CN215941575U - A drilling equipment that is used for aluminium alloy door and window section bar to process - Google Patents

Abstract

The utility model relates to the technical field of door and window processing equipment, in particular to a drilling device for processing an aluminum alloy door and window profile, which comprises a processing table and an adjustable positioning drilling mechanism arranged on the processing table, wherein the adjustable positioning drilling mechanism comprises a positioning mechanism and a drilling mechanism; the positioning mechanism comprises a limiting assembly and a pressing assembly, the limiting assembly and the pressing assembly are both arranged on the processing table and used for limiting the position of the profile, and the pressing assembly is used for positioning and clamping the position of the limited profile; the drilling mechanism comprises an X-axis adjusting mechanism, a Y-axis adjusting mechanism and lifting punching equipment, the drilling mechanism is simple in structure, the sectional material is stably and accurately positioned, the punching efficiency and the punching quality of the sectional material are improved, the drilling mechanism is flexible to use when in use, and convenience is brought to punching of the sectional material.

Description

A drilling equipment that is used for aluminium alloy door and window section bar to process

Technical Field

The utility model relates to the technical field of door and window processing equipment, in particular to a drilling device for processing aluminum alloy door and window profiles.

Background

Along with the development of society, the structures and materials of doors and windows are more and more, wherein the aluminum alloy doors and windows have the characteristic of light weight and rust prevention and are more and more widely applied to the door and window structures of modern buildings; the tubular aluminum alloy needs to be cut, bent and drilled according to the shape requirements of the aluminum alloy door and window.

When the drilling processing is carried out, the section bar of the aluminum alloy door and window is drilled by manually holding the drilling equipment, so that the drilling efficiency is low; meanwhile, the distance between each hole is observed and positioned by depending on the experience of workers, and the manual positioning is influenced by the experience degree, so that the operation error is easy to occur, and the quality of the product is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a drilling device for processing aluminum alloy door and window profiles.

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

the drilling device for processing the aluminum alloy door and window profiles comprises a processing table and an adjustable positioning drilling mechanism arranged on the processing table, wherein the adjustable positioning drilling mechanism comprises a positioning mechanism and a drilling mechanism;

the positioning mechanism comprises a limiting assembly and a pressing assembly, the limiting assembly and the pressing assembly are both arranged on the processing table and used for limiting the position of the profile, and the pressing assembly is used for positioning and clamping the position of the limited profile;

the drilling mechanism comprises an X-axis adjusting mechanism, a Y-axis adjusting mechanism and lifting drilling equipment, the X-axis adjusting mechanism is horizontally arranged on the processing table, the Y-axis adjusting mechanism is positioned above the processing table, the Y-axis adjusting mechanism is installed at the adjusting end of the X-axis adjusting mechanism, the lifting drilling equipment is vertically installed at the adjusting end of the Y-axis adjusting mechanism, and the drilling end of the lifting drilling equipment is vertically downward;

the pressing assembly, the X axial adjusting mechanism, the Y axial adjusting mechanism and the lifting punching equipment are all connected with the controller.

Preferably, the limiting assembly comprises an L-shaped limiting baffle and a strip-shaped limiting baffle, and the L-shaped limiting baffle and the strip-shaped limiting baffle are both arranged on the end face of the processing table and are respectively positioned at the positions close to the corners of the processing table;

the pressing assembly comprises an X axial pressing assembly and a Y axial pressing assembly, the X axial pressing assembly is arranged on the inner side of the strip-shaped limiting baffle, and the Y axial pressing assembly is arranged on the processing table.

Preferably, the X-axis compression assembly comprises a first linear telescopic assembly and a pressing block, the first linear telescopic assembly is mounted on the inner side of the strip-shaped limiting baffle and is distributed in parallel with the strip-shaped limiting baffle, and the pressing block is arranged at the end part of the first linear telescopic assembly;

the Y-axis compressing assembly comprises a second linear telescopic assembly and a pressing plate, the second linear telescopic assembly is installed on the processing table, the pressing plate is installed at the end part of the second linear telescopic assembly, and the pressing plate and the strip-shaped limiting baffle are distributed in parallel;

guide wheels are arranged on the inner sides of the strip-shaped limiting baffle and the pressing plate side by side, and a guide wheel is also arranged on one inner side of the L-shaped limiting baffle;

a first pressure monitoring assembly is arranged at the end part of the pressing plate, and a second pressure monitoring assembly is arranged on the other inner side of the L-shaped limiting baffle;

the first linear telescopic assembly, the second linear telescopic assembly, the first pressure monitoring assembly and the second pressure monitoring assembly are all connected with the controller.

