, which is far away from the first turnover assembly, is provided with a button driving source which can move in the locking button conveying channel and is used for pushing a button of the locking button to push the ejector pin and driving the button to push the ejector pin to move; the below of locking button conveyer way is equipped with the button upset and promotes the thimble to and the button upset driving source that the output is connected with button upset promotion thimble, the button upset promotes the thimble when button upset driving source promotes and intersects with the first upset subassembly after the upset, in order to promote locking button to the first subassembly that compresses tightly.

Furthermore, the first turnover assembly and the second turnover assembly are identical in structure, the first turnover assembly and the second turnover assembly are both provided with a rotating plate, one end of the rotating plate is provided with clamps matched with the locking button and the locking key, the heights of the two clamps are equal to the heights of a channel opening of the locking button conveying channel and a channel opening of the locking key conveying channel respectively, a rotating shaft is arranged in the middle of the rotating plate, one end of the rotating shaft is provided with a gear, a rack meshed with gear teeth is arranged at the bottom of the gear, and one end of the rack is provided with a pushing driving source for driving the rack to move.

Furthermore, one end of the locking key conveying channel, which is far away from the second overturning assembly, is provided with a key driving source which can move in the locking key conveying channel, is used for pushing a key of the locking key to push the ejector pin and drives the key to push the ejector pin to move; the below of locking key conveyer way is equipped with key upset and promotes the thimble to and the key upset driving source that output and key upset promote the thimble to be connected, key upset when key upset driving source promotes promote the thimble and cross with the second upset subassembly after the upset, with promote the locking key and remove to the second and compress tightly the subassembly.

Furthermore, the first pressing component and the second pressing component are the same in structure, the first pressing component and the second pressing component are both provided with vertical plates, the top of each vertical plate is provided with a vertical driving source, the output end of the vertical driving source is provided with a pressing ejector pin, the middle of each vertical plate is provided with a guide block, and the pressing ejector pin penetrates through the guide block.

Above-mentioned automatic kludge of big lock switch through set up casing sideslip mechanism, locking button equipment mechanism, locking key equipment mechanism on the board, from the material loading to assemble whole process by mechanized automatic completion, has reduced artificial intervention, has improved the efficiency of production, has reduced the spending of cost of labor simultaneously.

Drawings

Fig. 1 is an exploded view of the gate lock switch of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a schematic view of an angle structure of the present invention;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3;

fig. 5 is a schematic structural view of the middle shell traversing mechanism of the present invention;

fig. 6 is a schematic view of an angle of the locking button assembly mechanism of the present invention;

fig. 7 is a schematic structural view of another angle of the locking button assembling mechanism of the present invention;

FIG. 8 is an enlarged view of portion B of FIG. 7;

fig. 9 is a schematic structural view of the locking key assembly mechanism of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

Referring to fig. 2-9, the present embodiment provides an automatic gate lock switch assembling machine, including a machine table 100, a workbench 110 disposed on the machine table 100, a housing traversing mechanism 200 disposed on the workbench 110, and a control device 500 disposed on the machine table 100 and sequentially intersecting with the housing traversing mechanism 200 along a moving direction of the housing traversing mechanism 200, for installing a locking button on a housing, a locking key assembling mechanism 400 for assembling the locking key on the housing, and for controlling the operation of the housing traversing mechanism 200, the locking button assembling mechanism 300, and the locking key assembling mechanism 400, wherein the housing traversing mechanism 200 is provided with a housing conveying passage 260, the housing traversing mechanism 200 is provided with a correcting device 600 corresponding to the locking button assembling mechanism 300 and the locking key assembling mechanism 400, the locking button assembling mechanism 300 is provided with a locking button conveying passage 310, a first turning assembly 320 for rotating the locking button is disposed at a discharging end of the locking button conveying passage 310, and a first pressing assembly 330 for pressing the locking button onto the housing is disposed at a rear side of the first turning assembly 320; locking key assembly device 400 is equipped with locking key conveyer way 410, the discharge end of locking key conveyer way 410 is equipped with and is used for the rotatory second upset subassembly 420 of locking key, the rear side of second upset subassembly 420 is equipped with bulldozes the locking key to the casing and compresses tightly subassembly 430 with the second of locking button lock, locking button assembly device 300 and locking key assembly device 400 all are equipped with spring assembly device 700, be equipped with the equipment runner 120 with casing conveyer way 260 intercommunication on the workstation 110, still be equipped with the finished product delivery runner 130 of being connected with the discharge end of equipment runner 120 on the workstation 110.

