CN108817906B

CN108817906B - Tubular motor micro-gap switch equipment

Info

Publication number: CN108817906B
Application number: CN201810983590.2A
Authority: CN
Inventors: 罗行凯
Original assignee: Ningbo Tuotai Intelligent Technology Co ltd
Current assignee: Ningbo Tuotai Intelligent Technology Co ltd
Priority date: 2018-08-27
Filing date: 2018-08-27
Publication date: 2023-07-14
Anticipated expiration: 2038-08-27
Also published as: CN108817906A

Abstract

The invention discloses tubular motor micro-switch assembly equipment, which comprises a frame, wherein a switch seat feeding device, a switch terminal feeding device, an assembly device and a transfer device are arranged on the frame, the switch seat feeding device comprises a switch seat vibration disc and a switch seat conveying guide rail, the transfer device comprises a conveying groove, a driving piece, a first pushing cylinder and a second pushing cylinder, a conveying belt and a positioning piece are arranged in the conveying groove, the conveying belt is sleeved on the driving piece and drives the conveying belt to move, the switch terminal feeding device comprises a first switch terminal vibration disc, a second switch terminal vibration disc, a first switch terminal conveying guide rail and a second switch terminal conveying guide rail, and the assembly device comprises a clamp, a first lifting cylinder, a second lifting cylinder, a first assembly cylinder, a second assembly cylinder, a third assembly cylinder and a fourth assembly cylinder. According to the invention, the switch terminal can be automatically mounted on the switch seat, so that the labor cost is saved, and the working efficiency is greatly improved.

Description

Tubular motor micro-gap switch equipment

Technical Field

The invention relates to the technical field of motor processing equipment, in particular to tubular motor micro-switch assembly equipment.

Background

The tubular motor is mainly driven by power provided by equipment such as an electric curtain, an electric rolling door, an electric awning, an electric projection curtain and the like. The tubular motor is widely used in fields of intelligent sunshade or door and window automation in household, industry and the like.

The tubular motor comprises a tubular shell, a driving assembly, a brake assembly and a travel control assembly, wherein the driving assembly, the brake assembly and the travel control assembly are supported in the tubular shell through a bearing seat, the travel control of the tubular motor is realized through a micro switch of the tubular motor, the micro switch generally comprises a switch seat and switch terminals, mounting columns are arranged on two sides of the switch seat, mounting holes matched with the mounting columns are formed in the switch terminals, the switch terminals are mounted on the switch seat through the mounting holes and the mounting columns, at present, the switch terminals are generally mounted on the switch terminals through manual work, so that the assembly effect is low, moreover, the phenomenon of missing or incomplete assembly is easy, waste products are easy to generate, and in the prior art, whether the waste products are generated can be detected only through manual work, the phenomenon of missing detection is easy to generate, and the use of the micro switch is affected.

Disclosure of Invention

Aiming at the defects and defects of the prior art, the tubular motor micro-switch assembly equipment is provided, a switch terminal can be automatically installed on a switch seat, the labor cost is saved, the working efficiency is greatly improved, and whether the micro-switch is assembled or not can be automatically detected.

In order to achieve the above object, the present invention provides the following technical solutions.

