CN212886094U - Automatic lock cylinder assembling device - Google Patents

Abstract

The utility model discloses an automatic lock cylinder assembling device, which comprises a frame, a clamping mechanism, two assembling mechanisms and a spring feeding mechanism; the frame is provided with two first sliding groove groups; the clamping mechanism is provided with an installation station; the two assembling mechanisms respectively push the locking plates in the corresponding first sliding groove groups to be inserted into the corresponding locking plate grooves on the lock core; the spring feeding mechanism is arranged on the rack and positioned beside one assembling mechanism, and the output end of the spring feeding mechanism is connected with the output end of the assembling mechanism. The lock cylinder is clamped through the clamping mechanism, then the two assembling mechanisms push the lock plate to be inserted into the lock plate groove of the lock cylinder, and the two assembling mechanisms simultaneously drive the clamping mechanism to clamp the lock cylinder in the process of pushing the lock plate, so that the use is more flexible and ingenious. And one of the assembling mechanisms is matched with the spring feeding mechanism for use, and the spring can be assembled on the locking plate in the process of pushing the locking plate, so that the structural design is novel and reasonable. And compared with manual assembly, the efficiency is greatly improved, the quality of the product is ensured, and the cost is reduced.

Description

Automatic lock cylinder assembling device

Technical Field

The utility model relates to a lock core equipment field technique especially indicates an automatic assembly device of lock core.

Background

The traditional lock cylinder assembly is carried out by hands, the hands assemble the lock cylinder spring and the lock cylinder locking plate onto the lock cylinder, and the operation mode of hand assembly is low in assembly efficiency and poor in assembly effect, and further causes high labor intensity and high labor cost of workers.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides an automatic assembly device of lock core, and its operating method who has effectively solved the staff equipment not only the packaging efficiency is low, the equipment effect is poor, still leads to the big and high problem of labour cost of workman's intensity of labour.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an automatic lock cylinder assembling device comprises a frame, a clamping mechanism for clamping a lock cylinder and two assembling mechanisms for pushing a lock plate to be inserted into the lock cylinder; the frame is provided with two first sliding groove groups for placing locking plates; the clamping mechanism is arranged on the rack and positioned between the output ends of the two first sliding groove groups, and is provided with an installation station for placing the lock cylinder; the two assembling mechanisms are arranged on the rack and are respectively positioned beside the input end sides of the two first sliding groove groups, and the two assembling mechanisms respectively push the locking plates in the corresponding first sliding groove groups to be inserted into the corresponding locking plate grooves on the lock cylinder.

As a preferred scheme, the clamping mechanism comprises a positioning block, two clamping components for clamping the lock cylinder and an upper jacking component for jacking the lock cylinder; the positioning block is fixed on the frame, two positioning parts extend outwards from the positioning block, the two positioning parts are arranged at intervals up and down, and the mounting station is formed between the two positioning parts; the two clamping components are arranged on the rack in a left-right sliding manner and are respectively positioned on two sides of the positioning block, the two clamping components are respectively provided with a second sliding chute group, the input ends of the two second sliding chute groups are communicated with the output end of the corresponding first sliding chute group, and the two second sliding chute groups are arranged in a front-back staggered manner; the upper top assembly is arranged on the rack and is positioned below the positioning block.

As a preferred scheme, the rack is provided with a slide rail, correspondingly, the two clamping components are provided with slide blocks, and the slide blocks are installed in a sliding fit with the slide rail.

As a preferred scheme, the clamping assembly comprises a base plate, a mounting block and a clamping block; the base plate is arranged on the slide rail through the slide block; the mounting block is fixed on the substrate and moves along with the substrate; the clamping block is arranged on the mounting block, the second sliding groove group is located on the clamping block, and an arc-shaped groove matched with the appearance of the lock cylinder is concavely arranged on one side, close to the mounting station, of the clamping block.

As a preferable scheme, a plurality of tooth-shaped grooves which play a role in positioning the locking plate are concavely arranged on the inner wall of the upper end of the arc-shaped groove, and the plurality of tooth-shaped grooves are respectively positioned beside the second sliding groove group.

