CN113210739A

CN113210739A - Slotting equipment and slotting process for machining aluminum alloy doors and windows

Info

Publication number: CN113210739A
Application number: CN202110379960.3A
Authority: CN
Inventors: 韩永强; 李照华; 田钰
Original assignee: Qingdao Qinglian Doors And Windows Co ltd
Current assignee: Qingdao Qinglian Doors And Windows Co ltd
Priority date: 2021-04-09
Filing date: 2021-04-09
Publication date: 2021-08-06
Anticipated expiration: 2041-04-09
Also published as: CN113210739B

Abstract

The invention discloses slotting equipment for processing aluminum alloy doors and windows, which comprises a base, wherein a panel is fixedly arranged on the base, a base and a portal frame are fixedly arranged on the panel, a fixed guide wheel and a horizontal rail are arranged on the base, a specification hole is formed in the horizontal rail, an adjusting seat is slidably arranged on the horizontal rail, an adjusting guide wheel is arranged on the adjusting seat, a driving wheel is coaxially arranged on the adjusting guide wheel, a belt is connected onto the driving wheel, a guide rail is fixedly arranged in the base, the overall structure is simple, no complex sensor structure exists, the manufacturing cost is low, the slotting equipment is more suitable for autonomous production transformation of small and medium-sized door and window enterprises, and the popularization is facilitated; through a slotting process for machining aluminum alloy doors and windows, an operator can be indicated to reach a slotting position when a section moves, positioning is automatically carried out, the length of the section does not need to be measured constantly when the slotting process is used, and slotting at a fixed distance is finished with high precision.

Description

Slotting equipment and slotting process for machining aluminum alloy doors and windows

Technical Field

The invention relates to the technical field of doors and windows, in particular to slotting equipment and a slotting process for machining aluminum alloy doors and windows.

Background

The aluminum alloy is formed by adding other elements into an aluminum base, is light in texture and has good corrosion resistance, so that the aluminum alloy section is one of the most common door and window processing materials. In the process of processing aluminum alloy profiles, in order to mount structures such as handles of doors and windows, grooves with various shapes are generally processed on the profiles.

At present, the most common grooving equipment is a punching machine, a cutter is driven to move downwards through a hydraulic mechanism, and a required groove body is directly punched on an aluminum alloy section. Many present punching machines have intelligence and find accurate positioner, and it mainly comprises various precision sensor, and whole cost is high, so still use simplest punching machine among the general middle-size and small-size mill, mainly rely on basic measuring tool and the proficiency of processing master worker, guarantee the accuracy of section bar fluting position, whole efficiency is lower to there is great error easily. In view of this, we propose a slotting device and a slotting process for processing aluminum alloy doors and windows.

Disclosure of Invention

The invention aims to provide slotting equipment and a slotting process for machining aluminum alloy doors and windows, and aims to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a slotting device for processing aluminum alloy doors and windows comprises a base, wherein a panel is fixedly mounted on the base, a base and a portal frame are fixedly mounted on the panel, a fixed guide wheel and a horizontal rail are mounted on the base, a specification hole is formed in the horizontal rail, an adjusting seat is slidably mounted on the horizontal rail, an adjusting guide wheel is mounted on the adjusting seat, a driving wheel is coaxially mounted on the adjusting guide wheel, a belt is connected onto the driving wheel, a guide rail is fixedly mounted in the base, a reset spring is fixedly mounted in the guide rail, a sliding block is fixedly connected onto the reset spring, a top block is fixedly connected onto the sliding block, a connecting rod is rotatably connected onto the top block and rotatably connected onto a crank wheel, a reducing wheel is coaxially connected onto the crank wheel, a hydraulic rod is fixedly mounted onto the portal frame, a cutter is fixedly connected onto the hydraulic rod, a pressing block is fixedly mounted onto the portal frame, and a micromotion block is movably arranged in the upper pressing block, and a sound ball is fixedly connected to the micromotion block.

Preferably, the panel is horizontally arranged at the top of the base, the base is arranged on the upper surface of the panel, the base is of a hollow structure, and the portal frame is erected at the top of the base.

Preferably, the fixed guide wheel and the horizontal rail are respectively installed on two sides of the base, the specification holes are arranged on the side face of the horizontal rail, the adjusting seat is provided with bolt fixing feet, the adjusting guide wheel and the driving wheel are installed on the same rotating shaft of the adjusting seat, and the upper surface of the base on the upper portion of the driving wheel is equal in height.

Preferably, the guide rail is vertically installed in the cavity of the base, the sliding block is installed at the top of the reset spring, the upper surface of the jacking block is provided with a cushion layer, and the base is provided with a through hole structure.