The tubular motor micro-switch assembly equipment comprises a frame, wherein a switch seat feeding device, a switch terminal feeding device, an assembly device and a transfer device are arranged on the frame, the switch seat feeding device comprises a switch seat vibrating plate and a switch seat conveying guide rail, the switch seat vibrating plate is used for accommodating a switch seat, an inlet of the switch seat conveying guide rail is connected with the switch seat vibrating plate, the transfer device comprises a conveying groove, a driving piece, a first pushing cylinder and a second pushing cylinder, a conveying belt and a locating piece are arranged in the conveying groove, the conveying belt is sleeved on the driving piece and drives the conveying belt to move, the first pushing cylinder is positioned at an outlet of the switch seat conveying guide rail, the second pushing cylinder is positioned at an inlet of the conveying groove, the first pushing cylinder is used for pushing the switch seat at the outlet of the switch seat conveying guide rail to the second pushing cylinder, the second pushing cylinder is used for pushing the switch seat onto the conveying groove, the switch terminal feeding device comprises a first switch terminal vibrating disk, a second switch terminal vibrating disk, a first switch terminal conveying guide rail and a second switch terminal conveying guide rail, the first switch terminal vibrating disk and the second switch terminal vibrating disk are respectively used for accommodating the switch terminal, an inlet of the first switch terminal conveying guide rail is connected with the first switch terminal vibrating disk, an inlet of the second switch terminal conveying guide rail is connected with the second switch terminal vibrating disk, the first switch terminal conveying guide rail and the second switch terminal conveying guide rail are arranged side by side, the first switch terminal conveying guide rail and the second switch terminal conveying guide rail are positioned above the conveying groove, the assembling device comprises a clamp, a first lifting cylinder, a second lifting cylinder, a first assembling cylinder, a second assembling cylinder, a third assembling cylinder and a fourth assembling cylinder, the fixture is located between the export of first switch terminal conveying guide rail and the export of second switch terminal conveying guide rail, first lift cylinder is connected with the fixture in order to drive the fixture and reciprocate, first equipment cylinder is located the side of the entry of first switch terminal conveying guide rail, the second equipment cylinder is located the side of the entry of second switch terminal conveying guide rail, the third equipment cylinder is located the below of first equipment cylinder, the fourth equipment cylinder is located the below of second equipment cylinder, the second lift cylinder is connected with third equipment cylinder and fourth equipment cylinder in order to drive third equipment cylinder and fourth equipment cylinder and reciprocate, the fixture bottom is equipped with the opening with switch seat looks adaptation, the fixture both sides are equipped with the logical groove with switch terminal looks adaptation, logical groove and opening intercommunication.

Further, the locating piece is a plurality of elastic pieces, and the locating piece is arranged in an inclined mode.

Further, the bottom of the clamp is also provided with a positioning lug.

Further, the rack is also provided with a detection sensor positioned at the conveying groove.

Further, the end of the conveying groove is provided with a discharging track, a finished product outlet and a waste product outlet are connected to the discharging track, a baffle is arranged at the joint of the finished product outlet and the waste product outlet, a rotating shaft is arranged on the baffle, the rotating shaft penetrates through the discharging track and is connected with a driving cylinder through a connecting rod, and the driving cylinder is matched with the detection sensor.

Further, the output ends of the first assembling cylinder, the second assembling cylinder, the third assembling cylinder and the fourth assembling cylinder are respectively provided with a pushing block matched with the switch terminal.

Further, the output end of the first pushing cylinder is connected with a pushing block, and a placing groove matched with the switch seat is formed in the pushing block.

Further, a stop block matched with the outlet of the switch seat conveying guide rail is arranged beside the pushing block.

The beneficial effects of the invention are as follows: when the equipment of the invention is used, the switch seat vibration plate works, the switch seat is conveyed to the outlet of the switch seat conveying guide rail from the inlet of the switch seat conveying guide rail, the first pushing cylinder works, the first pushing cylinder pushes the switch seat at the outlet of the switch seat conveying guide rail to the second pushing cylinder, the second pushing cylinder pushes the switch seat to the conveying groove, meanwhile, the first switch terminal vibration plate and the second switch terminal vibration plate work, the first switch terminal vibration plate conveys the switch terminal from the inlet of the first switch terminal conveying guide rail to the outlet of the first switch terminal conveying guide rail, the second switch terminal vibration plate conveys the switch terminal from the inlet of the second switch terminal conveying guide rail to the outlet of the second switch terminal conveying guide rail, meanwhile, the first lifting cylinder drives the clamp to move between the outlet of the first switch terminal conveying guide rail and the outlet of the second switch terminal conveying guide rail, the first pushing cylinder and the second assembling cylinder push the switch terminals at the outlet of the first switch terminal conveying guide rail and the outlet of the second switch terminal conveying guide rail into through grooves at two sides of the clamp, meanwhile, the driving piece drives the conveying belt to work, the switch seat is transferred to the lower part of the clamp through the positioning piece, the first lifting cylinder drives the clamp to move downwards to the clamp, the switch seat is positioned in an opening of the clamp, then the second lifting cylinder works to drive the third assembling cylinder and the fourth assembling cylinder to move downwards to two sides of the clamp, the third assembling cylinder and the fourth assembling cylinder work, the switch terminals in the through grooves at two sides of the clamp are pushed to the switch seat in the opening of the clamp, the switch terminals are arranged on the switch seat, the first lifting cylinder drives the clamp to reset, the second lifting cylinder drives the third assembling cylinder and the fourth assembling cylinder to reset, the driving piece drives the conveyer belt to work again, and the assembled micro switch is moved out. According to the invention, the switch terminal can be automatically mounted on the switch seat, so that the labor cost is saved, and the working efficiency is greatly improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the internal structure of the present invention.