As a preferable scheme, the upward jacking assembly comprises a driving source and a jacking block, wherein the driving source is fixed on the rack and positioned below the positioning block; the ejector block is arranged on an output shaft of the driving source, penetrates through the positioning part positioned below, and drives the ejector block to move up and down in the installation station; and the driving source is a cylinder, a servo motor or a stepping motor.

As a preferred scheme, the assembling mechanism comprises a servo motor, a screw rod, a nut piece, a mounting seat, a pushing piece and a push plate for pushing the locking plate; the servo motor is arranged on the frame; the screw rod is rotatably arranged on the frame, and the servo motor drives the screw rod to rotate; the nut piece is in threaded connection with the screw rod, and the screw rod drives the nut piece to move back and forth left and right; the mounting seat is arranged on the nut piece and moves back and forth left and right along with the nut piece; the pushing piece is arranged on the mounting seat and moves along with the mounting seat, and pushes the clamping assembly to move towards the mounting station; the push plate is arranged on the mounting seat and moves along with the mounting seat, the clamping block is provided with a through groove for the push plate to pass through, and the through groove is communicated with the second sliding groove group.

As a preferred scheme, the pushing piece is an air cylinder, and an output shaft of the air cylinder pushes the clamping assembly to drive the clamping assembly to move towards the installation station.

As a preferred scheme, the clamping device further comprises a pushing cylinder used for driving the two clamping components to be far away from the installation station, the pushing cylinder is located below the positioning block, and the two clamping components are fixedly connected with an output shaft of the pushing cylinder and the bottom surface of the pushing cylinder respectively.

As a preferred scheme, the spring feeding mechanism comprises a spring vibration disc, a conveying pipe, a pipe connecting block, a first air cylinder, a second air cylinder and a movable block; the spring vibration disc is positioned above the clamping mechanism; the connecting pipe block can be movably arranged on one clamping component left and right, and the conveying pipe is connected between the spring vibration disc and the connecting pipe block; the first cylinder is arranged on the rack and drives the connecting pipe block to move back and forth left and right; the second cylinder is arranged on the frame; the movable block is arranged on an output shaft of the second cylinder, the second cylinder drives the movable block to move back and forth above the corresponding second sliding groove group, an accommodating space for accommodating the spring is formed in the bottom surface of the movable block, the accommodating space is connected with the output end of the conveying pipe, and an opening for inserting the upper end of the lock piece penetrates through the bottom surface of the accommodating space

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme:

the lock cylinder is clamped through the clamping mechanism, then the two assembling mechanisms push the lock plate to be inserted into the lock plate groove of the lock cylinder, and the two assembling mechanisms simultaneously drive the clamping mechanism to clamp the lock cylinder in the process of pushing the lock plate, so that the use is more flexible and ingenious. And one of the assembling mechanisms is matched with the spring feeding mechanism for use, and the spring can be assembled on the locking plate in the process of pushing the locking plate, so that the structural design is novel and reasonable. And compared with manual assembly, the efficiency is greatly improved, the quality of the product is ensured, and the cost is reduced.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a perspective view of a preferred embodiment of the present invention;

FIG. 2 is another perspective view of the preferred embodiment of the present invention;

FIG. 3 is a perspective view of a hidden portion of the frame according to the preferred embodiment of the present invention;

FIG. 4 is a partial assembly view of the preferred embodiment of the present invention;

FIG. 5 is a partial assembly view from another angle of the preferred embodiment of the present invention;

FIG. 6 is a perspective view of a clamp block in a preferred embodiment of the present invention;

FIG. 7 is another perspective view of the clamp block of the preferred embodiment of the present invention;

FIG. 8 is a perspective view of the movable block in the preferred embodiment of the present invention;

FIG. 9 is a perspective view of the assembly mechanism in the preferred embodiment of the present invention;

FIG. 10 is a perspective view of the lock cylinder;

fig. 11 is a perspective view of the two locking tabs and the spring after assembly.

