CN-224223318-U - Lock cylinder precision machining integrated device

Abstract

The utility model relates to the technical field of lock cylinder machining, in particular to a precision machining integrated device for a lock cylinder. The technical scheme includes that the intelligent control device comprises a base plate, air cylinders are arranged at positions on two sides of the base plate, an assembly frame is arranged at the top ends of the two groups of air cylinders, a high-frequency electric spindle drive is arranged above the assembly frame, a position adjusting assembly is arranged between the two groups of air cylinders below the assembly frame, and an intelligent control panel is arranged on one side of the base plate. According to the utility model, through the arrangement of the position adjusting component, the cylinder, the position sensor, the pressure sensor and the intelligent control panel, the lock cylinder can be precisely positioned and corrected in real time during processing operation, the processing requirement of the high-end lock cylinder can be met, the stability and reliability of the device in the long-time operation process are ensured through the high-strength damping structure of the base plate and the bottom plate matched with the damping seat, the positioning shaft and the positioning shaft seat, and the equipment failure rate and the maintenance cost are reduced.

Inventors

• WANG JUNDONG
• ZHANG HUAN

Assignees

• 浙江亚环锁业有限公司

Dates

Publication Date

20260512

Application Date

20250530

Claims (8)

1. 1. The integrated lock cylinder precision machining device comprises a substrate (1) and is characterized in that air cylinders (2) are arranged at positions on two sides of the upper side of the substrate (1), two groups of air cylinders (2) are arranged at the top ends of the air cylinders (2), a high-frequency motorized spindle drive (4) is arranged above the mounting brackets (3), a position adjusting component (5) is arranged between the two groups of air cylinders (2) below the mounting brackets (3), the position adjusting component (5) comprises a motor (51), an angle adjusting bracket (52) is arranged at the output end of the motor (51), a machining table (53) is arranged above the angle adjusting bracket (52), a vacuum adsorption platform (54) is arranged above the machining table (53), two groups of electric slide rails (55) are arranged in the machining table (53) below the vacuum adsorption platform (54), a base plate (6) is arranged below the substrate (1), a plurality of groups of shock-absorbing seats (7) are arranged between the substrate (1) and the base plate (6), a shock-absorbing sensor (8) is arranged at one side of the vacuum adsorption platform (54), one side of the base plate (1) is provided with an intelligent control panel (10).
2. 2. The integrated device for precisely machining the lock cylinder according to claim 1, wherein the mounting end of the cylinder (2) is correspondingly mounted on one side above the base plate (1), the assembly frame (3) is arranged in a U shape, and two ends of the assembly frame (3) are correspondingly mounted with the output ends of the two groups of cylinders (2) respectively.
3. 3. The integrated lock cylinder precision machining device according to claim 1, wherein a stabilizing frame (11) is arranged on one side above the assembly frame (3), the mounting end of the high-frequency electric spindle driver (4) is correspondingly mounted with the inner ring of the stabilizing frame (11), a shaft hole is formed in the assembly frame (3) and located at the middle position, a multifunctional machining head (41) is arranged at the output end of the high-frequency electric spindle driver (4) through the shaft hole, the multifunctional machining head (41) integrates multiple machining functions of drilling, milling, polishing and polishing, and the mounting end of the position sensor (8) is correspondingly mounted on one side below the assembly frame (3).
4. 4. The integrated lock cylinder precision machining device according to claim 1, wherein the angle adjusting frame (52) comprises a left angle adjusting frame (521) and a right angle adjusting frame (522), the left angle adjusting frame (521) and the right angle adjusting frame (522) are arranged in a cross shape, the mounting end of the end angle adjusting frame (522) is correspondingly mounted with the connecting groove of the left angle adjusting frame (521), the limiting rings I (14) are arranged at the positions of two sides below the end angle adjusting frame (522), the sliding grooves I (14) are correspondingly mounted with the sliding grooves I, the mounting end of the processing table (53) is correspondingly mounted with the connecting groove of the end angle adjusting frame (522), the limiting rings II (15) are respectively arranged at the positions of two sides below the processing table (53), and the limiting rings II (15) are correspondingly mounted with the sliding grooves II.
5. 5. The integrated lock cylinder precision machining device according to claim 4, wherein a locating rack (12) is arranged at a middle position on one side above the base plate (1), the installation end of the motor (51) is installed corresponding to the inner cavity of the locating rack (12), the output end of the motor (51) is installed corresponding to one side of a left-right angle adjusting rack (521), limiting shafts (13) are arranged at two end positions on one side below the left-right angle adjusting rack (521), limiting ring grooves are formed in one side above the locating rack (12), and the top ends of two groups of limiting shafts (13) are installed corresponding to the limiting ring grooves.
6. 6. The integrated lock cylinder precision machining device according to claim 1, wherein the mounting ends of the electric sliding rails (55) are correspondingly mounted on two sides of the inner wall of the machining table (53), the mounting ends of the vacuum adsorption platforms (54) are respectively correspondingly mounted with sliding blocks on the two groups of electric sliding rails (55), mounting grooves are formed in the middle positions of the vacuum adsorption platforms (54), the mounting ends of the pressure sensors (9) are correspondingly mounted with the mounting grooves, connecting rods (16) are respectively arranged on two sides of the two ends of the machining table (53), and reinforcing frames (17) are arranged between the lower positions of the two ends of each group of electric sliding rails (55) and the connecting rods (16).
7. 7. The integrated device for precisely machining the lock cylinder according to claim 1, wherein the upper end and the lower end of the shock absorption seat (7) are respectively installed corresponding to one side, close to each other, of the base plate (1) and the base plate (6), multiple groups of positioning shafts (18) are symmetrically arranged on two sides of the base plate (1), positioning shaft seats (19) are respectively arranged on two sides of the base plate (6) corresponding to the positions of each group of positioning shafts (18), and the top ends of the positioning shafts (18) are installed corresponding to the inner cavities of the positioning shaft seats (19).
8. 8. The integrated device for precisely machining the lock cylinder according to claim 1, wherein the installation end of the intelligent control panel (10) is correspondingly installed on one side of the substrate (1), and the cylinder (2), the high-frequency motorized spindle drive (4), the position adjusting assembly (5), the position sensor (8) and the pressure sensor (9) are respectively and electrically connected with the intelligent control panel (10).