Fig. 3 is a schematic view of the structure of the discharging track of the present invention.

In the figure, 1. A frame; 2. a switch base vibration plate; 3. a switch seat conveying guide rail; 4. a conveying trough; 5. a first pushing cylinder; 6. a second pushing cylinder; 7. a first switch terminal vibration plate; 8. a second switch terminal vibration plate; 9. a first switch terminal conveying guide rail; 10. a second switch terminal conveying guide rail; 11. a clamp; 12. a first lifting cylinder; 13. a first assembly cylinder; 14. a second assembly cylinder; 15. a third assembly cylinder; 16. a fourth assembly cylinder; 17. a discharge rail; 18. a finished product outlet; 19. a waste outlet; 20. a baffle; 21. a rotating shaft; 22. a connecting rod; 23. the cylinder is driven.

Detailed Description

The invention is further explained in connection with the drawings.

Referring to the assembling equipment of the tubular motor micro switch shown in figures 1 to 3, the assembling equipment comprises a frame 1, a switch seat feeding device, a switch terminal feeding device, an assembling device and a transferring device are arranged on the frame 1, the switch seat feeding device comprises a switch seat vibration disc 2 and a switch seat conveying guide rail 3, the switch seat vibration disc 2 is used for accommodating a switch seat, an inlet of the switch seat conveying guide rail 3 is connected with the switch seat vibration disc 2, the transferring device comprises a conveying groove 4, a driving piece, a first pushing cylinder 5 and a second pushing cylinder 6, a conveying belt and a positioning piece are arranged in the conveying groove 4, the conveying belt is sleeved on the driving piece and drives the conveying belt to move, the first pushing cylinder 5 is positioned at an outlet of the switch seat conveying guide rail 3, the second pushing cylinder 6 is positioned at an inlet of the conveying groove 4, the first pushing cylinder 5 is used for pushing the switch seat at the outlet of the switch seat conveying guide rail 3 to the second pushing cylinder 6, the second pushing cylinder 6 is used for pushing the switch seat onto the conveying groove 4, the output end of the first pushing cylinder 5 is connected with a pushing block, a placing groove matched with the switch seat is arranged on the pushing block, the switch seat can directly enter the placing groove after being moved out through the outlet of the switch seat conveying guide rail 3, a stop block matched with the outlet of the switch seat conveying guide rail 3 is arranged beside the pushing block, when the pushing block is driven by the first pushing cylinder 5 to extend, the stop block is driven by the pushing block to be matched with the outlet of the switch seat conveying guide rail 3 so as to block the outlet of the switch seat conveying guide rail 3, when the pushing block is driven by the first pushing cylinder 5 to retract, the stop block is driven by the pushing block to be separated from the outlet of the switch seat conveying guide rail 3 so as to open the outlet of the switch seat conveying guide rail 3, so as to ensure that the switch seat can directly enter the placing groove after being moved out through the outlet of the switch seat conveying guide rail 3.

