CN214769195U - High-efficiency door lock tapping machine - Google Patents

Abstract

The application relates to a high efficiency lock tapping machine belongs to the technical field of door frame trompil. The milling machine comprises a machine body, a workbench arranged on the machine body and a cutter seat connected to the machine body in a sliding mode, wherein a linear driving assembly for driving the cutter seat to move along the length direction of the workbench is arranged between the machine body and the cutter seat, a transverse milling system and a vertical milling system are arranged in the cutter seat, and a locking assembly for locking a door frame is arranged on one side, close to the cutter seat, of the workbench. This application scheme can reduce manual operation, reduces workman's amount of labour, reduces operating time, improves the trompil efficiency to the door frame.

Description

High-efficiency door lock tapping machine

Technical Field

The application relates to the field of door frame trompil, especially relates to a high efficiency lock tapping machine.

Background

Before the door and window lock is installed, a lock hole needs to be formed in the plate, so that the lock can be conveniently installed at the lock hole.

A chinese patent publication No. CN203830774U discloses a door lock hole tapping machine. The automatic drilling machine comprises a rack and a workbench, wherein a horizontal drill bit group, a vertical drill bit group, a first motor, a second motor, a horizontal moving sliding plate, a vertical moving sliding plate, a first air cylinder and a second air cylinder are arranged on the rack; the horizontal drill bit group and the first motor are arranged on the horizontal moving sliding plate, the first motor drives the drill bit on the horizontal drill bit group to rotate, the first air cylinder drives the horizontal moving sliding plate to move horizontally, the vertical drill bit group and the second motor are arranged on the vertical moving sliding plate, the second motor drives the drill bit on the vertical drill bit group to rotate, and the second air cylinder drives the vertical moving sliding plate to move vertically; the pneumatic material pressing pushing head is arranged on the side edge of the workbench on the rack; the utility model discloses the structure sets up rationally, has simplified manufacturing procedure, very big reduction the working strength of drilling, realize the high accuracy and the high efficiency of drilling.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: after the door frame is placed on the workbench and fixed, the horizontal drill bit group and the vertical drill bit group respectively open holes in the door frame, after the door lock hole in one position is machined, a worker is required to readjust and position the door frame, another door lock hole is machined, and the hole opening efficiency of the door lock hole is reduced in the process.

SUMMERY OF THE UTILITY MODEL

In order to help improving the trompil efficiency of door frame, the application provides a high efficiency lock tapping machine.

The application provides a high efficiency lock tapping machine adopts following technical scheme:

the utility model provides a high efficiency lock tapping machine, includes the lathe bed, establishes workstation and the cutter holder of sliding connection on the lathe bed, be equipped with the sharp drive assembly who drives the cutter holder and remove along the length direction of workstation between lathe bed and the cutter holder, be equipped with horizontal milling system and vertical milling system in the cutter holder, one side that the workstation is close to the cutter holder is equipped with the locking Assembly who is used for locking the door frame.

Through adopting above-mentioned technical scheme, the door frame is placed at the workstation, and locking Assembly locks the door frame, then sharp drive assembly drives the cutter holder and removes the side to the door frame, and horizontal milling system and vertical milling system carry out the trompil to the side of door frame simultaneously, has processed a back, and sharp drive assembly drives the cutter holder and removes another department to the door frame, continues to carry out the trompil to the realization is to the continuous trompil of door frame. Compared with the prior art, the scheme can reduce manual operation, reduce the labor amount of workers, reduce the operation time and improve the hole opening efficiency of the door frame.

Optionally, the linear driving assembly comprises a linear motor, a linear gear and a linear rack, the linear motor is installed on the cutter base, the linear gear is installed at the output end of the linear motor, the linear rack is installed on the lathe bed, the length direction of the linear rack is consistent with the sliding direction of the cutter base, and the linear gear is meshed with the linear rack.