Preferably, the first pressure monitoring assembly comprises an elastic telescopic column and a first pressure sensor, the elastic telescopic column is installed at the end part of the pressure plate, and the first pressure sensor is installed at the end part of the elastic telescopic column;

the pressure monitoring assembly II comprises a guide sleeve, an elastic assembly, a top block, a sliding block, a ring-shaped element and a pressure sensor II, the guide sleeve is arranged on the L-shaped limiting baffle, the sliding block is arranged in the guide sleeve in a sliding limiting mode, the top block is connected with the end face of the sliding block through a support, the ring-shaped element is arranged in the guide sleeve, the pressure sensor II is arranged on the front face of the ring-shaped element, one end of the elastic assembly is connected with the back face of the sliding block, the other end of the elastic assembly is connected with the bottom of the guide sleeve, and the elastic assembly penetrates through the ring-shaped element;

when the end part of the profile presses the ejector block, the ejector block enters the guide sleeve, and the end surface of the outer side of the ejector block is coplanar with the inner side wall of the L-shaped limiting baffle at the moment;

the first pressure sensor and the second pressure sensor are both connected with a controller.

Preferably, the X-axis adjusting mechanism comprises a case, a first lead screw motor, a first lead screw and a first transverse sliding seat, the case is horizontally arranged in the inner side area of the processing table, the first lead screw is horizontally and rotatably arranged in the case, the first lead screw motor is arranged on the case, the driving end of the first lead screw is connected with the end part of the first lead screw, the first transverse sliding seat is arranged on the first lead screw in a threaded manner and is in sliding fit with the case, and a rack extending to the outer side area of the case is arranged at the side end of the first transverse sliding seat;

the Y-axis adjusting mechanism comprises a transverse support frame, a second lead screw motor, a second lead screw and a second transverse sliding seat, the end part of the transverse support frame is connected to the rack, the second lead screw is horizontally and rotatably arranged in the transverse support frame, the second lead screw motor is arranged on the transverse support frame, the driving end of the second lead screw is connected with the end part of the second lead screw, and the second transverse sliding seat is in threaded arrangement on the second lead screw and is in sliding fit with the transverse support frame;

the lifting punching equipment is arranged at the lower end of the transverse sliding seat II;

and the first screw motor, the second screw motor and the lifting punching equipment are connected with the controller.

Preferably, the Y-axis pressing assemblies are arranged in plurality and distributed on the processing table side by side.

Has the advantages that: when the punching machine is used, when punching operation is carried out on a section, the section is horizontally placed on a processing table, the section is pushed to be in contact with the guide wheels on the inner walls of the strip-shaped limiting baffle and the L-shaped limiting baffle, then the Y-axis pressing component is started, so that the guide wheel on the inner side of the pressing plate in the Y-axis pressing component is also in contact with the outer wall of the section, the first pressure sensor is in contact with the outer side of the section in advance in the process that the guide wheel on the inner side of the pressing plate in the Y-axis pressing component is in contact with the outer wall of the section, the numerical value of the first pressure sensor is gradually increased, when the pressure value of the first pressure sensor reaches a preset value, the second linear telescopic component stops extending, at the moment, the first linear telescopic component is started, the first linear telescopic component drives the pressing block to push the section to move, so that the other end of the section is in contact with and pressed by the top block on the inner side of the L-shaped limiting baffle, the elastic assembly contracts, the sliding block presses the pressure sensor II, when the pressure sensor II reaches a preset value, the linear telescopic assembly I stops extending, the profile can be conveniently and accurately positioned in such a way, the guide wheels are arranged on the inner side of the strip-shaped limiting baffle, the inner side of the L-shaped limiting baffle and the inner side of the pressing plate, a good adjusting effect is achieved when the position of the profile is positioned, in the whole process, the pressure sensor I, the pressure sensor II, the linear telescopic assembly I and the linear telescopic assembly II are connected with the controller, signals are transmitted to the controller through the pressure sensor I and the pressure sensor II, the controller controls the actions of the linear telescopic assembly I and the linear telescopic assembly II, and the accuracy and the stability of profile positioning are guaranteed;

