CN210060539U - Lock cylinder perforating machine - Google Patents

Abstract

The utility model relates to a tool to lock processing equipment, concretely relates to lock core puncher. A lock cylinder puncher is characterized in that a lock cylinder to be machined is placed in a vibration feeding tray and is conveyed to the lock cylinder puncher through a conveying channel; the lock core puncher includes: frame, drilling mechanism, positioning mechanism, transfer mechanism and fixture. The drilling mechanism includes: the drilling machine comprises a vertical frame, a horizontal moving mechanism, a pressing mechanism, a motor and a drill bit. The transfer mechanism includes: sideslip cylinder, sideslip pole, material pushing cylinder and cut-off cylinder. The positioning mechanism includes: industrial cameras and industrial computers; the industrial computer is arranged on one side of the rack, the industrial camera is arranged above the substitute-processed lock cylinder and used for identifying the mark position of the substitute-processed lock cylinder, and the industrial computer is used for calculating the coordinate of the mark position of the substitute-processed lock cylinder so as to accurately control the drilling position of the drill bit.

Description

Lock cylinder perforating machine

Technical Field

The utility model relates to a tool to lock processing equipment, concretely relates to lock core puncher.

Background

Padlocks are the oldest and bulky families in the world of locks, and other locks are said to be derived from padlocks and other doors. The lock body of the padlock is provided with a metal stem which can be buckled and connected in a ring shape or a straight shape, namely a 'lock beam', so that the padlock is directly buckled with the lock body through the lock beam to form a closed lock. The padlock rotates by twisting the lock cylinder through the key, the lock cylinder rotates to drive the lock head to move, and the lock beam is driven to be separated from the lock body, so that unlocking is realized. The lock core is an important part in the whole padlock and is processed by a lock core punching machine.

At present, the lock core lathe of punching that has on the market belongs to the lock core lathe of punching of manual operation type, and it mainly includes lathe bed, lock core anchor clamps, drilling mechanism in the structure, needs the manual work before the processing to put into the lock core anchor clamps with waiting to process the lock core and presss from both sides tightly, controls drilling mechanism again and drills to it, and after the drilling was accomplished, unclamp the lock core anchor clamps through the manual work at last and carry out the unloading. Simultaneously, because drilling mechanism can only do linear feed motion relatively the lathe bed, and the lock core bores the bullet hole and usually needs to bore one row (4-7) of bullet hole on the lock core, consequently, adopt the lock core of above-mentioned manual operation type lathe of punching to need loosen the lock core anchor clamps earlier after having bored a bullet hole, will wait to process the lock core and shift up and bore next bullet hole site after and press from both sides tight lock core anchor clamps, control drilling mechanism again and drill the hole to next bullet hole, such operational mode is repeated until the processing is accomplished so, such operational mode is not only the process loaded down with trivial details, the efficiency is not high, and the machining precision can't be guaranteed, in addition one person can only operate such lock core lathe of punching of a platform simultaneously.

SUMMERY OF THE UTILITY MODEL

The invention aims to solve the problems in the prior art, and provides an automatic punching machine for punching a lock cylinder, which can accurately drill holes and has high working efficiency.

A lock cylinder puncher is characterized in that a lock cylinder to be machined is placed in a vibration feeding tray and is conveyed to the lock cylinder puncher through a conveying channel; the lock core puncher includes: the method comprises the following steps: the drilling machine comprises a rack, a drilling mechanism, a positioning mechanism, a transfer mechanism and a clamping mechanism; the drilling mechanism includes: the drilling machine comprises a vertical frame, a horizontal moving mechanism, a pressing mechanism, a motor and a drill bit; the grudging post is vertical to be set up in the frame, horizontal migration mechanism includes: the first horizontal sliding rail, the first sliding block and the fixed clamping plate are arranged on the first sliding block; the first horizontal sliding rail is fixed on the vertical frame along the horizontal direction, and the fixed clamping plate is connected to the first horizontal sliding rail in a sliding manner through the first sliding block; the mechanism pushes down includes: the clamping rod is fixed on a piston rod of the hydraulic oil cylinder; the motor is fixed on the clamping rod, and the drill bit is rotatably arranged on an output shaft of the motor; the transfer mechanism comprises: the device comprises a transverse moving cylinder, a transverse moving rod, a material pushing cylinder and a stop cylinder; the lock cylinder conveyed by the vibration feeding plate is embedded on the transverse moving rod and moves along the transverse moving rod under the action of the transverse moving cylinder, when the lock cylinder to be processed reaches a proper position, the lock cylinder to be processed stops moving under the action of the stop cylinder, and the lock cylinder to be processed reaches the clamping mechanism under the action of the material pushing cylinder; the fixture includes: the device comprises a movable clamp, a static clamp and a clamping cylinder; the movable clamp and the static clamp surround the lock cylinder to be processed, and the movable clamp clamps the lock cylinder to be processed under the action of the material clamping cylinder; the positioning mechanism includes: industrial cameras and industrial computers; the industrial computer is arranged on one side of the rack, the industrial camera is arranged above the lock cylinder to be processed and used for identifying the mark position of the lock cylinder to be processed, and the industrial computer is used for calculating the coordinate of the mark position of the lock cylinder to be processed so as to accurately control the drilling position of the drill bit.