When the automatic assembling machine for the large door lock switch works, a shell flows to the assembling flow channel 120 from the shell conveying channel 260 and is moved to the locking button assembling mechanism 300 by the shell traversing mechanism 200, at the moment, a locking button flows to the position below the spring assembling component 700 from the locking button conveying channel 310, the spring assembling component 700 assembles the spring to the locking button, after the assembling is completed, the locking button is conveyed to the first overturning component 320 by the locking button conveying channel 310, the locking button is rotated by 180 degrees by the first overturning component 320, the locking button is pushed out of the first overturning component 320 by the button overturning pushing thimble 313 and is pushed to the first pressing component 330, and the locking button is pressed and assembled to the shell by the first pressing component 330; after the assembly of the locking button is completed, the shell traversing mechanism 200 moves again, the shell assembled with the locking button moves to the locking key assembling mechanism 400, at the moment, the locking key flows to the lower part of the spring assembling component 700 through the locking key conveying passage 410, the spring assembling component 700 assembles the spring to the locking key, after the assembly is completed, the locking key flows to the second overturning component 420 through the locking key conveying passage 410, the locking key rotates 180 degrees through the second overturning component 420, the locking key is pushed out of the second overturning component 420 through the key overturning pushing thimble 413 and pushed to the second pressing component 430, and the locking button is pressed and assembled to the shell through the second pressing component 430, so that the locking key is buckled with the locking button, and the locking key is prevented from being flicked; after the locking key assembly is completed, the housing traversing mechanism 200 pushes the product out of the assembly channel 120, and the product flows out of the finished product conveying channel 130, thereby completing the one-time assembly. The utility model discloses a set up casing sideslip mechanism 200, locking button assembly devices 300, locking key assembly devices 400 on board 100, from the material loading to assemble whole process by mechanized automatic completion, reduced artificial intervention, improved the efficiency of production, reduced the spending of cost of labor simultaneously.

It should be noted that the conveying of the housing, the locking button, the locking key and the spring is carried out by the vibration plate, and the housing conveying channel 260, the locking button conveying channel 310, the locking key conveying channel 410 and the spring assembly 700 are respectively connected with the corresponding discharging ends connected with the vibration plate.

Specifically, referring to fig. 4 and 5, the housing traversing mechanism 200 is disposed at the bottom of the workbench 110, the housing traversing mechanism 200 is provided with a supporting base 210 having a sliding rail 211, a traversing slide 220 slidably disposed on the supporting base 210 and having a longitudinal guide rail 221, and a base driving source 230 for driving the traversing slide 220 to reciprocate along the sliding rail 211, the traversing slide 220 is slidably provided with a housing clamping plate 240 moving back and forth along the longitudinal guide rail 221, and a longitudinal driving source 250 for driving the housing clamping plate 240 to move, wherein the housing clamping plate 240 is provided with a plurality of limiting grooves 241 matching with the housing shape; an inductor electrically connected with the base driving source 230 and the longitudinal driving source 250 is arranged at the intersection of the assembly flow channel 120 and the shell conveying channel 260; when the sensor senses the shell, sensing signals are fed back to the base driving source 230 and the longitudinal driving source 250, the longitudinal driving source 250 drives the clamping plate to move back and forth along the longitudinal guide rail 221, and the shell is clamped by the clamping plate; at this time, the base driving source 230 is started, the traverse slide 220 is pushed to drive the shell clamping plate 240 to move left and right along the direction of the slide rail 211, the shell is moved to the correcting device 600, after the shell is corrected by the correcting device 600, the shell is positioned below the first pressing component 330, and the locking button is assembled on the shell by the first pressing component 330; preferably, the correcting device 600 is installed on the upper surface of the worktable 110, the correcting device 600 is provided with a clamping block 610 matched with the shape of the casing and a pushing driving source 620 with an output end connected with the clamping block 610 and used for pushing the clamping block 610 to clamp the casing; the calibration device 600 is provided to prevent the housing from being deviated or inclined at the assembling position when the housing is moved to the corresponding assembling station, so that the locking button and the locking key can be effectively and quickly mounted on the housing. Through setting up casing sideslip mechanism 200, the casing material loading has reduced artificial intervention with removing, improve equipment's automatic function, and then improve the efficiency of work.