The attached drawings indicate the following:

10. frame 11, slide rail

101. First sliding groove group 20 and clamping mechanism

21. Positioning block 211 and positioning part

201. Mounting station 22, clamping assembly

221. Substrate 222 and mounting block

223. Clamping block 202 and second sliding groove group

203. Arc-shaped groove 204 and through groove

23. Top assembly 231, drive source

232. Ejector block 24 and sliding block

25. Pushing cylinder 30 and assembling mechanism

31. Servo motor 32, screw rod

33. Nut member 34, mounting seat

35. Ejector 36 and push plate

40. Spring feeding mechanism 41 and spring vibration disc

42. Pipe connecting block 43 and first cylinder

44. Second cylinder 45, movable block

451. Mounting space 452, opening

50. Lock sheet 60 and lock cylinder

70. A spring.

Detailed Description

Referring to fig. 1 to 11, a specific structure of a preferred embodiment of the present invention is shown, which includes a frame 10, a clamping mechanism 20 for clamping a lock cylinder, a two-assembly mechanism 30 for pushing a lock plate to be inserted into the lock cylinder, and a spring feeding mechanism 40 for feeding a spring.

The frame 10 has two first sets of sliding grooves 101 for receiving the locking tabs 50. The clamping mechanism 20 is disposed on the rack 10 between the output ends of the two first chute groups 101, and the clamping mechanism 20 has an installation station 201 for placing the lock cylinder 60. The clamping mechanism 20 comprises a positioning block 21, two clamping assemblies 22 for clamping the lock cylinder and an upper jacking assembly 23 for jacking the lock cylinder. The positioning block 21 is fixed on the frame 10, two positioning portions 211 extend outwards from the positioning block 21, the two positioning portions 211 are arranged at intervals up and down, and the installation station 201 is formed between the two positioning portions 211.

The two clamping assemblies 22 are slidably disposed on the frame 10 from left to right and located on two sides of the positioning block 21, specifically, the frame 10 is provided with a slide rail 11, and correspondingly, the two clamping assemblies 22 are provided with sliders 24, and the sliders 24 are slidably fitted with the slide rail 11. The two clamping assemblies 22 are respectively provided with a second sliding groove group 202, the input ends of the two second sliding groove groups 202 are communicated with the output end of the corresponding first sliding groove group 101, and the two second sliding groove groups 202 are arranged in a staggered manner from front to back. The clamping assembly 22 comprises a base plate 221, a mounting block 222 and a clamping block 223; the base plate 221 is mounted on the slide rail 11 via the slider 24. The mounting block 222 is fixed to the substrate 221 and moves with the substrate 221. The clamping block 223 is arranged on the mounting block 222, the second sliding groove group 202 is arranged on the clamping block 223, and an arc-shaped groove 203 matched with the appearance of the lock cylinder is concavely arranged on one side of the clamping block 223 close to the mounting station 201, so that clamping damage when the clamping block 223 clamps the lock cylinder 60 is avoided. And a plurality of tooth-shaped grooves (not shown) for positioning the locking plate are concavely arranged on the inner wall of the upper end of the arc-shaped groove 203, the plurality of tooth-shaped grooves are respectively positioned at the sides of the second sliding groove group 202, for example, the locking plate at the left side enters the lock cylinder and can be pushed onto the tooth-shaped groove of the clamping component 22 at the right side, and the tooth-shaped grooves play a role in positioning and prevent the locking plate at the right side from entering to have interference.

The upper top assembly 23 is disposed on the frame 10 and below the positioning block 21. The upper pushing assembly 23 includes a driving source 231 and a pushing block 232, and the driving source 231 is fixed on the frame 10 and located below the positioning block 21. The ejector block 232 is arranged on an output shaft of the driving source 231, the ejector block 232 penetrates through the positioning portion 211 located below, the driving source 231 drives the ejector block 232 to move up and down in the installation station 201, the driving source 231 drives the ejector block 232 to move upwards, the positioning groove 602 is formed in the lock cylinder 60, the ejector block 232 is inserted into the positioning groove 602 and ejects the lock cylinder 60 to the installation station 201, and therefore the position of the lock cylinder 60 in the installation station 201 is installed without errors. And the driving source 231 is an air cylinder, a servo motor, or a stepping motor.