Through adopting above-mentioned technical scheme, use rack and pinion's drive mode, compare with lead screw driven mode, the translation rate of cutter seat is very fast to can the position of quick adjustment horizontal milling system and vertical milling system, improve the opening efficiency to the door frame, guaranteed the precision that the cutter seat removed simultaneously.

Optionally, the transverse milling system comprises a transverse mounting plate connected with the cutter seat in a horizontal sliding manner, a transverse motor installed on the transverse mounting plate, and a transverse milling head installed at the output end of the transverse motor, the sliding direction of the transverse milling head horizontally faces to the working face of the workbench, a transverse driving assembly is arranged in the cutter seat, and the transverse driving assembly drives the transverse mounting plate.

Through adopting above-mentioned technical scheme, when processing the door frame, horizontal motor drives horizontal cutter head rotatory, and horizontal drive assembly drives horizontal cutter head and is close to the door frame to make horizontal cutter head can carry out trompil processing to the side of door frame, guaranteed the smooth trompil of door frame side.

Optionally, the transverse driving assembly comprises a transverse driving motor and a transverse screw rod, the transverse driving motor is installed in the cutter seat, the transverse screw rod is installed at the output end of the transverse driving motor, the transverse screw rod is rotatably connected with the inner wall of the cutter seat, and the length direction of the transverse screw rod is consistent with the sliding direction of the transverse mounting plate.

By adopting the technical scheme, the driving mode of the screw rod is high in control precision, the position of the transverse milling head is controlled, and the milling precision is improved.

Optionally, the vertical milling system includes the vertical mounting panel with the vertical sliding connection of cutter seat face to one side of workstation, install the vertical motor on the vertical mounting panel and install the vertical cutter head at vertical motor output, the vertical working face towards the workstation of the vertical direction of movement of vertical cutter head, be equipped with vertical drive assembly in the cutter seat, vertical drive assembly drives vertical mounting panel.

By adopting the technical scheme, the vertical milling system is used for processing the top surface of the door frame, and during processing, the vertical milling system and the transverse milling system can simultaneously act to process the door frame, so that the hole opening efficiency of the door frame is improved.

Optionally, the vertical driving assembly comprises a vertical driving motor and a vertical screw rod, the vertical driving motor is installed at the top of the cutter seat, the vertical screw rod is installed at the output end of the vertical driving motor, the vertical screw rod is rotatably connected with the inner wall of the cutter seat, and the vertical screw rod is in threaded connection with one side of the vertical mounting plate, which deviates from the workbench.

Through adopting above-mentioned technical scheme, utilize the drive mode of lead screw to drive vertical mounting panel, when guaranteeing its precision, the lead screw has certain auto-lock nature to can reduce vertical milling system's tenesmus phenomenon, the steady operation of guarantee equipment.

Optionally, the locking assembly comprises a telescopic piece vertically installed on one side, close to the tool seat, of the workbench and a locking pressing plate fixed at the telescopic end of the telescopic piece, and the locking pressing plate is located above the workbench.

Through adopting above-mentioned technical scheme, the door frame is placed on the workstation, and after the alignment position, the extensible member shrink drives the locking clamp plate and pushes down to it is fixed to lock the door frame. The control of locking and unblock is swift convenient in this scheme, is favorable to improving the dismouting efficiency of door frame, guarantees the stability that door frame was fixed simultaneously.

Optionally, a positioning plate is installed at one end of the workbench along the length direction, and the side edge of the door frame can be abutted against the side wall of the telescopic piece and the side wall of the positioning plate.