It should be noted that, in the present embodiment, the longitudinal driving source 250 and the base driving source 230 adopt an air cylinder, and in other embodiments, an electric or other type of cylinder or other type of driving device may be adopted.

Further, referring to fig. 6, 7 and 8, the locking button assembly mechanism 300 has a supporting frame 340, the locking button conveying channel 310, the first turning component 320, the first pressing component 330 and the spring assembly component 700 are mounted on the supporting frame 340, and one end of the locking button conveying channel 310, which is far away from the first turning component 320, is provided with a button driving source 312, which is movable in the locking button conveying channel 310 and is used for driving the button driving thimble 311 of the locking button and driving the button driving thimble 311 to move; a button turning pushing spike 313 is arranged below the locking button conveying passage 310, and a button turning driving source 314 having an output end connected to the button turning pushing spike 313. After the spring assembly is completed, the locking button is pushed to the first turnover assembly 320 by the button pushing thimble 311, and after the first turnover assembly 320 is turned over, the locking button is pushed to the first turnover assembly 320 by the button turning pushing thimble 313, and is pushed to the first pressing assembly 330 by the button turning pushing thimble 313.

The spring assembly 700 on the locking button assembly mechanism 300 is located above the locking button conveying path 310, and comprises a support plate 710, a sliding plate 720 arranged on the support plate 710 in a sliding manner, and a fixed block 730 fixed below the sliding plate 720, wherein a spring blanking pipe 740 connected with a vibration disc through a hose is installed on the fixed block 730, the spring blanking pipe 740 penetrates through the fixed block 730, a blocking part 731 with one end abutting against the bottom of the spring blanking pipe 740 and used for blocking the flow of a spring is installed on the fixed block 730 in a hinged manner, a moving block 732 used for pushing the blocking part 731 to leave the opening of the spring blanking pipe 740 is also arranged on the fixed block 730 in a sliding manner, a fixed push block 733 with an arc step surface is fixedly installed on one side of the support plate 710 close to the moving block 732, a pulley abutting against the arc step surface is rotatably installed on one end of the moving block 732 close to the arc step surface, a return spring is installed on the other end of the support plate 710, and a moving driving source 750 used for driving the sliding plate 720 to move up and down is arranged on the support plate 710. The sliding plate 720 is further provided with an ejector pin driving source 760, an output end of the ejector pin driving source 760 is connected with a pressure spring ejector pin 770 for pressing a spring on the locking button, and the bottom of the pressure spring ejector pin 770 penetrates through the fixed block 730 and extends to the locking button conveying channel 310. When the device works, the vibration disc conveys the spring into the spring blanking pipe 740, the movable driving source 750 is started to enable the sliding plate 720 to move downwards, the pulley is abutted against the arc-shaped step surface of the fixed pushing block 733, so that the moving block 732 pushes the blocking piece 731 to swing, the blocking piece 731 is separated from the pipe opening at the bottom of the spring blanking pipe 740, the spring is enabled to fall to the position set by the locking button, the button pushes the ejector pin 311 to be pushed to the position below the pressure spring ejector pin 770 of the locking button, the ejector pin driving source 760 is started to enable the pressure spring ejector pin 770 to move downwards, and the spring is tightly pressed on the locking button.