The switch terminal feeding device comprises a first switch terminal vibration disc 7, a second switch terminal vibration disc 8, a first switch terminal conveying guide rail 9 and a second switch terminal conveying guide rail 10, wherein the first switch terminal vibration disc 7 and the second switch terminal vibration disc 8 are respectively used for containing switch terminals, an inlet of the first switch terminal conveying guide rail 9 is connected with the first switch terminal vibration disc 7, an inlet of the second switch terminal conveying guide rail 10 is connected with the second switch terminal vibration disc 8, the first switch terminal conveying guide rail 9 and the second switch terminal conveying guide rail 10 are arranged side by side, the first switch terminal conveying guide rail 9 and the second switch terminal conveying guide rail 10 are positioned above the conveying groove 4, the assembling device comprises a clamp 11, a first lifting cylinder 12, a second lifting cylinder, a first assembling cylinder 13, a second assembling cylinder 14, a third assembling cylinder 15 and a fourth assembling cylinder 16, the clamp 11 is positioned between the outlet of the first switch terminal conveying guide rail 9 and the outlet of the second switch terminal conveying guide rail 10, the first lifting cylinder 12 is connected with the clamp 11 to drive the clamp 11 to move up and down, the clamp 11 is connected with the first lifting cylinder 12 through a mounting plate, the first assembling cylinder 13 is positioned beside the inlet of the first switch terminal conveying guide rail 9, the second assembling cylinder 14 is positioned beside the inlet of the second switch terminal conveying guide rail 10, the third assembling cylinder 15 is positioned under the first assembling cylinder 13, the fourth assembling cylinder 16 is positioned under the second assembling cylinder 14, the second lifting cylinder is connected with the third assembling cylinder 15 and the fourth assembling cylinder 16 to drive the third assembling cylinder 15 and the fourth assembling cylinder 16 to move up and down, the number of the second lifting cylinders can be two, the two second lifting cylinders respectively control the actions of the third assembly cylinder 15 and the fourth assembly cylinder 16, in addition, the number of the second lifting cylinders can be two, the third assembly cylinder 15 and the fourth assembly cylinder 16 are connected with the second lifting cylinders through the connecting device, the second lifting cylinders simultaneously control the actions of the third assembly cylinder 15 and the fourth assembly cylinder 16, the bottom of the clamp 11 is provided with an opening matched with the switch seat, the bottom of the clamp 11 is also provided with a positioning lug, the positioning lug is matched with the switch seat, two sides of the clamp 11 are provided with through grooves matched with the switch terminals, and the through grooves are communicated with the opening. The output ends of the first assembling cylinder 13, the second assembling cylinder 14, the third assembling cylinder 15 and the fourth assembling cylinder 16 are respectively provided with push blocks matched with the switch terminals.

The spacer is a plurality of elastic components, the spacer is the slope setting, the incline direction of spacer is the direction that assembly device is located, the driving piece is the cylinder, the driving piece drives conveyer belt reciprocating motion, the one end that the conveyer belt is close to second propelling movement cylinder 6 is equipped with the spacer, when the driving piece drives the conveyer belt and stretches out, the conveyer belt removes to the department that is close to second propelling movement cylinder 6, this moment second propelling movement cylinder 6 is with the switch seat propelling movement to conveyer trough 4 in, because the spacer is the slope setting, therefore the mount pad can pass this spacer and be located conveyer trough 4, when the driving piece drives the conveyer belt and withdraws, the spacer drives the mount pad and removes to the downshift position, when the driving piece drives the conveyer belt and stretches out once more, this spacer can drive this mount pad and remove once more, until the mount pad removes to the below of anchor clamps 11, through conveyer belt and spacer cooperation, it is accurate to drive the mount pad removal position can be guaranteed.