Preferably, the two ends of the connecting rod are respectively connected to the rotating shafts of the sliding block and the crank wheel in a rotating mode, the sliding block, the connecting rod and the crank wheel form a crank sliding block structure, the variable diameter wheel is provided with 2-5 different models and is sequentially connected to the rotating shaft of the crank wheel, and the belt is connected between the variable diameter wheel and the driving wheel.

Preferably, the cutter adopts the bolt structure to install in the bottom of hydraulic stem, and goes up the briquetting and install in the top of base, the spacing installation of micromotion piece is in the cell body of last briquetting.

A slotting process for processing aluminum alloy doors and windows comprises the following steps:

s1: (section bar is inserted) the aluminum alloy section bar is penetrated between the base and the upper pressing block to carry out slotting work, the section bar can be manually moved to determine slotting positions, and the section bar can be simultaneously contacted with the fixed guide rail and the adjusting guide wheel in the moving process to drive the fixed guide rail and the adjusting guide wheel to rotate;

s2: the adjusting guide wheel (determining the position) can drive the driving wheel to synchronously rotate, so that the movement of the section bar is completely fed back to the driving wheel, when the belt is connected between the reducing wheel and the driving wheel, the section bar moves to drive the driving wheel to rotate, so as to drive the reducing wheel and the crank wheel on the reducing wheel to rotate, the guide rail in the base is used for installing the sliding block and the ejecting block, generally, the ejecting block is contracted in the base by the elastic force of the reset spring, the sliding block is driven to move downwards and upwards through the connecting rod in the process of rotating the crank wheel for one circle, and finally the ejecting block is ejected from the base, so that the aluminum alloy section bar on the base can be further ejected upwards, so as to drive the micro-moving block to move, the sound ball is extruded, a prompt sound is given, and an operator can indicate that the grooving position is reached;

s3: (hydraulic grooving) drives the cutter to descend through a hydraulic rod, and positioning grooving of the section is performed.

Compared with the prior art, the invention has the beneficial effects that:

1. through the slotting process, when the section bar is moved, the moving distance of the section bar is fed back to the rotation of the adjusting guide wheel and the driving wheel, and then the moving distance of the section bar is fed back to the crank wheel through the transmission structure, the top block is driven to move up and down by using the crank block structure, in short, the moving distance of the section bar can be converted into the time for the top block to move for one wheel, the aluminum alloy section bar on the base can be further jacked by the top block, so that the micro block is driven to move, the sound ball is extruded, a prompt sound is given out to indicate that an operator reaches the slotting position, the positioning is automatically carried out, the length of the section bar does not need to be measured in real time when the section bar is used, the slotting at a fixed distance is finished with high precision, and the aim;

2. the base, the panel and the portal frame are all basic structures of a common punching machine, the base is of a modified structure, the original panel is replaced as a workpiece passing part, the whole structure is simple, no complex sensor structure exists, the manufacturing cost is low, and the automatic production and modification device is more suitable for independent production and modification of small and medium-sized door and window enterprises and is beneficial to popularization.

Drawings

FIG. 1 is a front view of the structure of the present invention;

FIG. 2 is a schematic view of an alignment structure of the present invention;

fig. 3 is an enlarged schematic view of the area a in fig. 2.

In the figure: the device comprises a base 1, a panel 2, a base 3, a portal frame 4, a fixed guide wheel 5, a horizontal rail 6, specification holes 7, an adjusting seat 8, an adjusting guide wheel 9, a driving wheel 10, a belt 11, a guide rail 12, a return spring 13, a sliding block 14, a top block 15, a connecting rod 16, a crank wheel 17, a reducing wheel 18, a hydraulic rod 19, a cutter 20, an upper pressing block 21, a micro-motion block 22 and a sound ball 23.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 3, the present invention provides a technical solution: a slotting device for processing aluminum alloy doors and windows comprises a base 1, a panel 2 is fixedly installed on the base 1, a base 3 and a portal frame 4 are fixedly installed on the panel 2, a fixed guide wheel 5 and a horizontal rail 6 are installed on the base 3, a specification hole 7 is arranged on the horizontal rail 6, an adjusting seat 8 is slidably installed on the horizontal rail 6, an adjusting guide wheel 9 is installed on the adjusting seat 8, a driving wheel 10 is coaxially installed on the adjusting guide wheel 9, a belt 11 is connected onto the driving wheel 10, a guide rail 12 is fixedly installed in the base 3, a return spring 13 is fixedly installed in the guide rail 12, a sliding block 14 is fixedly connected onto the return spring 13, an ejector block 15 is fixedly connected onto the sliding block 14, a connecting rod 16 is rotatably connected onto the ejector block 15, the connecting rod 16 is rotatably connected onto a crank wheel 17, a reducing wheel 18 is coaxially connected onto the crank wheel 17, and a hydraulic rod 19 is fixedly installed on the portal frame 4, and a cutter 20 is fixedly connected to the hydraulic rod 19, an upper press block 21 is fixedly mounted on the portal frame 4, a micromotion block 22 is movably mounted in the upper press block 21, and a sound ball 23 is fixedly connected to the micromotion block 22.