Furthermore, the material clamping cylinders are arranged on two sides of the static clamp, a second horizontal slide rail is arranged on the rack below the clamping device, the clamping device is connected to the second horizontal slide rail through a second sliding block in a sliding mode, the second material pushing cylinder is arranged on one side of the clamping mechanism, and a piston rod of the second material pushing cylinder pushes the second sliding block to move along the second horizontal slide rail.

Further, the drilling mechanism is provided in at least one group.

Further, the first horizontal sliding rail and the second horizontal sliding rail are provided with 2 linear rails.

Furthermore, an emergency stop button is arranged on the rack and used for emergency and emergency stop of the device.

Further, a cooling device is installed on the machine frame and used for cooling the drill bit.

The utility model discloses owing to adopted above-mentioned technical scheme, following beneficial effect has: the industrial computer is arranged on one side of the rack, the industrial camera is arranged above the lock cylinder to be processed and used for identifying the mark position of the lock cylinder to be processed, the industrial camera is controlled by the industrial computer to identify the mark position of the lock cylinder to be processed, and the device can accurately identify the mark position of the lock cylinder to be processed, so that the inaccuracy of manual positioning is avoided. The lock cylinder to be processed is placed in the vibration feeding tray and is conveyed into the transfer mechanism through the conveying channel; the lock core to be machined is embedded on the transverse moving rod, the lock core to be machined is conveyed to a reasonable position under the action of the transverse moving cylinder, the lock core to be machined stops moving under the action of the stop cylinder, the lock core to be machined reaches a clamping station under the action of the material pushing cylinder, the movable clamp and the static clamp surround the lock core to be machined, the movable clamp clamps the lock core to be machined under the action of the material clamping cylinder, and the lock core to be machined is prevented from loosening during drilling.

Drawings

Fig. 1 is a front view of the present invention;

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

fig. 3 is a schematic structural view of the clamping mechanism of the present invention;

in the figure: 1. a frame; 2. a drilling mechanism; 21. erecting a frame; 22. a horizontal movement mechanism; 221. a first horizontal slide rail; 222. a first slider; 223. fixing the clamping plate; 23. a pressing mechanism; 231. a hydraulic cylinder; 232. a clamping rod; 24. A motor; 25. a drill bit; 3. a positioning mechanism; 31. an industrial camera; 32. an industrial computer; 4. a transfer mechanism; 41. a transverse moving cylinder; 42. a traversing rod; 43. a material pushing cylinder; 44. a cut-off cylinder; 5. a clamping mechanism; 51. moving the clamp; 52. A static clamp; 53. a material clamping cylinder; 6. an emergency stop button; 7. a cooling device; 8. a second horizontal slide rail; 9. a second slider; 10. and the second material pushing cylinder.

Detailed Description

The following describes preferred embodiments of the present invention in detail with reference to the accompanying drawings.