When the equipment of the invention is used, the switch seat vibration plate 2 works, the switch seat is conveyed to the outlet of the switch seat conveying guide rail 3 from the inlet of the switch seat conveying guide rail 3, the first pushing cylinder 5 works, the first pushing cylinder 5 pushes the switch seat at the outlet of the switch seat conveying guide rail 3 to the second pushing cylinder 6, the second pushing cylinder 6 pushes the switch seat to the conveying groove 4, meanwhile, the first switch terminal vibration plate 7 and the second switch terminal vibration plate 8 work, the first switch terminal vibration plate 7 conveys the switch terminal from the inlet of the first switch terminal conveying guide rail 9 to the outlet of the first switch terminal conveying guide rail 9, the second switch terminal vibration plate 8 conveys the switch terminal from the inlet of the second switch terminal conveying guide rail 10 to the outlet of the second switch terminal conveying guide rail 10, meanwhile, the first lifting cylinder 12 drives the clamp 11 to move between the outlet of the first switch terminal conveying guide rail 9 and the outlet of the second switch terminal conveying guide rail 10, the first assembling cylinder 13 and the second assembling cylinder 14 push switch terminals at the outlet of the first switch terminal conveying guide rail 9 and at the outlet of the second switch terminal conveying guide rail 10 into through grooves at two sides of the clamp 11, meanwhile, the driving piece drives the conveying belt to work, the switch seat is moved to the lower side of the clamp 11 through the positioning piece, the first lifting cylinder 12 drives the clamp 11 to move downwards to the switch seat, the switch seat is positioned in the opening of the clamp 11, the positioning convex block abuts against the switch seat, so that the switch seat is positioned, then the second lifting cylinder works, the third assembling cylinder 15 and the fourth assembling cylinder 16 are driven to move downwards to two sides of the clamp 11, the third assembling cylinder 15 and the fourth assembling cylinder 16 work, switch terminals in through grooves on two sides of the clamp 11 are pushed to a switch seat in an opening of the clamp 11, the switch terminals are arranged on the switch seat, the first lifting cylinder 12 drives the clamp 11 to reset, the second lifting cylinder drives the third assembly cylinder 15 and the fourth assembly cylinder 16 to reset, and the driving piece drives the conveying belt to work again to move out the micro switch which is assembled. According to the invention, the switch terminal can be automatically mounted on the switch seat, so that the labor cost is saved, and the working efficiency is greatly improved.

Further, the frame 1 is also provided with detection sensors positioned at the conveying groove 4, the detection sensors are positioned at two sides of the conveying groove 4, when the conveying belt and the positioning sheet cooperate to move the microswitch assembled in the conveying groove 4 to the detection sensors, whether a switch terminal is arranged on a mounting seat or not is detected by the detection sensors, the tail end of the conveying groove 4 is provided with a discharging track 17, the discharging track 17 is connected with a finished product outlet 18 and a waste product outlet 19, a finished product charging barrel is arranged below the finished product outlet 18, a waste product charging barrel is arranged below the waste product outlet 19, a baffle 20 is arranged at the joint of the finished product outlet 18 and the waste product outlet 19, a rotating shaft 21 is arranged on the baffle 20, the rotating shaft 21 penetrates through the discharging track 17 and is connected with a driving cylinder 23 through a connecting rod 22, the driving cylinder 23 is matched with the detection sensors, when the switch terminal on the mounting seat of the microswitch assembled detected by the detection sensors is in place, at this time, the driving cylinder 23 drives the rotating shaft 21 to rotate through the connecting rod 22, so that the baffle 20 is positioned at the waste outlet 19, and thus the gap between the waste outlet 19 and the discharging track 17 is closed, at this time, the assembled micro switch can only enter the finished product barrel from the finished product outlet 18, when the switch terminal on the mounting seat of the assembled micro switch detected by the detection sensor is not in place, at this time, the product is not qualified, the driving cylinder 23 drives the rotating shaft 21 to rotate through the connecting rod 22, so that the baffle 20 is positioned at the finished product outlet 18, and thus the gap between the finished product outlet 18 and the discharging track 17 is closed, at this time, the assembled micro switch can only enter the waste barrel from the waste outlet 19, thus the detection is completed, the invention can automatically detect whether the assembly is qualified, and the assembled finished product and the waste can be classified, the detection efficiency and the detection precision are greatly improved, and the use of the micro switch is ensured.

The foregoing description is only of the preferred embodiments of the invention, and all changes and modifications that come within the meaning and range of equivalency of the structures, features and principles of the invention are therefore intended to be embraced therein.