In addition, the first flipping unit 320 is provided with a rotating plate 321, one end of the rotating plate 321 is provided with a fixture matched with the locking button, the height of the fixture is equal to the height of the opening of the locking button conveying passage 310, the middle of the rotating plate 321 is provided with a rotating shaft, one end of the rotating shaft is provided with a gear, a rack 322 engaged with the gear teeth is arranged on a supporting frame 340 at the bottom of the gear, and one end of the rack 322 is provided with a pushing driving source 323 for driving the rack 322 to move. In addition, the first pressing component 330 is located above the assembly runner 120, the first pressing component 330 is provided with a vertical plate 331 connected with the supporting frame 340, a vertical driving source 332 is arranged at the top of the vertical plate 331, a pressing thimble 333 is arranged at the output end of the vertical driving source 332, a guide block 334 is arranged in the middle of the vertical plate 331, and the pressing thimble 333 penetrates through the guide block 334. The locking button is assembled to the housing by pressing the thimble 333. The locking button is mechanically assembled on the shell from feeding to assembling, manual operation is not needed, production efficiency is improved, and consistency is high.

It should be noted that in the present embodiment, the button driving source 312, the button flipping driving source 314, the moving driving source 750, and the thimble driving source 760 are cylinders, and in other embodiments, an electric or other type cylinder or other type driving device may be used, which is not described herein.

Further, referring to fig. 9, the locking key assembly mechanism 400 is provided with a support 430, a locking key conveying passage 410, a second turning assembly 420, a spring assembly 700 and a second pressing assembly 430 are mounted on the support 430, and one end of the locking key conveying passage 410, which is far away from the second turning assembly 420, is provided with a key driving source 412 which can move in the locking key conveying passage 410, is used for pushing a key pushing thimble 411 of the locking key, and drives the key pushing thimble 411 to move; a key-flipping push thimble 413 and a key-flipping drive source 414 having an output end connected to the key-flipping push thimble 413 are disposed below the locking key conveying passage 410, and when the key-flipping drive source 414 pushes, the key-flipping push thimble 413 intersects with the flipped second flipping component 420 to push the locking key to move to the second pressing component 430. In addition, the second flipping module 420 and the second pressing module 430 have the same structure as the first flipping module 320 and the first pressing module 330, and the spring assembly 700 on the locking key assembly 400 and the spring assembly 700 on the locking button assembly 300 have the same structure, which will not be described herein, and the second flipping module 420 is different from the first flipping module 320 in that one end of the rotating plate 321 is provided with a clamp matched with the locking key.

It should be noted that, in the present embodiment, the key driving source 412 and the key-flipping driving source 414 employ air cylinders, and in other embodiments, electric or other cylinders or other driving devices may be employed, which are not described in detail herein.

The utility model discloses a concrete theory of operation does: when the vibration plate machine works, all the vibration plates on the machine table 100 are started simultaneously, the shell flows to the assembly flow channel 120 from the vibration plates through the shell conveying channel 260, when the inductor induces the shell in the assembly flow channel 120, the inductor feeds back induction signals to the base driving source 230 and the longitudinal driving source 250, the longitudinal driving source 250 drives the clamping plate to move back and forth along the longitudinal guide rail 221, and the shell is clamped by the clamping plate; at this time, the base driving source 230 is started to push the traverse slide 220 to drive the shell clamping plate 240 to move left and right along the direction of the slide rail 211, so as to move the shell to the correcting device 600, and after the shell is corrected by the correcting device 600, the shell is positioned below the first pressing component 330;