As shown in fig. 1 to 3, a lock cylinder punching machine, a lock cylinder to be processed is placed in a vibration feeding tray and is conveyed to the lock cylinder punching machine through a conveying channel; the lock core puncher includes: the drilling machine comprises a frame 1, a drilling mechanism 2, a positioning mechanism 3, a transfer mechanism 4 and a clamping mechanism 5. The drilling mechanism 2 is provided with at least one set, and the drilling mechanism 2 includes: a stand 21, a horizontal moving mechanism 22, a pressing mechanism, a motor 24 and a drill 25. The stand 21 is vertically provided on the frame 1, and the horizontal movement mechanism 22 includes: a first horizontal slide rail 221, a first slider 222 and a fixing clamp plate 223; the first horizontal sliding rail 221 has 2 linear rails, and is fixed on the vertical frame 1 along the horizontal direction, and the fixed clamp plate 223 is slidably connected to the first horizontal sliding rail 221 through the first sliding block 222. The pressing mechanism 23 includes: a hydraulic oil cylinder 231 and a clamping rod 232, wherein the hydraulic oil cylinder 231 is arranged above the fixed clamping plate 223, and the clamping rod 232 is fixed on a piston rod of the hydraulic oil cylinder 232. The motor 24 is fixed on the clamping rod 232, the drill 25 is rotatably arranged on the output shaft of the motor 24, the piston rod is moved downwards through hydraulic oil of the hydraulic oil cylinder 231, the motor 24 is controlled to move downwards, and therefore the drill 25 drills downwards. The relay mechanism 4 includes: a transverse moving cylinder 41, a transverse moving rod 42, a material pushing cylinder 43 and a cut-off cylinder 44. The lock cylinder to be processed conveyed by the vibration feeding plate is embedded on the transverse moving rod 42 and moves along the transverse moving rod 42 under the action of the transverse moving cylinder 41, when the lock cylinder to be processed reaches a proper position, the lock cylinder to be processed stops moving under the action of the stop cylinder 44, and the lock cylinder to be processed reaches the clamping mechanism 5 under the action of the material pushing cylinder 43; the chucking mechanism 5 includes: a movable clamp 51, a static clamp 52 and a material clamping cylinder 53; the movable clamp 51 and the static clamp 52 surround the lock core; the two sides of the static clamp 52 are provided with material clamping cylinders 53, piston rods of the material clamping cylinders 53 are connected to the movable clamp 51, the movable clamp 51 clamps a lock cylinder to be machined under the action of the material clamping cylinders 53, a second horizontal slide rail 8 is arranged on the rack 1 below the clamping mechanism 5, the clamping mechanism 5 is connected to the second horizontal slide rail 8 with 2 linear rails in a sliding mode through a second slide block 9, the second material pushing cylinder 10 is arranged on one side of the clamping mechanism 5, and the piston rods of the second material pushing cylinder 10 push the second slide block 9 to move to a position to be machined along the second horizontal slide rail 8. The positioning mechanism 3 includes: an industrial camera 31 and an industrial computer 32. The industrial computer 32 is arranged on one side of the frame 1, the industrial camera 31 is arranged above the lock cylinder and used for identifying the marking position of the lock cylinder, and the coordinates of the marking position of the lock cylinder are calculated by the industrial computer 32, so that the drilling position of the drill 25 is accurately controlled. The frame 1 is provided with an emergency stop button 6 for emergency and emergency stop of the device. Since the drill 25 is very likely to be damaged by heat generated by the drill 25 due to long-term operation, the cooling device 7 is mounted on the frame 1 for cooling the drill 25.