after the location is accomplished, start screw motor one and screw motor two, the X axial position that screw motor a pair of lift punched the setting is adjusted, screw motor adjusts the Y axial position of two pairs of lift drilling equipment, lift drilling equipment itself can carry out the regulation of Y axial position to the drilling position, through such a mode, can be nimble punch the section bar, the efficiency of punching and the quality of punching have been improved, at this in-process, through controller to screw motor one, screw motor two and lift drilling equipment control, the degree of mechanization has been improved, efficiency of punching and the quality of punching have been improved.

The punching device is simple in structure, improves punching efficiency and punching quality of the section bar by stably and accurately positioning the section bar, is flexible to use when in use, and brings convenience to punching of the section bar.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings in the embodiments of the present invention are briefly described below.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is an enlarged view at B of FIG. 1;

wherein:

1-a processing table, 2-a chassis, 3-a first screw motor, 4-a first screw, 5-a first transverse sliding seat, 6-a rack, 7-a transverse supporting frame, 8-a second screw motor, 9-a second screw, 10-a second transverse sliding seat, 11-a profile, 12-L-shaped limit baffles, 13-strip limit baffles, 14-a guide wheel, 15-a first linear expansion assembly, 16-a pressing block, 17-a second linear expansion assembly, 18-a pressing plate, 19-an elastic expansion column, 20-a first pressure sensor, 21-a second pressure monitoring assembly, 211-a guide sleeve, 212-a ring part, 213-a second pressure sensor, 214-a top block, 215-a sliding block, 216-an elastic assembly and 22-a controller.

Detailed Description

The technical scheme of the utility model is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some components of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

The drilling device for processing the aluminum alloy door and window profiles, which is shown in the figures 1 to 3, comprises a processing table 1 and an adjustable positioning drilling mechanism arranged on the processing table, wherein the adjustable positioning drilling mechanism comprises a positioning mechanism and a drilling mechanism;

the positioning mechanism comprises a limiting assembly and a pressing assembly, the limiting assembly and the pressing assembly are both arranged on the processing table 1 and used for limiting the position of the section bar 11, and the pressing assembly is used for positioning and clamping the position of the limited section bar 11;

the drilling mechanism comprises an X-axis adjusting mechanism, a Y-axis adjusting mechanism and lifting drilling equipment, the X-axis adjusting mechanism is horizontally arranged on the processing table 1, the Y-axis adjusting mechanism is positioned above the processing table 1, the Y-axis adjusting mechanism is arranged at the adjusting end of the X-axis adjusting mechanism, the lifting drilling equipment is vertically arranged at the adjusting end of the Y-axis adjusting mechanism, and the drilling end of the lifting drilling equipment is vertically downward;

the automatic punching machine further comprises a controller 22, and the pressing assembly, the X axial adjusting mechanism, the Y axial adjusting mechanism and the lifting punching equipment are all connected with the controller 22.

In this embodiment, the limiting assembly includes an L-shaped limiting baffle 12 and a strip-shaped limiting baffle 13, and both the L-shaped limiting baffle 12 and the strip-shaped limiting baffle 13 are disposed on the end surface of the processing table 1 and are respectively located at positions close to corners of the processing table 1;

the pressing assembly comprises an X axial pressing assembly and a Y axial pressing assembly, the X axial pressing assembly is arranged on the inner side of the strip-shaped limiting baffle 13, and the Y axial pressing assembly is arranged on the processing table 1.