meanwhile, the locking button is conveyed to a locking button conveying channel 310 through a vibration disc, the locking button is pushed to the position below the spring assembly component 700 by a button pushing ejector pin 311, the spring is conveyed into a spring blanking pipe 740 by the vibration disc, a movable driving source 750 is started to enable a sliding plate 720 to move downwards, as a pulley is abutted against an arc-shaped step surface of a fixed pushing block 733, a moving block 732 pushes a blocking piece 731 to swing, the blocking piece 731 is separated from a pipe opening at the bottom of the spring blanking pipe 740, the spring drops to a position set by the locking button, the button pushes the ejector pin 311 to push the locking button to the position below a pressure spring ejector pin 770, and an ejector pin driving source 760 is started to enable the pressure spring ejector pin 770 to move downwards to press the spring tightly on the locking button; after the assembly of the spring is completed, the button pushing thimble 311 pushes the first turnover component 320, after the first turnover component 320 is turned over by 180 degrees, the button turnover pushing thimble 313 pushes the locking button out of the first turnover component 320, and pushes the locking button to the first pressing component 330, and the locking button is pressed on the shell by the first pressing component 330;

after the assembly of the locking button is completed, the base driving source 230 is started again, the shell is moved to the position below the second pressing component 430, meanwhile, the locking key is conveyed to the locking key conveying channel 410 through the vibration disc, the locking key is pushed to the position below the spring assembly component 700 by the key pushing ejector pin 411, the spring is conveyed into the spring blanking pipe 740 by the vibration disc, the movable driving source 750 is started, the sliding plate 720 moves downwards, the sliding plate 720 is pushed to the position below the locking button pressure spring ejector pin 770 due to the fact that the pulley is abutted against the arc-shaped step surface of the fixed pushing block 733, the moving block 732 pushes the blocking piece 731 to swing, the blocking piece 731 is separated from the pipe opening at the bottom of the spring blanking pipe 740, the spring drops to the set position of the locking button, the button pressing ejector pin 311 is pushed to the position below the locking button pressure spring ejector pin 770, the ejector pin driving source 760 is started, the pressure spring ejector pin 770 moves downwards to press the spring onto the locking key, after the assembly of the spring is completed, the key pushes the ejector pin 411 to the second turning component 420, after the second turning component 420 is turned over 180 degrees, the key is turned over, the locking button is pushed to push the second pressing component 430, the locking button 430, and the locking button is buckled with the locking button 430, so that the locking button is prevented from being unlocked; after the locking key assembly is completed, the housing traversing mechanism 200 pushes the product out of the assembly channel 120, and the product flows out of the finished product conveying channel 130, thereby completing the one-time assembly. The utility model discloses a set up casing sideslip mechanism 200, locking button assembly devices 300, locking key assembly devices 400 on board 100, from the material loading to assemble whole process by mechanized automatic completion, reduced artificial intervention, improved the efficiency of production, reduced the spending of cost of labor simultaneously.

All possible combinations of the technical features of the above embodiments may not be described for the sake of brevity, but should be considered as within the scope of the present disclosure as long as there is no contradiction between the combinations of the technical features.

Claims

1. An automatic kludge of big lock switch includes: the locking mechanism comprises a machine table, a workbench arranged on the machine table, a shell transverse moving mechanism arranged on the workbench, and a control device arranged on the machine table and used for controlling the shell transverse moving mechanism, the locking button assembling mechanism and the locking button assembling mechanism to operate, wherein the control device is used for controlling the shell transverse moving mechanism, the locking button assembling mechanism and the locking button assembling mechanism to operate; locking key assembly devices is equipped with the locking key transfer passage, and the discharge end of locking key transfer passage is equipped with and is used for the rotatory second upset subassembly of locking key, and the rear side of second upset subassembly is equipped with bulldozes the locking key to the casing on and compress tightly the subassembly with the second of locking button lock.

2. An automatic assembling machine for a gate lock switch according to claim 1, wherein the housing traversing mechanism is provided at the bottom of the working table, the housing traversing mechanism is provided with a housing conveying path, the housing traversing mechanism is further provided with a supporting base having a slide rail, a traversing slide slidably provided on the supporting base and having a longitudinal guide rail, and a base driving source for driving the traversing slide to reciprocate along the slide rail, and the traversing slide is slidably provided with a housing clamping plate moving back and forth along the longitudinal guide rail and a longitudinal driving source for driving the housing clamping plate to move.