The panel 2 is horizontally arranged at the top of the base 1, the base 3 is arranged on the upper surface of the panel 2, the base 3 is of a hollow structure, the portal frame 4 is erected at the top of the base 3, the base 1, the panel 2 and the portal frame 4 are all basic structures of a common punching machine, and the base 3 is of a modified structure and replaces the original panel 2 as a workpiece passing part;

the fixed guide wheel 5 and the horizontal rail 6 are respectively arranged on two sides of the base 3, the specification holes 7 are arranged on the side face of the horizontal rail 6, bolt fixing feet are arranged on the adjusting seat 8, the adjusting guide wheel 9 and the driving wheel 10 are both arranged on the same rotating shaft of the adjusting seat 8, the upper surface of the base 3 on the upper portion of the driving wheel 10 is equal in height, an aluminum alloy section bar penetrates between the base 3 and the upper pressing block 21 to perform slotting work, the section bar can move to determine slotting positions, the section bar can be simultaneously contacted with the fixed guide rail 5 and the adjusting guide wheel 9 in the moving process to drive the fixed guide rail 5 and the adjusting guide wheel 9 to rotate, the adjusting guide wheel 9 can drive the driving wheel 10 to synchronously rotate, the adjusting seat 8 can be used for driving the driving wheel 10 to move according to requirements, after the positions are determined, the bolt fixing feet are connected with the corresponding specification holes 7, and the adjusting seat 8 is rapidly fixed;

the guide rail 12 is vertically installed in a cavity of the base 3, the sliding block 14 is installed at the top of the return spring 13, a cushion layer is arranged on the upper surface of the top block 15, a through hole structure is arranged on the base 3, the guide rail 12 is used for installing the sliding block 14 and the top block 15, and generally, the elastic force of the return spring 13 shrinks the top block 15 in the base 3;

the two ends of a connecting rod 16 are respectively connected to the rotating shafts of a sliding block 14 and a crank wheel 17 in a rotating mode, the sliding block 14, the connecting rod 16 and the crank wheel 17 form a crank-sliding block structure, the variable diameter wheel 18 is provided with 2-5 different models and is sequentially connected to the rotating shaft of the crank wheel 17, a belt 11 is connected between the variable diameter wheel 18 and a driving wheel 10, when the belt 11 is connected between the variable diameter wheel 18 and the driving wheel 10, a section moves to drive the driving wheel 10 to rotate, so that the variable diameter wheel 18 and the crank wheel 17 on the variable diameter wheel 18 are driven to rotate, the sliding block 14 can be driven to move downwards and upwards through the connecting rod 16 in the process of one rotation of the crank wheel 17, and finally the jacking block 15 is ejected out of the base 3, so that the structure aims to convert the moving distance of the section into the time for moving the jacking block 15 for one wheel, the angular speeds of the guide wheel 9 and the driving wheel 10 are adjusted to be the same, and the angular speeds of the variable diameter wheel 18 and the crank wheel 17 are the crank wheel, the purpose that the crank wheel 17 can be driven to rotate for one circle only by moving the section bar with different lengths is achieved by selecting the variable diameter wheels 18 with different sizes and generating corresponding transmission ratios with the driving wheel 10, and when the different variable diameter wheels 18 are selected, the adjusting seat 8 is required to be moved to drive the driving wheel 10 to move in order to ensure the tension of the belt 11;

cutter 20 adopts the bolt construction to install in the bottom of hydraulic stem 19, and go up briquetting 21 and install in the top of base 3, the spacing installation of fine motion piece 22 is in the cell body of last briquetting 21, when kicking block 15 removed base 3, can be with the further top-up of the aluminum alloy ex-trusions on the base 3, thereby will drive fine motion piece 22 and remove, will make a sound 23 and extrude, send the prompt tone, it reaches the fluting position to indicate the operator, drive cutter 20 through hydraulic stem 19 and descend, the location fluting of section bar has been carried out.