In this embodiment, the X axial compression assembly comprises a first linear expansion assembly 15 and a pressing block 16, the first linear expansion assembly 15 is installed on the inner side of the bar-shaped limit baffle 13 and is distributed in parallel with the bar-shaped limit baffle 3, and the pressing block 16 is arranged at the end of the first linear expansion assembly 15;

the Y-axis compressing assembly comprises a second linear telescopic assembly 17 and a pressing plate 18, the second linear telescopic assembly 17 is installed on the processing table 1, the pressing plate 18 is installed at the end part of the second linear telescopic assembly 17, and the pressing plate 18 and the strip-shaped limiting baffle 13 are distributed in parallel;

guide wheels 14 are arranged on the inner sides of the strip-shaped limiting baffle 13 and the pressing plate 18 side by side, and the guide wheel 14 is also arranged on one inner side of the L-shaped limiting baffle 12;

a first pressure monitoring assembly is arranged at the end part of the pressure plate 18, and a second pressure monitoring assembly 21 is arranged on the other inner side of the L-shaped limiting baffle;

the first linear telescopic assembly 15, the second linear telescopic assembly 17, the first pressure monitoring assembly and the second pressure monitoring assembly 21 are all connected with a controller 22.

In the embodiment, the first pressure monitoring assembly comprises an elastic telescopic column 19 and a first pressure sensor 20, wherein the elastic telescopic column 19 is installed at the end part of the pressure plate 18, and the first pressure sensor 20 is installed at the end part of the elastic telescopic column 19;

the second pressure monitoring component 21 comprises a guide sleeve 211, an elastic component 216, a top block 214, a sliding block 215, a ring piece 212 and a second pressure sensor 213, the guide sleeve 211 is arranged on the L-shaped limit baffle 12, the sliding block 215 is slidably and limitedly arranged in the guide sleeve 211, the top block 214 is connected with the end face of the sliding block 215 through a support, the ring piece 212 is arranged in the guide sleeve 211, the second pressure sensor 213 is arranged on the front face of the ring piece 212, one end of the elastic component 216 is connected with the back face of the sliding block 215, the other end of the elastic component 216 is connected with the bottom of the guide sleeve 211, and the elastic component 216 penetrates through the ring piece 212;

when the end of the profile 11 presses the top block 214, the top block 214 enters the guide sleeve 211, and the outer end face of the top block 214 is coplanar with the inner side wall of the L-shaped limit baffle 12;

the first pressure sensor 20 and the second pressure sensor 213 are both connected to a controller 22.

In this embodiment, the X-axis adjusting mechanism includes a case 2, a first lead screw motor 3, a first lead screw 4, and a first traverse slide 5, wherein the case 2 is horizontally disposed in an inner region of the machining table 1, the first lead screw 4 is horizontally and rotatably mounted in the case 2, the first lead screw motor 3 is mounted on the case 2, a driving end of the first lead screw is connected to an end of the first lead screw 4, the first traverse slide 5 is threadedly mounted on the first lead screw 4 and is in sliding fit with the case 2, and a rack extending to an outer region of the case 2 is disposed at a side end of the first traverse slide 5;

the Y-axis adjusting mechanism comprises a transverse strut 7, a second lead screw motor 8, a second lead screw 9 and a second transverse sliding seat 10, the end part of the transverse strut 7 is connected to the rack, the second lead screw 9 is horizontally and rotatably installed in the transverse strut 7, the second lead screw motor 8 is installed on the transverse strut 7, the driving end of the second lead screw 9 is connected with the end part of the second lead screw 9, and the second transverse sliding seat 10 is installed on the second lead screw 9 in a threaded manner and is in sliding fit with the transverse strut 7;

the lifting punching equipment (not shown in the figure) is arranged at the lower end of the second traverse sliding seat 10;

and the first lead screw motor 3, the second lead screw motor 8 and the lifting punching equipment are connected with a controller 22.

In the present embodiment, the Y-axis pressing assemblies are provided in plurality and distributed side by side on the processing table 1.