3. The automatic gate lock switch assembling machine according to claim 1, wherein the correcting device is installed on an upper surface of the workbench, and the correcting device is provided with a clamping block matched with the shape of the housing and a pushing driving source for pushing the clamping block to clamp the housing, and an output end of the pushing driving source is connected with the clamping block.

4. The automatic gate lock switch assembling machine according to claim 1, wherein the locking button assembling mechanism and the locking key assembling mechanism are provided with spring assembling components, the spring assembling components are located above the locking button conveying path and the locking key conveying path, the spring assembling components are provided with spring blanking pipes, blocking parts are arranged at bottoms of the spring blanking pipes, the spring assembling components are provided with moving blocks and moving driving sources, the moving blocks push the blocking parts to leave openings of the spring blanking pipes, the spring assembling components are further provided with pressure spring ejector pins, the pressure spring ejector pins are used for pressing springs onto the locking buttons and the locking keys, and ejector pin driving sources, output ends of the ejector pins are connected with tops of the pressure spring ejector pins, and the pressure spring ejector pins are pushed to press downwards.

5. The automatic gate lock switch assembling machine according to claim 1, wherein an end of the locking button conveyor channel, which is away from the first turnover assembly, is provided with a button driving source which can move in the locking button conveyor channel, is used for driving a button driving ejector pin of the locking button, and drives the button driving source to drive the button driving ejector pin to move.

6. The automatic gate lock switch assembling machine according to claim 5, wherein a button overturning pushing ejector pin and a button overturning driving source with an output end connected with the button overturning pushing ejector pin are arranged below the locking button conveying channel, and when the button overturning driving source pushes, the button overturning pushing ejector pin is intersected with the overturned first overturning component so as to push the locking button to move to the first pressing component.

7. The automatic gate lock switch assembling machine according to claim 1, wherein one end of the locking key conveying channel, which is far away from the second overturning component, is provided with a key driving source which can move in the locking key conveying channel and is used for pushing a key pushing ejector pin of the locking key and driving the key pushing ejector pin to move; the below of locking key conveyer way is equipped with key upset and promotes the thimble to and the key upset driving source that output and key upset promote the thimble to be connected, key upset when key upset driving source promotes promote the thimble and cross with the second upset subassembly after the upset, with promote the locking key and remove to the second and compress tightly the subassembly.

8. The automatic gate lock switch assembling machine as claimed in claim 1, wherein the first and second turnover assemblies have the same structure, the first and second turnover assemblies are provided with rotating plates, one end of the rotating plate is provided with clamps matched with the locking button and the locking key, the heights of the two clamps are respectively equal to the height of the opening of the locking button conveying channel and the height of the opening of the locking key conveying channel, the middle of the rotating plate is provided with a rotating shaft, one end of the rotating shaft is provided with a gear, the bottom of the gear is provided with a rack engaged with the gear teeth, and one end of the rack is provided with a pushing driving source for driving the rack to move.

9. The automatic gate lock switch assembling machine according to claim 1, wherein the first pressing assembly and the second pressing assembly are identical in structure, the first pressing assembly and the second pressing assembly are provided with vertical plates, a vertical driving source is arranged at the tops of the vertical plates, a pressing ejector pin is arranged at an output end of the vertical driving source, a guide block is arranged in the middle of each vertical plate, and the pressing ejector pin penetrates through the guide block.

10. The automatic gate lock switch assembling machine according to claim 2, wherein an assembling flow channel communicated with the shell conveying channel is arranged on the workbench, and a sensor electrically connected with the base driving source and the longitudinal driving source is arranged at the junction of the assembling flow channel and the shell conveying channel; and a finished product conveying flow channel connected with the discharge end of the assembling flow channel is also arranged on the workbench.