Claims

1. The utility model provides a tubulose motor micro-gap switch equipment, includes frame (1), is equipped with switch seat loading attachment, switch terminal loading attachment, assembly device and transfer device on frame (1), its characterized in that: the switch seat feeding device comprises a switch seat vibration disc (2) and a switch seat conveying guide rail (3), the switch seat vibration disc (2) is used for accommodating the switch seat, an inlet of the switch seat conveying guide rail (3) is connected with the switch seat vibration disc (2), the transfer device comprises a conveying groove (4), a driving piece, a first pushing cylinder (5) and a second pushing cylinder (6), a conveying belt and a positioning piece are arranged in the conveying groove (4), the conveying belt is sleeved on the driving piece and drives the conveying belt to move, the first pushing cylinder (5) is positioned at the outlet of the switch seat conveying guide rail (3), the second pushing cylinder (6) is positioned at the inlet of the conveying groove (4), the first pushing cylinder (5) is used for pushing the switch seat at the outlet of the switch seat conveying guide rail (3) to the second pushing cylinder (6), the second pushing cylinder (6) is used for pushing the switch seat onto the conveying groove (4), the switch terminal feeding device comprises a first switch terminal vibration disc (7), a second switch terminal (8), a first switch terminal (7), a second switch terminal (8) and a second switch terminal (9) are respectively connected with the first switch terminal (7) and the second terminal (9) through the switch terminal vibration disc (8), the inlet of the second switch terminal conveying guide rail (10) is connected with the second switch terminal vibrating plate (8), the first switch terminal conveying guide rail (9) and the second switch terminal conveying guide rail (10) are arranged side by side, the first switch terminal conveying guide rail (9) and the second switch terminal conveying guide rail (10) are positioned above the conveying groove (4), the assembling device comprises a clamp (11), a first lifting cylinder (12), a second lifting cylinder, a first assembling cylinder (13), a second assembling cylinder (14), a third assembling cylinder (15) and a fourth assembling cylinder (16), the clamp (11) is positioned between the outlet of the first switch terminal conveying guide rail (9) and the outlet of the second switch terminal conveying guide rail (10), the first lifting cylinder (12) is connected with the clamp (11) to drive the clamp (11) to move up and down, the first assembling cylinder (13) is positioned beside the inlet of the first switch terminal conveying guide rail (9), the second assembling cylinder (14) is positioned beside the inlet of the second switch terminal conveying guide rail (10), the third assembling cylinder (15) is positioned below the first assembling cylinder (13) and below the fourth assembling cylinder (14), the second lifting cylinder is connected with the third assembling cylinder (15) and the fourth assembling cylinder (16) to drive the third assembling cylinder (15) and the fourth assembling cylinder (16) to move up and down, an opening matched with the switch seat is formed in the bottom of the clamp (11), through grooves matched with the switch terminals are formed in two sides of the clamp (11), and the through grooves are communicated with the opening; the positioning sheet is a plurality of elastic pieces and is obliquely arranged; the bottom of the clamp (11) is also provided with a positioning lug.

2. The tubular motor micro-switch assembly apparatus of claim 1, wherein: the frame (1) is also provided with a detection sensor positioned at the conveying groove (4).

3. The tubular motor micro-switch assembly apparatus of claim 2, wherein: the tail end of the conveying groove (4) is provided with a discharging track (17), a finished product outlet (18) and a waste product outlet (19) are connected to the discharging track (17), a baffle (20) is arranged at the joint of the finished product outlet (18) and the waste product outlet (19), a rotating shaft (21) is arranged on the baffle (20), the rotating shaft (21) penetrates through the discharging track (17) and is connected with a driving cylinder (23) through a connecting rod (22), and the driving cylinder (23) is matched with the detection sensor.

4. The tubular motor micro-switch assembly apparatus of claim 1, wherein: the output ends of the first assembling air cylinder (13), the second assembling air cylinder (14), the third assembling air cylinder (15) and the fourth assembling air cylinder (16) are respectively provided with a pushing block matched with the switch terminal.

5. The tubular motor micro-switch assembly apparatus of claim 1, wherein: the output end of the first pushing cylinder (5) is connected with a pushing block, and a placing groove matched with the switch seat is arranged on the pushing block.

6. The tubular motor micro-switch assembly apparatus of claim 5, wherein: the side of the pushing block is provided with a stop block matched with the outlet of the switch seat conveying guide rail (3).