The two assembling mechanisms 30 are both disposed on the rack 10 and located beside the input ends of the two first sliding groove sets 101, and the two assembling mechanisms 30 respectively push the locking plates 50 in the corresponding first sliding groove sets 101 to be inserted into the corresponding locking plate grooves 601 on the lock cylinder 60. Specifically, the assembling mechanism 30 includes a servo motor 31, a screw 32, a nut member 33, a mounting seat 34, a pushing member 35, and a pushing plate 36 for pushing the locking plate. The servo motor 31 is provided on the frame 10. The screw 32 is rotatably provided on the frame 10, and the servo motor 31 drives the screw 32 to rotate. The nut member 33 is screwed to the screw 32, and the screw 32 drives the nut member 33 to move back and forth right and left. The mounting seat 34 is provided on the nut member 33 and moves back and forth left and right with the nut member 33. The pushing member 35 is disposed on the mounting seat 34 and moves along with the mounting seat 34, and the pushing member 35 pushes the clamping assembly 22 to move to the mounting station 201, in this embodiment, the pushing member 35 is a cylinder, an output shaft of the cylinder pushes the clamping assembly 22 to drive the clamping assembly 22 to move to the mounting station 201, an output shaft of the cylinder does not move, the cylinder only plays a role of pushing the clamping assembly 22, and the cylinder is a hard pushing member, which has a buffering property and avoids hard contact; and compared with a spring-type pushing piece, the service life of the air cylinder is longer. The push plate 36 is disposed on the mounting seat 34 and moves with the mounting seat 34, and the clamping block 223 is provided with a through groove 204 for the push plate 36 to pass through, the through groove 204 is communicated with the second sliding groove group 202, the push plate 36 is sequentially pushed out along the first sliding groove group 101 and the second sliding groove group 202, so as to push the lock sheet 50 in the first sliding groove group 101 into the second sliding groove group 202, and finally, the lock sheet is pushed into the lock core 60 from the second sliding groove group 202.

The device also comprises a pushing cylinder 25 for driving the two clamping components to be far away from the installation station, wherein the pushing cylinder 25 is positioned below the positioning block 21, and the two clamping components 22 are respectively and fixedly connected with an output shaft of the pushing cylinder 25 and the bottom surface of the pushing cylinder 25. The pushing cylinder 25 is suspended, and a reaction force is generated in the process of pushing out the output shaft of the pushing cylinder 25, so that the clamping components connected with the two ends of the pushing cylinder 25 are respectively pushed out.

The spring feeding mechanism 40 is disposed on the frame 10, and an output end of the spring feeding mechanism 40 is connected to an output end of the assembling mechanism 30. The spring feeding mechanism 40 includes a spring vibration plate 41, a conveying pipe (not shown), a pipe connecting block 42, a first cylinder 43, a second cylinder 44, and a movable block 45. The spring vibration plate 41 is located above the clamping mechanism 20. The adapter block 42 is movably disposed on one of the clamping assemblies 22 in a left-right direction, and the delivery pipe is connected between the spring vibration plate 41 and the adapter block 42. The first air cylinder 43 is arranged on the frame 10, the first air cylinder 43 drives the pipe connecting block 42 to move left and right back and forth, and the first air cylinder 43 is convenient for taking out and maintaining the pipe connecting block 42. The second cylinder 44 is disposed on the frame 10. This movable block 45 sets up on the output shaft of second cylinder 44, and second cylinder 44 drive movable block 45 is in the back and forth movement from top to bottom above the second spout 202 group that corresponds, and the bottom surface of movable block 45 is seted up and is supplied the installation space 451 that the spring was placed, and installation space 451 is connected with the output of conveyer pipe, and the bottom surface of installation space 451 runs through and has supplied the male opening 452 of lock piece upper end.