A method of a casting apparatus for an aluminum alloy casting for a new energy automobile, the method comprising the steps of:

s1: (section bar is inserted) the aluminum alloy section bar is penetrated between the base 3 and the upper pressing block 21 to carry out the grooving work, the section bar can be manually moved to determine the grooving position, and the section bar can be simultaneously contacted with the fixed guide rail 5 and the adjusting guide wheel 9 in the moving process to drive the two to rotate;

s2: the (position-determined) adjusting guide wheel 9 can drive the driving wheel 10 to synchronously rotate, so that the movement of the profile is completely fed back to the driving wheel 10, when the belt 11 is connected between the reducing wheel 18 and the driving wheel 10, the profile moves to drive the driving wheel 10 to rotate, so as to drive the reducing wheel 18 and the crank wheel 17 thereon to rotate, the guide rail 12 in the base 3 is provided with the slider 14 and the ejector block 15, generally, the ejector block 15 is contracted in the base 3 by the elastic force of the return spring 13, the slider 14 can be driven to move downwards and upwards by the connecting rod 16 in the process of one rotation of the crank wheel 17, and finally the ejector block 15 is ejected from the base 3, so that the aluminum alloy profile on the base 3 can be further ejected upwards, so as to drive the micro-moving block 22 to move, extrude the sound ball 23, and send out a warning sound to indicate that an operator reaches a slotting position;

s3: (hydraulic grooving) the cutter 20 is driven by the hydraulic rod 19 to descend, and the positioning grooving of the section bar is performed.

The working principle is as follows: firstly, the base 1, the panel 2 and the portal frame 4 are the basic structure of a common punching machine, the base 3 is a modified structure, the original panel 2 is replaced as a workpiece passing part, an aluminum alloy section bar penetrates between the base 3 and the upper pressing block 21 to perform slotting work, the section bar can be manually moved to determine the slotting position, the section bar can be simultaneously contacted with the fixed guide rail 5 and the adjusting guide wheel 9 in the moving process to drive the fixed guide rail 5 and the adjusting guide wheel 9 to rotate, the adjusting guide wheel 9 can drive the driving wheel 10 to synchronously rotate, so that the movement of the section bar is completely fed back to the driving wheel 10, when the belt 11 is connected between the reducing wheel 18 and the driving wheel 10, the section bar moves to drive the driving wheel 10 to rotate, so as to drive the reducing wheel 18 and the crank wheel 17 on the reducing wheel 18 to rotate, the guide rail 12 in the base 3 is provided with the slide block 14 and the top block 15, generally, the top block 15 is contracted in the base 3 by the elasticity of the return spring 13, in the process of one circle of rotation of the crank wheel 17, the connecting rod 16 can drive the sliding block 14 to move downwards and upwards, finally the ejecting block 15 is ejected from the base 3, the aluminum alloy section on the base 3 can be further ejected, so that the micro moving block 22 is driven to move, the sound ball 23 is extruded, a prompt sound is given, an operator is indicated to reach the slotting position, the cutter 20 is driven to descend through the hydraulic rod 19, and the positioning slotting of the section is carried out, so that the transmission structure aims to convert the moving distance of the section into the time for moving the ejecting block 15 for one wheel, the rotating angular speeds of the guide wheel 9 and the driving wheel 10 are adjusted to be the same, the angular speeds of the reducing wheel 18 and the crank wheel 17 are the same, the purpose of moving the section for one circle by generating corresponding transmission ratios with the driving wheel 10 through selecting the reducing wheels 18 with different sizes can be achieved, and when the different reducing wheels 18 are selected, in order to ensure the tension of the belt 11, the adjusting seat 8 needs to be moved to drive the driving wheel 10 to move, after the position is determined, the bolt fixing feet are used for being connected with the corresponding specification holes 7, the adjusting seat 8 is quickly fixed, the function that the sound balls 23 remind the grooving function after the movable sectional materials pass through the required intervals is achieved through autonomous adjustment, and the size of the reducing wheel 18 can be preset, so that the sectional material length does not need to be measured in real time when the adjustable sectional material is used, and the grooving is finished at a fixed distance with high precision.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an aluminum alloy door and window processing is with fluting equipment, includes base (1), its characterized in that: the automatic lifting device is characterized in that a panel (2) is fixedly mounted on the base (1), a base (3) and a portal frame (4) are fixedly mounted on the panel (2), a fixed guide wheel (5) and a horizontal rail (6) are mounted on the base (3), a specification hole (7) is formed in the horizontal rail (6), an adjusting seat (8) is slidably mounted on the horizontal rail (6), an adjusting guide wheel (9) is mounted on the adjusting seat (8), a driving wheel (10) is coaxially mounted on the adjusting guide wheel (9), a belt (11) is connected onto the driving wheel (10), a guide rail (12) is fixedly mounted in the base (3), a reset spring (13) is fixedly mounted in the guide rail (12), a sliding block (14) is fixedly connected onto the reset spring (13), a top block (15) is fixedly connected onto the sliding block (14), a connecting rod (16) is rotatably connected onto the top block (15), and connecting rod (16) rotate to be connected at crank wheel (17), coaxial connection has reducing wheel (18) on crank wheel (17), fixed mounting has hydraulic stem (19) on portal frame (4), and fixedly connected with cutter (20) on hydraulic stem (19), fixed mounting has last briquetting (21) on portal frame (4), and goes up movable mounting in briquetting (21) and have little movable block (22), and fixedly connected with sound ball (23) on little movable block (22).