Description

Lock cylinder precision machining integrated device Technical Field The utility model relates to the technical field of lock cylinder machining, in particular to a precision machining integrated device for a lock cylinder. Background With the rapid development of intelligent security technology, the market has set higher requirements on the safety and reliability of the lock cylinder, so that the processing precision of the lock cylinder becomes a key index. The lock core is used as a core component of the lockset, and the processing precision of the lock core directly influences the safety and the reliability of the lockset. At present, in the existing lock core processing process, a plurality of working procedures such as drilling, milling flutes and polishing are needed, so that the processing angle of the lock core needs to be accurately adjusted when the lock core is processed, and in the prior art, although the angle of the lock core can be driven to carry out adjustment operation, positioning errors are easy to generate due to repeated clamping and positioning, so that the processing precision of the lock core is influenced, the requirement of a market on the high-precision lock core is difficult to meet, the processing efficiency is low, and the production cost is increased. Therefore, we specially propose an integrated device for precisely machining the lock cylinder. Disclosure of utility model The utility model aims to solve the problems in the background art and provides a precision machining integrated device for a lock cylinder. According to the technical scheme, the lock cylinder precision machining integrated device comprises a base plate, cylinders are arranged at positions on two sides of the base plate, an assembly frame is arranged at the top ends of the two groups of cylinders, a high-frequency electric spindle is arranged above the assembly frame, a position adjusting component is arranged between the two groups of cylinders below the assembly frame, the position adjusting component comprises a motor, an angle adjusting frame is arranged at the output end of the motor, a machining table is arranged above the angle adjusting frame, a vacuum adsorption platform is arranged above the machining table, two groups of electric sliding rails are arranged below the vacuum adsorption platform and in the machining table, a base plate is arranged below the base plate, a plurality of groups of shock absorbing seats are arranged between the base plate and the base plate, a position sensor is arranged on one side of the lower part of the assembly frame, a pressure sensor is arranged on the vacuum adsorption platform and a middle position, and an intelligent control panel is arranged on one side of the base plate. Preferably, the mounting ends of the cylinders are correspondingly mounted on one side above the base plate, the assembly frame is arranged in a U shape, and two ends of the assembly frame are correspondingly mounted with the output ends of the two groups of cylinders respectively. Preferably, a stabilizing frame is arranged on one side above the assembly frame, the mounting end of the high-frequency electric spindle drive is correspondingly mounted with the inner ring of the stabilizing frame, a shaft hole is formed in the assembly frame and located at the middle position, a multifunctional processing head is arranged at the output end of the high-frequency electric spindle drive through the shaft hole, the multifunctional processing head integrates multiple processing functions of drilling, milling, polishing and polishing, and the mounting end of the position sensor is correspondingly mounted on one side below the assembly frame. Preferably, the angle adjustment frame includes left and right angle adjustment frame and end angle adjustment frame, left and right angle adjustment frame is the setting of "cross" shape with end angle adjustment frame, the installation end of end angle adjustment frame corresponds the installation with the linking groove department of controlling angle adjustment frame, the below of end angle adjustment frame is located both sides position department and all is provided with spacing ring one, the spout one has been seted up on the angle adjustment frame about, spacing ring one corresponds the installation with spout one, the installation end of processing platform corresponds the installation with the linking groove department of end angle adjustment frame, the below of processing platform is located both sides position department and all is provided with spacing ring two, the spout two has been seted up on the end angle adjustment frame, spacing ring two corresponds the installation with spout two. Preferably, a locating rack is arranged at the middle position on one side above the base plate, the installation end of the motor is correspondingly installed with the inner cavity of the locating rack, the output end of the motor is correspondingly installed with