Detailed description the working principle of the present embodiment is as follows:

step one, manually placing the lock cylinder 60 in the installation station 201, and facing the positioning groove 602 of the lock cylinder 60 downward.

And step two, starting the equipment, wherein the driving source 231 pushes the top block 232 to move upwards, and the top block 232 is inserted into the lock cylinder 60, so that the lock cylinder 60 is fixed in the installation station 201.

And step three, the spring feeding mechanism 40 starts to work, the spring enters the placing space 451 of the movable block 45, and then the second air cylinder 44 drives the movable block 45 to press down to a specified position.

Step four, the two assembling mechanisms 30 start to work synchronously, and the servo motor 31 drives the push plate 36 and the pushing piece 35 to move towards the two clamping components 22; and the pushing member 35 pushes against the clamping member 22, so as to cause the clamping member 22 to slide to the arc-shaped groove 203 toward the installation station 201 to clamp the lock cylinder 60, and simultaneously, the pushing plate 36 pushes the lock sheet 50 in the first groove group 101 into the second groove group 202, and the lock sheet 50 is pushed into the lock sheet groove 601 of the lock cylinder 60 through the second groove group 202. The two-assembling mechanism 30 pushes the two locking plates 50 into the same locking plate groove 601 of the lock cylinder 60 from the left and right sides respectively, the outer ends of the locking plates 40 abut against the corresponding clamping blocks 223 to be installed in place, and the two locking plates 50 are staggered back and forth and abut against each other.

Step five, in the process of step four, when the first assembling mechanism 30 pushes the lock plate 50 to reach the output end position of the second sliding groove group 202, the lock plate 50 is inserted into the placing space 451, so that one end of the spring 70 is assembled on the lock plate 50, the assembling mechanism 30 continues to push the lock plate 50 out of the placing space 451, so that the lock plate 50 with the spring 70 enters the lock plate groove 601 of the lock cylinder, the other end of the spring 70 abuts against the other lock plate 50 in the same lock plate groove 601, and after the assembly is finished.

The utility model discloses a design focus lies in: the lock cylinder is clamped through the clamping mechanism, then the two assembling mechanisms push the lock plate to be inserted into the lock plate groove of the lock cylinder, and the two assembling mechanisms simultaneously drive the clamping mechanism to clamp the lock cylinder in the process of pushing the lock plate, so that the use is more flexible and ingenious. And one of the assembling mechanisms is matched with the spring feeding mechanism for use, and the spring can be assembled on the locking plate in the process of pushing the locking plate, so that the structural design is novel and reasonable. And compared with manual assembly, the efficiency is greatly improved, the quality of the product is ensured, and the cost is reduced.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a lock core automatic assembly device which characterized in that: comprises a frame, a clamping mechanism for clamping the lock cylinder, two assembling mechanisms for pushing the lock plate to be inserted into the lock cylinder and a spring feeding mechanism for conveying a spring; the frame is provided with two first sliding groove groups for placing locking plates; the clamping mechanism is arranged on the rack and positioned between the output ends of the two first sliding groove groups, and is provided with an installation station for placing the lock cylinder; the two assembling mechanisms are arranged on the frame and are respectively positioned beside the input end sides of the two first sliding groove groups, and the two assembling mechanisms respectively push the locking plates in the corresponding first sliding groove groups to be inserted into the corresponding locking plate grooves on the lock cylinder; the spring feeding mechanism is arranged on the rack and positioned beside one assembling mechanism, and the output end of the spring feeding mechanism is connected with the output end of the assembling mechanism.

2. The automatic assembly device of lock cylinder according to claim 1, characterized in that: the clamping mechanism comprises a positioning block, two clamping components for clamping the lock cylinder and an upper jacking component for jacking the lock cylinder; the positioning block is fixed on the frame, two positioning parts extend outwards from the positioning block, the two positioning parts are arranged at intervals up and down, and the mounting station is formed between the two positioning parts; the two clamping components are arranged on the rack in a left-right sliding manner and are respectively positioned on two sides of the positioning block, the two clamping components are respectively provided with a second sliding chute group, the input ends of the two second sliding chute groups are communicated with the output end of the corresponding first sliding chute group, and the two second sliding chute groups are arranged in a front-back staggered manner; the upper top assembly is arranged on the rack and is positioned below the positioning block.