2. The slotting equipment for processing aluminum alloy doors and windows according to claim 1, wherein the slotting equipment comprises: the panel (2) is horizontally arranged at the top of the base (1), the base (3) is arranged on the upper surface of the panel (2), the base (3) is of a hollow structure, and the portal frame (4) is erected at the top of the base (3).

3. The slotting equipment for processing aluminum alloy doors and windows according to claim 1, wherein the slotting equipment comprises: the fixed guide wheel (5) and the horizontal rail (6) are respectively installed on two sides of the base (3), the gauge holes (7) are arranged on the side face of the horizontal rail (6), bolt fixing feet are arranged on the adjusting seat (8), the adjusting guide wheel (9) and the driving wheel (10) are installed on the same rotating shaft of the adjusting seat (8), and the upper surface of the base (3) on the upper portion of the driving wheel (10) is equal in height.

4. The slotting equipment for processing aluminum alloy doors and windows according to claim 1, wherein the slotting equipment comprises: the guide rail (12) is vertically installed in a cavity of the base (3), the sliding block (14) is installed at the top of the reset spring (13), a cushion layer is arranged on the upper surface of the ejector block (15), and a through hole structure is arranged on the base (3).

5. The slotting equipment for processing aluminum alloy doors and windows according to claim 1, wherein the slotting equipment comprises: the two ends of the connecting rod (16) are rotated and connected to the rotating shafts of the sliding block (14) and the crank wheel (17) respectively, the sliding block (14), the connecting rod (16) and the crank wheel (17) form a crank sliding block structure, the variable diameter wheel (18) is provided with 2-5 different models and connected to the rotating shaft of the crank wheel (17) in sequence, and the belt (11) is connected between the variable diameter wheel (18) and the driving wheel (10).

6. The slotting equipment for processing aluminum alloy doors and windows according to claim 1, wherein the slotting equipment comprises: the cutter (20) is installed at the bottom of the hydraulic rod (19) by adopting a bolt structure, the upper pressing block (21) is installed above the base (3), and the micromotion block (22) is installed in a groove body of the upper pressing block (21) in a limiting mode.

7. A grooving process for aluminum alloy doors and windows according to any one of claims 1 to 6, wherein the process comprises the steps of:

s1: (the section bar is inserted) the aluminum alloy section bar is penetrated between the base (3) and the upper pressing block (21) to carry out the grooving work, the section bar can be manually moved to determine the grooving position, and the section bar can be simultaneously contacted with the fixed guide rail (5) and the adjusting guide wheel (9) in the moving process to drive the two to rotate;

s2: the adjusting guide wheel (9) (determining the position) can drive the driving wheel (10) to synchronously rotate, so that the movement of the section bar is completely fed back to the driving wheel (10), when the belt (11) is connected between the reducing wheel (18) and the driving wheel (10), the section bar moves to drive the driving wheel (10) to rotate, so as to drive the reducing wheel (18) and the crank wheel (17) on the reducing wheel to rotate, the guide rail (12) in the base (3) is provided with the sliding block (14) and the ejector block (15), generally, the ejector block (15) is contracted in the base (3) by the elastic force of the return spring (13), the crank wheel (17) can drive the sliding block (14) to move downwards and upwards through the connecting rod (16) in the process of rotating for one circle, the ejector block (15) is finally ejected from the base (3), so as to further eject the aluminum alloy section bar on the base (3), so as to drive the micro moving block (22) to move, extruding the sound ball (23) to give out a prompt sound to indicate that an operator reaches the slotting position;

s3: the (hydraulic grooving) drives a cutter (20) to descend through a hydraulic rod (19), and positioning grooving of the section is performed.