CN111702211A - Method and equipment for processing lock core - Google Patents

Abstract

The invention discloses a method for processing a lock cylinder, which is characterized by comprising the following steps: the method comprises the following steps: punching a through hole (2) on the side wall of the lock cylinder body (1); step two: placing the door sealing sheet (4) into the lock cylinder body (1); step three: placing an elastic piece (3) into the lock cylinder body (1) along the through hole (2), wherein the elastic piece (3) is tightly pressed on the door sealing sheet (4); step four: the lock core cap (5) is covered on the lock core body (1) and is riveted, and the door sealing sheet (4) seals the key slot (6) in the lock core cap (5). The invention can realize the automatic installation of the door sealing sheet and the spring and effectively improve the efficiency and the quality of the lock cylinder processing.

Description

Method and equipment for processing lock core

Technical Field

The invention relates to lock production equipment, in particular to a manufacturing method and processing equipment of a lock cylinder.

Background

The lock core is an important component of the lock, and when a key is inserted into a lock core hole in the lock core and rotates, the lock can be controlled to be opened and closed. The lock core mainly includes lock core body and lock core cap, the lock core cap carries out the shutoff to the opening at lock core body top to offer and supply key male slot, inside entering into the lock core body for guaranteeing not to have the foreign matter, it carries out the shutoff to the slot on the lock core cap to be provided with the piece of sealing in the lock core body, but the lock core body of traditional structure, its piece of sealing hinges inside the lock core, but this kind of structure need process production through manual operation, the efficiency and the quality that lead to its production and processing are all lower.

Disclosure of Invention

In view of the defects of the background art, the invention aims to provide a manufacturing method of a lock cylinder and a processing device thereof, which can realize the automatic installation of a door sealing sheet and a spring and effectively improve the processing efficiency and quality of the lock cylinder.

Therefore, the invention is realized by adopting the following scheme:

a machining method of a lock cylinder is characterized in that: comprises the following steps of (a) carrying out,

firstly, punching a through hole on the side wall of the lock cylinder body;

step two, placing the door sealing sheet into the lock cylinder body;

placing an elastic piece into the lock cylinder body along the through hole, wherein the elastic piece tightly presses the door sealing sheet;

and step four, placing a lock cylinder cap on the lock cylinder body and connecting the lock cylinder cap with the lock cylinder body, wherein the door sealing sheet is used for sealing a key slot on the lock cylinder cap.

The side wall of the lock cylinder cap seals the through hole.

The utility model provides a lock core processing equipment, transports mechanism, the mechanism of punching, the piece of sealing transports mechanism, elastic component transport mechanism, lock core cap transport mechanism and lock core cap riveting mechanism including the lock core body, the lock core body transports the mechanism and includes lock core body vibration dish the discharge end of lock core body vibration dish is provided with lock core body delivery track one side of lock core delivery track is provided with lock core body transport mechanism, lock core body transport mechanism is connected with left right drive assembly and front and back drive assembly respectively.

The door sealing sheet conveying mechanism comprises a door sealing sheet vibrating disc, a door sealing sheet conveying channel is arranged at the discharge end of the door sealing sheet vibrating disc, a lifting block is arranged above the door sealing sheet conveying channel and connected with a first lifting driving assembly, the first lifting driving assembly is connected to a first moving frame, the first moving frame is connected with a first horizontal driving assembly, a channel is formed in the lifting block, a magnet is arranged in the channel, and the magnet is connected with a second lifting driving assembly.

The punching mechanism comprises a punch, the punch is in transmission connection with a driving motor, and the driving motor is connected with a second horizontal driving assembly.

The elastic part conveying mechanism comprises a spring box, the spring box is connected with a spring distributor through a conveying pipe, the output end of the spring distributor is connected with a first through hole in a feeding block through the conveying pipe, a first moving block is arranged on one side of the feeding block and connected with a third horizontal driving assembly, a second through hole capable of being aligned with the first through hole is formed in the first moving block, a material pushing needle is arranged on one side of the first moving block and connected with a pushing driving assembly.

The lock cylinder cap conveying mechanism comprises a lock cylinder cap vibrating disc, a lock cylinder cap conveying track is arranged at a discharge port of the lock cylinder cap vibrating disc, a guide seat is arranged at the tail end of the lock cylinder cap conveying track, a guide groove is formed in the guide seat, a shifting piece is arranged above the guide groove and is connected with a third lifting driving assembly and a fourth horizontal driving assembly, a pneumatic clamping jaw is arranged on one side of the shifting piece and is connected with the fourth lifting driving assembly, the shifting piece, the third lifting driving assembly, the fourth horizontal driving assembly and the pneumatic clamping jaw are arranged on a second moving frame, and the second moving frame is connected with the fifth horizontal driving assembly.