When the punching machine is used, when a section bar 11 is punched, the section bar 11 is horizontally placed on a processing table 1, the section bar is pushed to be in contact with a strip-shaped limit baffle 13 and a guide wheel 14 on the inner wall of an L-shaped limit baffle 12, then a Y-axis pressing assembly is started, the guide wheel 14 on the inner side of a pressing plate 18 in the Y-axis pressing assembly is also in contact with the outer wall of the section bar 11, a first pressure sensor 20 is in contact with the outer side of the section bar 11 in advance in the process that the guide wheel 14 on the inner side of the pressing plate 18 in the Y-axis pressing assembly is in contact with the outer wall of the section bar 11, the numerical value of the first pressure sensor 20 is gradually increased, when the pressure value of a first pressure sensor 20 reaches a preset value, a second linear telescopic assembly 17 stops extending, at the moment, the first linear telescopic assembly 15 is started, the first linear telescopic assembly 15 drives a pressing block 16 to push the section bar 11 to move, so that the other end of the section bar 11 is in contact with and pressed by a top block 214 on the inner side of the L-shaped limit baffle 12, the elastic component 216 contracts, the sliding block 215 presses the second pressure sensor 213, when the second pressure sensor 213 reaches the preset value, the first linear expansion assembly 15 stops extending, in such a way as to facilitate the accurate positioning of the section bar 11, because the guide wheels 14 are arranged on the inner sides of the strip-shaped limit baffle 13, the L-shaped limit baffle 12 and the pressure plate 18, the position of the section bar 11 can be well adjusted, in the whole process, the first pressure sensor 20, the second pressure sensor 213, the first linear telescopic assembly 15 and the second linear telescopic assembly 17 are all connected with the controller 22, signals are transmitted to the controller 22 through the first pressure sensor 20 and the second pressure sensor 213, the controller 22 controls the actions of the first linear telescopic assembly 15 and the second linear telescopic assembly 17, so that the positioning accuracy and stability of the section bar 11 are ensured;

after the location is accomplished, start first 3 and second 8 lead screw motor, first 3 lead screw motor is to the X axial position that goes up and down to punch the setting and adjust, second 8 lead screw motor is to the Y axial position of lift drilling equipment adjusting, lift drilling equipment itself can carry out the regulation of Y axial position to the drilling position, through such a mode, can be nimble punch to section bar 11, the efficiency of punching and the quality of punching have been improved, at this in-process, through first 3 lead screw motor of controller 22, second 8 lead screw motor and lift drilling equipment control, the degree of mechanization has been improved, the efficiency of punching and the quality of punching have been improved.

The punching device is simple in structure, improves punching efficiency and punching quality of the section bar by stably and accurately positioning the section bar, is flexible to use when in use, and brings convenience to punching of the section bar.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (6)

1. A drilling device for processing aluminum alloy door and window profiles comprises a processing table (1) and an adjustable positioning drilling mechanism arranged on the processing table (1), and is characterized in that the adjustable positioning drilling mechanism comprises a positioning mechanism and a drilling mechanism;

the positioning mechanism comprises a limiting assembly and a pressing assembly, the limiting assembly and the pressing assembly are both arranged on the processing table (1) and used for limiting the position of the sectional material (11), and the pressing assembly is used for positioning and clamping the position of the limited sectional material (11);

the drilling mechanism comprises an X axial adjusting mechanism, a Y axial adjusting mechanism and lifting drilling equipment, the X axial adjusting mechanism is horizontally arranged on the processing table (1), the Y axial adjusting mechanism is positioned above the processing table (1), the Y axial adjusting mechanism is installed at the adjusting end of the X axial adjusting mechanism, the lifting drilling equipment is vertically installed at the adjusting end of the Y axial adjusting mechanism, and the drilling end of the lifting drilling equipment is vertically downward;

the automatic punching machine is characterized by further comprising a controller (22), wherein the pressing assembly, the X axial adjusting mechanism, the Y axial adjusting mechanism and the lifting punching equipment are all connected with the controller (22).

2. The drilling device for processing the aluminum alloy door and window profiles as claimed in claim 1, wherein the limiting assembly comprises an L-shaped limiting baffle (12) and a strip-shaped limiting baffle (13), and the L-shaped limiting baffle (12) and the strip-shaped limiting baffle (13) are arranged on the end face of the processing table (1) and are respectively positioned close to the corners of the processing table (1);

the pressing assembly comprises an X axial pressing assembly and a Y axial pressing assembly, the X axial pressing assembly is arranged on the inner side of the strip-shaped limiting baffle (13), and the Y axial pressing assembly is arranged on the processing table (1).