Through adopting above-mentioned technical scheme, the lateral wall butt that the lateral wall and the door frame are adjacent of locating plate and extensible member to realize the location of door frame, this scheme can reduce positioner's installation, simplifies the structure, reduce cost.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the scheme can reduce manual operation, reduce the labor capacity of workers, reduce the operation time and improve the hole opening efficiency of the door frame;

2. the transverse milling system and the vertical milling system are arranged in the tool seat, and the tool seat can move along the tool body, so that the transverse milling system and the vertical milling system can rapidly perform hole drilling on each position of a door frame on the workbench, and the hole drilling efficiency is improved;

3. the side walls of the positioning plate and the telescopic piece are used for positioning the door frame, so that the installation of the positioning device can be reduced, the structure is simplified, and the cost is reduced.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a sectional view of the entire structure of the embodiment of the present application.

Description of reference numerals: 1. a bed body; 2. a work table; 3. a tool holder; 31. a linear slide rail; 32. a transverse opening; 4. a linear drive assembly; 41. a linear motor; 42. a linear gear; 43. a linear rack; 5. a lateral milling system; 51. a transverse mounting plate; 511. a transverse slide rail; 512. a transverse connecting block; 52. a transverse motor; 53. a transverse milling head; 541. a transverse driving motor; 542. a transverse screw rod; 6. a vertical milling system; 61. a vertical mounting plate; 611. a vertical slide rail; 612. a vertical connecting block; 62. a vertical motor; 63. a vertical milling head; 641. a vertical drive motor; 642. a vertical screw rod; 7. a locking assembly; 71. a telescoping member; 72. locking the pressing plate; 8. and (7) positioning the plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses high efficiency lock tapping machine. Referring to fig. 1, the tapping machine comprises a machine body 1, a workbench 2 is arranged on one side of the machine body 1, a cutter seat 3 is arranged on the side, located on the workbench 2, of the machine body 1, the cutter seat 3 can slide along the length direction of the workbench 2, a transverse milling system 5 and a vertical milling system 6 which are close to the working surface of the workbench 2 are arranged on the cutter seat 3, and a locking assembly 7 used for locking a door frame is arranged on one side, close to the cutter seat 3, of the workbench 2.

Referring to fig. 2, the tool seat 3 is slidably connected to the bed 1 through two linear slide rails 31, and a linear driving assembly 4 is disposed between the bed 1 and the tool seat 3. The linear driving assembly 4 comprises a linear motor 41, a linear gear 42 and a linear rack 43, wherein the linear motor 41 is vertically installed on the cutter seat 3, the linear gear 42 is fixed at the output end of the linear motor 41, the linear rack 43 is fixed at the vertical side edge of the linear sliding rail 31, and the linear gear 42 is meshed with the linear rack 43. The linear driving components 4 are arranged into two groups, and the two groups of linear driving components 4 are respectively positioned at the two linear sliding rails 31. The cutter seat 3 is driven by a gear and rack mode, so that the moving speed of the cutter seat 3 can be improved, and the moving precision is ensured.

Referring to fig. 1 and 2, a transverse opening 32 is formed in the cutter base 3 in a direction perpendicular to the length of the workbench 2, the transverse milling system 5 is arranged in the transverse opening 32, the transverse milling system 5 comprises a transverse mounting plate 51, a transverse motor 52 and a transverse milling head 53, the transverse mounting plate 51 is connected with the inner wall of the cutter base 3 in a sliding mode through two transverse sliding rails 511, the extending direction of the transverse sliding rails 511 vertically faces or is far away from the vertical side face of the workbench 2, the transverse motor 52 is horizontally mounted on the top side of the transverse mounting plate 51, the output end of the transverse motor 52 faces the workbench 2, the transverse milling head 53 is fixed at the output end of the transverse motor 52, a transverse driving assembly is arranged in the transverse opening 32 and is used for driving the transverse mounting plate 51 to move left and right.

The transverse driving assembly comprises a transverse driving motor 541 and a transverse screw rod 542, the transverse driving motor 541 is horizontally installed on one side of the transverse opening 32 far away from the workbench 2, the transverse screw rod 542 is fixed at the output end of the transverse driving motor 541, the transverse screw rod 542 is parallel to the transverse sliding rail 511, a transverse connecting block 512 is fixed at the center of the bottom of the transverse mounting plate 51, the transverse screw rod 542 penetrates through the transverse connecting block 512 and is in threaded connection with the transverse connecting block 512, and the transverse screw rod 542 is rotatably connected with the inner wall of the tool holder 3.