The riveting mechanism of the lock cylinder cap comprises two riveting claws, the riveting claws are hinged to a second moving block, the second moving block is connected with a sixth horizontal driving assembly, a pushing block is arranged on the moving block, inclined planes in contact with the riveting claws are arranged on two sides of one end, close to the riveting claws, of the pushing block, and the pushing block is connected with a seventh horizontal driving assembly.

By adopting the technical scheme, the invention has the advantages that: the complexity of installing the door sealing piece on the lock cylinder body is effectively simplified, and special processing equipment is adopted to carry out the conveying and installing operation of the door sealing piece, the elastic piece and the lock cylinder cap, so that the processing efficiency and the quality of the lock cylinder are effectively improved.

Drawings

The invention has the following drawings:

FIG. 1 is a split structure view of the lock cylinder of the present invention;

FIG. 2 is a top view of the lock cylinder machining apparatus of the present invention;

FIG. 3 is a block diagram of the present invention at the location of the hole punch mechanism;

FIG. 4 is a structural view of a door closing sheet conveying mechanism according to the present invention;

FIG. 5 is a structural view of the elastic member carrying mechanism of the present invention;

FIG. 6 is a block diagram of the lock cylinder cap transport mechanism of the present invention;

fig. 7 is a structural view of the lock cylinder cap riveting mechanism of the present invention.

Detailed Description

As shown in the figure, the invention discloses a lock core processing method, which is characterized in that: comprises the following steps of (a) carrying out,

firstly, punching a through hole 2 on the side wall of a lock cylinder body 1;

step two, placing the door sealing sheet 4 into the lock cylinder body 1;

placing the elastic piece 3 into the lock cylinder body 1 along the through hole 2, and aligning the elastic piece 3 with the door sealing sheet 4;

step four, the lock cylinder cap 5 is covered on the lock cylinder body 1 and connected together, in the embodiment, the lock cylinder cap 5 and the lock cylinder body 1 are riveted and connected together, the through hole 2 is plugged by the side wall of the lock cylinder cap 5, and the key slot 6 on the lock cylinder cap 5 is plugged by the door sealing piece 4.