3. The drilling device for processing the aluminum alloy door and window profiles as claimed in claim 2, wherein the X axial compression assembly comprises a first linear expansion assembly (15) and a pressing block (16), the first linear expansion assembly (15) is installed on the inner side of the strip-shaped limit baffle (13) and is distributed in parallel with the strip-shaped limit baffle (13), and the pressing block (16) is arranged at the end part of the first linear expansion assembly (15);

the Y-axis compression assembly comprises a second linear telescopic assembly (17) and a pressing plate (18), the second linear telescopic assembly (17) is installed on the processing table (1), the pressing plate (18) is installed at the end part of the second linear telescopic assembly (17), and the pressing plate (18) and the strip-shaped limiting baffle (13) are distributed in parallel;

guide wheels (14) are arranged on the inner sides of the strip-shaped limiting baffle (13) and the pressing plate (18) side by side, and a guide wheel (14) is also arranged on one inner side of the L-shaped limiting baffle (12);

a first pressure monitoring assembly is arranged at the end part of the pressing plate (18), and a second pressure monitoring assembly (21) is arranged on the other inner side of the L-shaped limiting baffle (12);

the first linear telescopic assembly (15), the second linear telescopic assembly (17), the first pressure monitoring assembly and the second pressure monitoring assembly (21) are all connected with the controller (22).

4. A drilling apparatus for aluminium alloy door and window section processing according to claim 3, wherein the pressure monitoring assembly one comprises an elastic telescopic column (19) and a pressure sensor one (20), the elastic telescopic column (19) is installed at the end of the pressure plate (18), and the pressure sensor one (20) is installed at the end of the elastic telescopic column (19);

the second pressure monitoring assembly (21) comprises a guide sleeve (211), an elastic assembly (216), a top block (214), a sliding block (215), a ring-shaped piece (212) and a second pressure sensor (213), the guide sleeve (211) is arranged on the L-shaped limit baffle (12), the sliding block (215) is installed in the guide sleeve (211) in a sliding limit mode, the top block (214) is connected with the end face of the sliding block (215) through a support column, the ring-shaped piece (212) is installed in the guide sleeve (211), the second pressure sensor (213) is installed on the front face of the ring-shaped piece (212), one end of the elastic assembly (216) is connected with the back face of the sliding block (215), the other end of the elastic assembly is connected with the bottom of the guide sleeve (211), and the elastic assembly (216) penetrates through the ring-shaped piece (212);

when the end part of the profile (11) presses the top block (214), the top block (214) enters the guide sleeve (211), and the outer end face of the top block (214) is coplanar with the inner side wall of the L-shaped limiting baffle (12);

the first pressure sensor (20) and the second pressure sensor (213) are both connected with a controller (22).

5. The drilling device for processing the aluminum alloy door and window profiles as claimed in claim 1, wherein the X-axis adjusting mechanism comprises a machine box (2), a first lead screw motor (3), a first lead screw (4) and a first transverse sliding base (5), the machine box (2) is horizontally arranged in the inner area of the processing table (1), the first lead screw (4) is horizontally and rotatably installed in the machine box (2), the first lead screw motor (3) is installed on the machine box (2), the driving end of the first lead screw (4) is connected with the end part of the first lead screw, the first transverse sliding base (5) is in threaded installation on the first lead screw (4) and is in sliding fit with the machine box (2), and a rack extending to the outer area of the machine box (2) is arranged at the side end of the first transverse sliding base (5);

the Y-axis adjusting mechanism comprises a transverse support frame (7), a second lead screw motor (8), a second lead screw (9) and a second transverse sliding seat (10), the end part of the transverse support frame (7) is connected to the rack, the second lead screw (9) is horizontally and rotatably installed in the transverse support frame (7), the second lead screw motor (8) is installed on the transverse support frame (7), the driving end of the second lead screw (9) is connected with the end part of the second lead screw, and the second transverse sliding seat (10) is installed on the second lead screw (9) in a threaded manner and is in sliding fit with the transverse support frame (7);

the lifting punching equipment is arranged at the lower end of the second transverse sliding seat (10);

and the first screw motor (3), the second screw motor (8) and the lifting punching equipment are all connected with a controller (22).

6. Drilling device for aluminium alloy door and window profile working according to claim 1, characterized in that said Y-axis compacting assembly is provided in plurality and distributed side by side on the working table (1).

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