3. The automatic assembly device of lock cylinder according to claim 2, characterized in that: the rack is provided with a slide rail, the two corresponding clamping components are provided with slide blocks, and the slide blocks are installed in a sliding fit with the slide rail.

4. The automatic assembly device of lock cylinder according to claim 3, characterized in that: the clamping assembly comprises a substrate, a mounting block and a clamping block; the base plate is arranged on the slide rail through the slide block; the mounting block is fixed on the substrate and moves along with the substrate; the clamping block is arranged on the mounting block, the second sliding groove group is located on the clamping block, and an arc-shaped groove matched with the appearance of the lock cylinder is concavely arranged on one side, close to the mounting station, of the clamping block.

5. The automatic assembly device of lock cylinder according to claim 4, characterized in that: a plurality of tooth-shaped grooves which play a role in positioning the locking plate are concavely arranged on the inner wall of the upper end of the arc-shaped groove, and the tooth-shaped grooves are respectively positioned beside the second sliding groove group.

6. The automatic assembly device of lock cylinder according to claim 2, characterized in that: the upper jacking assembly comprises a driving source and a jacking block, and the driving source is fixed on the rack and positioned below the positioning block; the ejector block is arranged on an output shaft of the driving source, penetrates through the positioning part positioned below, and drives the ejector block to move up and down in the installation station; and the driving source is a cylinder, a servo motor or a stepping motor.

7. The automatic assembly device of lock cylinder according to claim 4, characterized in that: the assembling mechanism comprises a servo motor, a screw rod, a nut piece, a mounting seat, a pushing piece and a push plate for pushing the locking plate; the servo motor is arranged on the frame; the screw rod is rotatably arranged on the frame, and the servo motor drives the screw rod to rotate; the nut piece is in threaded connection with the screw rod, and the screw rod drives the nut piece to move back and forth left and right; the mounting seat is arranged on the nut piece and moves back and forth left and right along with the nut piece; the pushing piece is arranged on the mounting seat and moves along with the mounting seat, and pushes the clamping assembly to move towards the mounting station; the push plate is arranged on the mounting seat and moves along with the mounting seat, the clamping block is provided with a through groove for the push plate to pass through, and the through groove is communicated with the second sliding groove group.

8. The automatic assembly device of lock cylinder according to claim 7, characterized in that: the pushing piece is an air cylinder, and an output shaft of the air cylinder pushes the clamping assembly to drive the clamping assembly to move towards the installation station.

9. The automatic assembly device of lock cylinder according to claim 2, characterized in that: the clamping mechanism is characterized by further comprising a pushing cylinder used for driving the two clamping components to be far away from the installation station, the pushing cylinder is located below the positioning block, and the two clamping components are fixedly connected with an output shaft of the pushing cylinder and the bottom surface of the pushing cylinder respectively.

10. The automatic assembly device of lock cylinder according to claim 2, characterized in that: the spring feeding mechanism comprises a spring vibration disc, a conveying pipe, a pipe connecting block, a first air cylinder, a second air cylinder and a movable block; the spring vibration disc is positioned above the clamping mechanism; the connecting pipe block can be movably arranged on one clamping component left and right, and the conveying pipe is connected between the spring vibration disc and the connecting pipe block; the first cylinder is arranged on the rack and drives the connecting pipe block to move back and forth left and right; the second cylinder is arranged on the frame; this movable block sets up on the output shaft of second cylinder, and the second cylinder drive movable block makes a round trip to move about from top to bottom in the second spout group top that corresponds, and the laying space that supplies the spring to place is seted up to the bottom surface of movable block, and the laying space is connected with the output of conveyer pipe, and the bottom surface of laying space runs through has the opening that supplies the lock chip upper end male.

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