The lock cylinder processing equipment applied to the lock cylinder processing method comprises a lock cylinder body conveying mechanism, a punching mechanism, a door sealing sheet conveying mechanism, an elastic piece conveying mechanism, a lock cylinder cap conveying mechanism and a lock cylinder cap riveting mechanism. Specifically, the lock cylinder body conveying mechanism comprises a lock cylinder body vibrating disk 7, a lock cylinder body conveying track 8 is arranged at the discharge end of the lock cylinder body vibrating disk 7, a lock cylinder body transferring mechanism is arranged on one side of the lock cylinder body conveying track 8 and is respectively connected with a left driving component, a right driving component, a front driving component and a rear driving component, in the embodiment, the lock cylinder body transferring mechanism is a clamping block 11, the left side and the right side of the front end of the clamping block 11 are provided with protrusions in an extending mode and enclose a lock cylinder body clamping space, the front driving component and the rear driving component are first air cylinders 12, piston rods of the first air cylinders 12 are connected with first movable plates 18, the clamping block 11 is arranged on the first movable plates 18, the movable plates 18 are movably arranged on second movable plates 51, the front driving component and the rear driving component are second air cylinders 19, the second movable plates 51 are connected with the second air cylinders 19, the clamping block 11 is driven to move towards the lock cylinder body conveying track, then, the second cylinder 19 drives the lock cylinder body clamping jaws 11 and the lock cylinder body to be conveyed backwards together so as to complete subsequent processing operation; the door sealing sheet conveying mechanism comprises a door sealing sheet vibrating disc 10, a door sealing sheet conveying channel 21 is arranged at the discharge end of the door sealing sheet vibrating disc 10, a lifting block 22 is arranged above the door sealing sheet conveying channel 21, the lifting block 22 is connected with a first lifting driving assembly, the first lifting driving assembly is connected onto a first moving frame 25, the first moving frame 25 is connected with a first horizontal driving assembly, in the embodiment, the first lifting driving assembly is a third air cylinder 24, the first horizontal driving assembly is a first oil cylinder 26, a channel is formed in the lifting block 22, a magnet is arranged in the channel and is connected with a second lifting driving assembly, the second lifting driving assembly is a second oil cylinder 23, when a door sealing sheet is conveyed to the tail end of the door sealing sheet conveying channel 21, the first oil cylinder 26 can drive the lifting block 22 to move to the upper side of the door sealing sheet, then the third air cylinder 24 drives the lifting block 22 to descend, and the second oil cylinder 23 drives the magnet to descend, so that the magnet is just positioned at the bottom of the lifting block 22, the door sealing sheet is sucked by the magnet, then the first oil cylinder 26 is controlled to drive the lifting block 22 to move to the upper part of the lock cylinder body, meanwhile, the second oil cylinder 23 drives the magnet to lift, the door sealing sheet is supported by the bottom of the lifting block and cannot rise together with the magnet, the magnetic attraction force borne by the door sealing sheet becomes smaller along with the increase of the distance between the magnet and the door sealing sheet, and finally the door sealing sheet falls into the inside of the lock cylinder body under the action of gravity, the punching mechanism comprises a punch 17, the punch 17 is in transmission connection with a driving motor 9, the driving motor is connected with a second horizontal driving component, in the embodiment, the second horizontal driving component is a fourth air cylinder 18, when the lock cylinder body is conveyed to a punching station, the driving motor 9 drives the punch 17 to rotate, meanwhile, the fourth cylinder 18 drives the punch 17 to approach the cylinder body 1, so as to punch a through hole 2 on the side wall of the cylinder body 1. The elastic part conveying mechanism comprises a spring box 13, the spring box 13 is connected with a spring distributor 28 through a conveying pipe 27, the output end of the spring distributor 28 is connected with a first through hole 32 on a feeding block 31 through the conveying pipe 27, wherein the spring box 13 and the spring distributor 28 are of pneumatic conveying structures, are common devices in the market and belong to the prior art, and therefore description is omitted, a first moving block 33 is arranged on one side of the feeding block 31, the first moving block 33 is connected with a third horizontal driving assembly, a second through hole capable of being aligned with the first through hole 32 is formed in the first moving block 33, a pushing pin 30 is arranged on one side of the first moving block 33, the pushing pin 30 is connected with a pushing driving assembly, in the embodiment, the third horizontal driving assembly is a fifth cylinder 35, the pushing driving assembly is a sixth cylinder 29, the spring 3 is firstly conveyed to the spring distributor 28 through the spring box 13, then the spring distributor 28 conveys the spring to the first through hole 32 on the feeding block 31, and at this time, the fifth cylinder drives the first moving block 33 to move toward the feeding block 31, so that the second through hole is aligned with the first through hole 32, so that the spring can enter the second through hole on the first moving block 33, further, a detector 37 is further arranged above the first moving block 33, a detection hole 36 for the detector 37 to extend into is formed on the first moving block 33, the detector 37 is driven by a seventh cylinder 38 to lift so as to detect whether the spring is conveyed into the second through hole on the first moving block 33, a stopper 52 is further fixedly arranged in front of the first moving block 33, so that the spring can be stably positioned in the second through hole, a third through hole 34 aligned with the pushing pin 30 is formed on the stopper 52, and after the spring is arranged in the first moving block 33, the fifth cylinder 35 drives the first moving block 33 to move back, and the second through hole is aligned with the third through hole 34, then when the lock cylinder body moves to the position, the sixth air cylinder 29 acts to drive the pushing needle 30 to push the spring into the through hole 2 on the lock cylinder body 1, the lock cylinder cap conveying mechanism comprises a lock cylinder cap vibration disc 14, a lock cylinder cap conveying rail 15 is arranged at the discharge port of the lock cylinder cap vibration disc 14, a guide seat 39 is arranged at the tail end of the lock cylinder cap conveying rail 15, a guide groove 40 is arranged on the guide seat 39, a poking sheet 41 is arranged above the guide groove 40, the poking sheet 41 is connected with a third lifting driving component and a fourth horizontal driving component, a pneumatic clamping jaw 43 is arranged at one side of the poking sheet 41, the pneumatic clamping jaw 43 is connected with a fourth lifting driving component, the poking sheet 41, the third lifting driving component, the fourth horizontal driving component and the pneumatic clamping jaw 43 are arranged on a second moving frame 45, the second moving frame 45 is connected with the fifth horizontal driving component, in this embodiment, the third lifting driving component is a third oil cylinder 42, the fourth horizontal driving component is a fourth oil cylinder 46, the fifth horizontal driving component is a fifth oil cylinder 53, the fourth lifting driving component is a seventh air cylinder 44, when the lock cylinder cap 5 is conveyed into the guide groove 40 on the guide base 39, the fourth oil cylinder 46 drives the poking piece 41 to move to the upper side of the lock cylinder cap 5, then the third oil cylinder 42 drives the poking piece 41 to descend, and the fourth oil cylinder 46 drives the poking piece 41 to move back, so that the poking piece 41 pokes the lock cylinder cap to the clamping station, then the fifth oil cylinder 53 drives the pneumatic clamping jaw 43 to move to the upper side of the lock cylinder cap, the seventh air cylinder 44 drives the pneumatic clamping jaw 43 to descend, the seventh air cylinder 44 drives the pneumatic clamping jaw 43 to ascend, the fifth oil cylinder 53 drives the pneumatic clamping jaw 43 to move to the upper side of the lock cylinder body, then the seventh air cylinder drives the pneumatic clamping jaw 43 to descend, and the pneumatic clamping jaw 43 loosens the lock cylinder cap 5, so that the lock cylinder cap 5 falls on the top of the lock cylinder body 1, and the opening on the top of the lock cylinder body 1 is sealed. The lock cylinder cap riveting mechanism comprises two riveting claws 50, the riveting claws 50 are hinged to a second moving block 49, the second moving block 49 is connected with a sixth horizontal driving assembly, a push block 47 is arranged on the second moving block, inclined planes 48 contacting with the riveting claws 50 are arranged on two sides of one end, close to the riveting claws 50, of the push block 47, the push block 47 is connected with a seventh horizontal driving assembly, in the embodiment, the sixth horizontal driving assembly comprises an eighth air cylinder 16, the seventh horizontal driving assembly is a sixth oil cylinder 54, when a lock cylinder body with the lock cylinder cap is conveyed to a riveting station, the eighth air cylinder 16 drives the push block 47 to move, under the extrusion of the inclined planes 48, the front ends of the two riveting claws 50 are driven to be close to each other and extrude the lock cylinder cap 5, and the lock cylinder cap 5 is connected to the lock cylinder body in a riveting mode.