When the device is used, all control instructions are sent from the industrial computer 32, firstly, the position to be processed is marked on the lock cylinder to be processed, the lock cylinder to be processed is placed in the clamping mechanism 5, the material clamping cylinder 53 is started, the piston rod of the material clamping cylinder 53 pushes the movable clamp 51 to move towards the middle, so that the lock cylinder to be processed is clamped, the clamping mechanism 5 slides to the position to be processed along the second horizontal slide rail 8, at the moment, the position to be processed is not the accurate position to be processed, the industrial camera 31 is opened by sending an instruction on the industrial computer 32, the industrial camera 31 identifies the marked position of the lock cylinder to be processed by sending an instruction through the industrial computer 32, then the hydraulic oil cylinder 231 and the motor 24 are opened by sending an instruction through the industrial computer 32, the drill bit 25 can drill the lock cylinder to be processed, the condition that the drill hole on the lock cylinder to be processed is not in accordance with the requirements, the fine adjustment can be carried out by an industrial computer until the position meets the requirement. After the position is adjusted, the lock cylinder to be processed conveyed from the vibration feeding plate reaches the transfer mechanism 4, the lock cylinder to be processed is embedded on the transverse moving rod 42 and moves along the transverse moving rod 42 under the action of the transverse moving cylinder 41, when the lock cylinder to be processed reaches a proper position, the lock cylinder to be processed stops moving under the action of the stop cylinder 44, and the lock cylinder to be processed reaches the clamping mechanism 5 under the action of the material pushing cylinder 43. The movable clamp 51 and the static clamp 52 surround the lock core; and material clamping air cylinders 53 are arranged on two sides of the static clamp 52, piston rods of the material clamping air cylinders 53 are connected to the movable clamp 51, and the movable clamp 51 clamps the lock cylinder to be processed under the action of the material clamping air cylinders 53. A second horizontal slide rail 8 is arranged on the machine frame 1 below the clamping mechanism 5, the clamping mechanism 5 is connected with the second horizontal slide rail 8 with 2 linear rails in a sliding mode through a second slide block 9, a second material pushing cylinder 10 is arranged on one side of the clamping mechanism 5, and a piston rod of the second material pushing cylinder 10 pushes the second slide block 9 to move to a position to be machined along the second horizontal slide rail 8; the hydraulic oil through hydraulic ram 231 moves the piston rod downward and the motor 24 downward so that the drill bit 25 can drill a hole.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A lock cylinder puncher is characterized in that a lock cylinder to be machined is placed in a vibration feeding tray and is conveyed to the lock cylinder puncher through a conveying channel; its characterized in that, lock core puncher includes: the method comprises the following steps: the drilling machine comprises a rack, a drilling mechanism, a positioning mechanism, a transfer mechanism and a clamping mechanism; the drilling mechanism includes: the drilling machine comprises a vertical frame, a horizontal moving mechanism, a pressing mechanism, a motor and a drill bit; the grudging post is vertical to be set up in the frame, horizontal migration mechanism includes: the first horizontal sliding rail, the first sliding block and the fixed clamping plate are arranged on the first sliding block; the first horizontal sliding rail is fixed on the vertical frame along the horizontal direction, and the fixed clamping plate is connected to the first horizontal sliding rail in a sliding manner through the first sliding block; the mechanism pushes down includes: the clamping rod is fixed on a piston rod of the hydraulic oil cylinder; the motor is fixed on the clamping rod, and the drill bit is rotatably arranged on an output shaft of the motor; the transfer mechanism comprises: the device comprises a transverse moving cylinder, a transverse moving rod, a material pushing cylinder and a stop cylinder; the lock cylinder to be machined, which is conveyed by the vibration feeding plate, is embedded on the transverse moving rod and moves along the transverse moving rod under the action of the transverse moving cylinder, when the lock cylinder to be machined reaches a proper position, the lock cylinder to be machined stops moving under the action of the stop cylinder, and the lock cylinder to be machined reaches the clamping mechanism under the action of the material pushing cylinder; the fixture includes: the device comprises a movable clamp, a static clamp and a clamping cylinder; the movable clamp and the static clamp surround the lock cylinder to be processed, and the movable clamp clamps the lock cylinder to be processed under the action of the material clamping cylinder; the positioning mechanism includes: industrial cameras and industrial computers; the industrial computer is arranged on one side of the rack, the industrial camera is arranged above the lock cylinder to be processed and used for identifying the mark position of the lock cylinder to be processed, and the industrial computer is used for calculating the coordinate of the mark position of the lock cylinder to be processed so as to accurately control the drilling position of the drill bit.

2. The lock cylinder punching machine according to claim 1, wherein the clamping cylinders are disposed on two sides of the stationary clamp, a second horizontal slide rail is disposed on the frame below the clamping device, the clamping device is slidably connected to the second horizontal slide rail through a second slide block, a second pushing cylinder is disposed on one side of the clamping mechanism, and a piston rod of the second pushing cylinder pushes the second slide block to move along the second horizontal slide rail.

3. The lock cylinder punch of claim 1, wherein at least one set of the drilling mechanisms is provided.

4. The lock cylinder punch of claim 1, wherein the first horizontal slide and the second horizontal slide have 2 linear rails.

5. The lock cylinder punch according to claim 1, wherein the housing is provided with a crash stop button for emergency stop of the device.

6. The lock cylinder punch of claim 1, wherein a cooling device is mounted to the frame, the cooling device being configured to cool the drill bit.

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