The transverse milling systems 5 are arranged into a plurality of groups along the moving direction of the cutter seat 3, and the plurality of groups of transverse milling systems 5 are arranged at intervals, so that the plurality of groups of transverse milling systems 5 can mill the side edge of the door frame at the same time, and the hole opening efficiency is improved.

Referring to fig. 1 and 2, the vertical milling system 6 includes a vertical mounting plate 61, a vertical motor 62 and a vertical milling head 63, the vertical mounting plate 61 is connected with the tool holder 3 through two vertical sliding rails 611 in a sliding manner, the vertical mounting plate 61 is located on one side of the tool holder 3 facing the workbench 2 and above the workbench 2, the vertical motor 62 is vertically installed on one side of the vertical mounting plate 61 facing the workbench 2, the vertical milling head 63 is fixed at the output end of the vertical motor 62, the vertical milling head 63 faces the workbench 2, a vertical driving assembly is arranged in the tool holder 3, and the vertical driving assembly is used for driving the vertical mounting plate 61 to move up and down.

The vertical driving assembly comprises a vertical driving motor 641 and a vertical screw rod 642, the vertical driving motor 641 is vertically installed at the top of the cutter holder 3, the vertical screw rod 642 is fixed at the output end of the vertical driving motor 641, one side of the vertical mounting plate 61, which deviates from the vertical motor 62, is fixedly provided with a vertical connecting block 612, the vertical screw rod 642 penetrates through the vertical connecting block 612 along the vertical direction and is in threaded connection with the vertical connecting block 612, and the vertical screw rod 642 is rotatably connected with the inner wall of the cutter holder 3. The vertical milling systems 6 are arranged into a plurality of groups along the moving direction of the tool seat 3, and the vertical milling systems 6 correspond to the transverse milling systems 5 one by one, so that the vertical milling systems 6 and the transverse milling systems 5 can simultaneously process the side edges and the side faces of the door frame, and the milling speed of the lockhole is improved.

Referring to fig. 1, locking Assembly 7 includes extensible member 71 and locking clamp plate 72, and extensible member 71 chooses telescopic cylinder for use, and telescopic cylinder is vertical to be fixed in the vertical side that workstation 2 is close to tool holder 3, and telescopic cylinder's lateral wall and workstation 2's vertical lateral wall laminating, telescopic cylinder's flexible end is higher than the working face of workstation 2, and locking clamp plate 72 level is fixed in telescopic cylinder's flexible end, and locking clamp plate 72 extends towards the direction of keeping away from tool holder 3, and locking clamp plate 72 is located the top of workstation 2.

Locking Assembly 7 sets up to the multiunit along the length direction of workstation 2, and multiunit locking Assembly 7 interval sets up to make locking clamp plate 72 can support the upper surface of pressing the door frame, realize fixed to the locking of door frame.

In addition, workstation 2 is vertically fixed with locating plate 8 along length direction's one end, and the top side of locating plate 8 is higher than the working face of workstation 2, and the door frame is placed when workstation 2, a side and the 8 butt of locating plate of door frame, adjacent side and the lateral wall butt of extensible member 71 to the realization is to the location of door frame.