In the embodiment, the various linear driving assemblies all adopt oil cylinders or air cylinders, and besides the above structure, common linear driving mechanisms such as linear motors, ball screws, cams, gear racks and the like can be adopted to realize the actions of the components.

The lock cylinder processing method has the characteristics of few production steps, simplicity and convenience in production and processing and the like, and the automatic equipment can be completely utilized to produce and process the lock cylinder after the mode is adopted, so that the labor intensity of workers is effectively reduced, and the efficiency and the quality of lock cylinder processing are improved.

The invention relates to a lock cylinder processing device, which has the working principle that: the lock core body 1 is firstly conveyed outwards to a lock core body conveying track 8 through a lock core body vibration disc 7, then a lock core body clamping claw 11 drives the lock core body 1 to be conveyed to a punching station, a punch 17 acts to punch a through hole on the side wall of the lock core body 1, meanwhile, a door sealing sheet 4 is conveyed to a door sealing sheet conveying channel 21 through a door sealing sheet vibration disc 10, meanwhile, a lifting block 22 acts, a magnet which moves downwards through the inside of the lifting block sucks the door sealing sheet and conveys the door sealing sheet to the upper side of the punched lock core body 1, then the magnet is controlled to ascend, the door sealing sheet falls into the inside of the lock core body, then the lock core body moves to a spring adding station, a spring is conveyed into the through hole of the lock core body, then the lock core body is conveyed to a lock core cap riveting station, meanwhile, the lock core cap is also conveyed to the station under the driving of a pneumatic clamping claw of a lock core cap conveying mechanism, the lock core cap is placed at, the lock core cap is riveted on the lock core body, the processing operation of the lock core is completed, the whole processing flow completely realizes automatic production, and the processing efficiency and the quality of the lock core are effectively improved.

According to the lock core produced by the invention, when a key is not inserted into the lock core, the door sealing piece 4 can seal the slot 6 on the lock core cap 5, so that no foreign matter enters the lock core, when the key is inserted into the lock core, the door sealing piece is firstly squeezed to swing downwards and then move towards the side edge, the spring 3 is squeezed, and after the key is pulled out, the door sealing piece 4 returns under the action of the spring 3 to seal the slot 6 again.

Claims (8)

1. A machining method of a lock cylinder is characterized by comprising the following steps:

firstly, punching a through hole (2) on the side wall of a lock cylinder body (1);

step two, placing the door sealing sheet (4) into the lock cylinder body (1);

thirdly, placing an elastic piece (3) into the lock cylinder body (1) along the through hole (2), wherein the elastic piece (3) is aligned with the door sealing sheet (4);

fourthly, the lock cylinder cap (5) is covered on the lock cylinder body (1) and connected together, and the door sealing sheet (4) blocks the key slot (6) in the lock cylinder cap (5).

2. A method of manufacturing a lock cylinder according to claim 1, characterized in that the side wall of the cylinder cap (5) blocks the through hole (2).

3. The lock cylinder processing equipment applied to the lock cylinder processing method according to claim 1 is characterized by comprising a lock cylinder body conveying mechanism, a punching mechanism, a door sealing piece conveying mechanism, an elastic piece conveying mechanism, a lock cylinder cap conveying mechanism and a lock cylinder cap riveting mechanism, wherein the lock cylinder body conveying mechanism comprises a lock cylinder body vibrating disc (7), a lock cylinder body conveying track (8) is arranged at the discharge end of the lock cylinder body vibrating disc (7), a lock cylinder body transferring mechanism is arranged on one side of the lock cylinder body conveying track (8), and the lock cylinder body transferring mechanism is respectively connected with a left driving assembly, a right driving assembly, a front driving assembly and a rear driving assembly.

4. The lock cylinder processing equipment according to claim 3, wherein the door sealing sheet conveying mechanism comprises a door sealing sheet vibrating disc (10), a door sealing sheet conveying channel (21) is arranged at the discharge end of the door sealing sheet vibrating disc (10), a lifting block (22) is arranged above the door sealing sheet conveying channel (21), the lifting block (22) is connected with a first lifting driving component, the first lifting driving component is connected to a first moving frame (25), the first moving frame (25) is connected with a first horizontal driving component, a channel is formed in the lifting block (22), a magnet is arranged in the channel, and the magnet is connected with a second lifting driving component.

5. The lock cylinder processing device according to claim 3, characterized in that the punching mechanism comprises a punch (17), the punch (17) is in transmission connection with a drive motor (9), and the drive motor is connected with a second horizontal drive assembly.

6. The lock cylinder processing device according to claim 3, wherein the elastic member conveying mechanism comprises a spring box (13), the spring box (13) is connected with a spring distributor (28) through a conveying pipe (27), the output end of the spring distributor (28) is connected with a first through hole (32) on a feeding block (31) through the conveying pipe (27), a first moving block (33) is arranged on one side of the feeding block (31), the first moving block (33) is connected with a third horizontal driving assembly, a second through hole capable of aligning with the first through hole (32) is formed in the first moving block (33), a pushing pin (30) is arranged on one side of the first moving block (33), and the pushing pin (30) is connected with a pushing driving assembly.

7. The lock cylinder processing equipment according to claim 3, wherein the lock cylinder cap conveying mechanism comprises a lock cylinder cap vibrating disk (14), a lock cylinder cap conveying rail (15) is arranged at a discharge port of the lock cylinder cap vibrating disk (14), a guide seat (39) is arranged at the tail end of the lock cylinder cap conveying rail (15), a guide groove (40) is formed in the guide seat (39), a poking sheet (41) is arranged above the guide groove (40), the poking sheet (41) is connected with a third lifting driving assembly and a fourth horizontal driving assembly, a pneumatic clamping jaw (43) is arranged on one side of the poking sheet (41), the pneumatic clamping jaw (43) is connected with a fourth lifting driving assembly, and the poking sheet (41), the third lifting driving assembly, the fourth horizontal driving assembly and the pneumatic clamping jaw (43) are arranged on a second moving frame (45), the second movable frame (45) is connected with a fifth horizontal driving assembly.

8. The lock cylinder processing device according to claim 3, wherein the lock cylinder cap riveting mechanism comprises two riveting claws (50), the riveting claws (50) are hinged to a second moving block (49), the second moving block (49) is connected with a sixth horizontal driving assembly, a push block (47) is arranged on the second moving block, inclined planes (48) which are in contact with the riveting claws (50) are arranged on two sides of one end, close to the riveting claws (50), of the push block (47), and the push block (47) is connected with a seventh horizontal driving assembly.

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