The implementation principle of this application embodiment high efficiency lock tapping machine does: the staff places the door frame at workstation 2, use locating plate 8 and extensible member 71 location door frame, the opening equipment, locking clamp plate 72 downstream, compress tightly the door frame, linear drive subassembly 4 drives cutter saddle 3 and removes the side to the door frame after that, horizontal milling system 5 and vertical milling system 6 mill the trompil to the side of door frame simultaneously, after having processed a department, linear drive subassembly 4 drives cutter saddle 3 and removes another department to the door frame, continue to carry out the trompil, thereby realize the continuous trompil to the door frame. Compared with the prior art, the scheme can reduce the operation of adjusting the position of the door frame by personnel, reduce the workload, reduce the operation time and improve the hole opening efficiency of the door frame.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a high efficiency lock tapping machine which characterized in that: the automatic door frame locking device comprises a lathe bed (1), a workbench (2) arranged on the lathe bed (1) and a cutter seat (3) connected to the lathe bed (1) in a sliding mode, wherein a linear driving assembly (4) for driving the cutter seat (3) to move along the length direction of the workbench (2) is arranged between the lathe bed (1) and the cutter seat (3), a transverse milling system (5) and a vertical milling system (6) are arranged in the cutter seat (3), and a locking assembly (7) used for locking a door frame is arranged on one side, close to the cutter seat (3), of the workbench (2).

2. The high efficiency door lock tapping machine of claim 1, wherein: the linear driving assembly (4) comprises a linear motor (41), a linear gear (42) and a linear rack (43), the linear motor (41) is installed on the cutter seat (3), the linear gear (42) is installed at the output end of the linear motor (41), the linear rack (43) is installed on the lathe bed (1), the length direction of the linear rack (43) is consistent with the sliding direction of the cutter seat (3), and the linear gear (42) is meshed with the linear rack (43).

3. The high efficiency door lock tapping machine of claim 1, wherein: horizontal milling system (5) include with cutter holder (3) horizontal sliding connection's horizontal mounting panel (51), install horizontal motor (52) on horizontal mounting panel (51) and install horizontal cutter head (53) at horizontal motor (52) output, the working face of the horizontal direction level of sliding of horizontal cutter head (53) towards workstation (2), be equipped with the transverse driving subassembly in cutter holder (3), the transverse driving subassembly drives horizontal mounting panel (51).

4. The high efficiency door lock tapping machine of claim 3, wherein: the transverse driving assembly comprises a transverse driving motor (541) and a transverse screw rod (542), the transverse driving motor (541) is installed in the cutter seat (3), the transverse screw rod (542) is installed at the output end of the transverse driving motor (541), the transverse screw rod (542) is rotatably connected with the inner wall of the cutter seat (3), and the length direction of the transverse screw rod (542) is consistent with the sliding direction of the transverse mounting plate (51).

5. The high efficiency door lock tapping machine of claim 1, wherein: vertical milling system (6) include with cutter seat (3) towards vertical sliding connection's in one side vertical mounting panel (61) of workstation (2), install vertical motor (62) on vertical mounting panel (61) and install vertical cutter head (63) at vertical motor (62) output, the vertical working face towards workstation (2) of the direction of movement of vertical cutter head (63), be equipped with vertical drive assembly in cutter seat (3), vertical drive assembly drives vertical mounting panel (61).

6. The high efficiency door lock tapping machine of claim 5, wherein: vertical drive assembly includes vertical driving motor (641) and vertical lead screw (642), the top at tool apron (3) is installed to vertical driving motor (641), the output at vertical driving motor (641) is installed in vertical lead screw (642), the inner wall of vertical lead screw (642) and tool apron (3) rotates and is connected, one side threaded connection that vertical lead screw (642) and vertical mounting panel (61) deviate from workstation (2).

7. The high efficiency door lock tapping machine of claim 1, wherein: locking Assembly (7) are including vertical telescopic part (71) of installing in workstation (2) near cutter seat (3) one side and fix locking clamp plate (72) at the flexible end of telescopic part (71), locking clamp plate (72) are located the top of workstation (2).

8. The high efficiency door lock tapping machine of claim 7, wherein: locating plate (8) are installed along length direction's one end in workstation (2), and the side of door frame can with the lateral wall butt of the lateral wall of extensible member (71) and locating plate (8).

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