CN105195907B - Dust removal device and laser processing equipment and method using same - Google Patents

Abstract

The invention discloses a dust removal device and laser processing equipment and a method using the same, wherein the dust removal device comprises a dust collection shell, wherein a dust collection cavity with an upper opening and a lower opening is arranged in the dust collection shell; a nozzle clamping seat is arranged on the dust collecting shell, a high-pressure nozzle is arranged in the nozzle clamping seat, and a nozzle angle adjusting device is arranged between the high-pressure nozzle and the dust collecting shell; a negative pressure air suction port is arranged on the dust collecting shell at the other side of the dust collecting cavity, an anti-reverse plate is arranged between the negative pressure air suction port and the dust collecting cavity, and the negative pressure air suction port is connected with a negative pressure pumping device; when the device is used, the device is arranged on laser processing equipment, the dust collecting cavity is positioned above a workpiece to be processed and below the laser galvanometer, and dust generated in the laser processing process enters the negative pressure air suction port under the action of the high-pressure nozzle and the negative pressure pumping device and is then sucked away by the negative pressure pumping device; the anti-reverse plate can prevent dust in the negative pressure suction port from flowing back; the invention cleans dust by using a negative pressure working principle, and can thoroughly clean dust generated by laser processing in time.

Description

A dust removal device and laser processing equipment and method using the dust removal device

technical field

The invention relates to the technical field of laser precision machining, in particular to a dust removal device for laser precision machining equipment.

Background technique

Laser processing technology is widely used in industrial production due to its advantages of fast speed, high reliability and stability, and good processing quality. During the process of laser drilling and laser cutting, the splashed residue and dust are easy to accumulate on the surface of the workpiece or adhere to the surface of the vibrating mirror if they are not cleaned up in time due to their strong adsorption force and opacity. , which blocks the laser light to a certain extent, affecting the accuracy and processing efficiency of laser processing. Therefore, it is necessary to provide an efficient dust removal device to remove the dust splashed from the processing area in time and effectively improve the quality of laser processing.

Contents of the invention

A technical problem to be solved by the present invention is to provide a dust removal device with simple structure and thorough cleaning.

In order to solve the above technical problems, the technical solution of the present invention is: a dust removal device, including a dust collection shell, an upper port is provided on the top surface of the dust collection shell, and an upper port is provided on the bottom end surface of the dust collection shell. There is a lower port, and a dust collection chamber communicated with the upper port and the lower port is provided in the dust collection housing;

The dust-collecting housing on one side of the dust-collecting chamber is provided with a nozzle holder, and a high-pressure nozzle with an air outlet facing the dust-collecting chamber is installed in the nozzle holder, and the high-pressure nozzle and the dust-collecting chamber A nozzle angle adjustment device is installed between the housings, the high-pressure nozzle is connected to a gas source through a connecting pipe, and a flow rate control device is installed on the connecting pipe between the high-pressure nozzle and the gas source;

The dust-collecting housing on the other side of the dust-collecting chamber is provided with a negative-pressure suction port, and between the negative-pressure suction port and the dust-collecting chamber is a top end facing the negative-pressure suction port. The inclined anti-reversal plate, the negative pressure suction port is connected with a negative pressure device;

The dust collecting housing is provided with a fixed connection device connected with the application equipment.

As a preferred technical solution, the nozzle clamping seat includes a nozzle clamping plate installed on the dust collecting housing, and the nozzle clamping plate is provided with a nozzle clamping slot through which the high-pressure nozzle passes.

As a preferred technical solution, the nozzle angle adjustment device rotates the nozzle angle adjustment plate installed on the dust collection housing, and an angle positioning lock is installed between the nozzle angle adjustment plate and the dust collection housing The air outlet end of the high-pressure nozzle is clamped on the nozzle holder, and the other end of the high-pressure nozzle is fixedly connected with the nozzle angle adjustment plate.

As a preferred technical solution, the angle positioning locking device includes a locking bolt that passes through the dust collecting housing and is threadedly connected with the nozzle angle adjusting plate.

As a preferred technical solution, the flow rate control device includes a flow rate control valve.

As a preferred technical solution, the negative pressure device includes a negative pressure tube connected to the negative pressure suction port, and the negative pressure tube is connected to a negative pressure suction machine.

As a preferred technical solution, the fixed connection device includes a fixed connection plate, and at least two waist-shaped holes are arranged on the fixed connection plate.

As a preferred technical solution, the connecting pipeline is connected with two high-pressure nozzles through a three-way joint, and the two high-pressure nozzles are clamped side by side in the nozzle holder.

Due to the adoption of the above technical solution, a dust removal device includes a dust collection shell, an upper port is provided on the top end surface of the dust collection shell, and a lower port is provided on the bottom end surface of the dust collection shell. A dust collection chamber communicating with the upper port and the lower port is provided in the dust collection housing; a nozzle holder is provided on the dust collection housing on one side of the dust collection chamber, and a nozzle holder is installed in the nozzle holder. There is a high-pressure nozzle with an air outlet facing the dust collection chamber, a nozzle angle adjustment device is installed between the high-pressure nozzle and the dust collection housing, the high-pressure nozzle is connected to an air source through a connecting pipeline, and the high-pressure nozzle and A flow rate control device is installed on the connecting pipe between the air sources; a negative pressure suction port is provided on the dust collection shell on the other side of the dust collection chamber, and the negative pressure suction port is connected with the There is an anti-reverse plate whose top is inclined to the negative pressure suction port between the dust collection chambers, and the negative pressure suction port is connected with a negative pressure device; The fixed connection device for connection; when in use, install the device on the application equipment through the fixed connection device, so that the dust collection chamber is located above the workpiece to be processed, and the dust generated during the processing is under the action of the high-pressure nozzle and the negative pressure device Enter the negative pressure suction port, and then be sucked away by the negative pressure device; the anti-reverse plate can prevent the dust in the negative pressure suction port from flowing back; the invention uses the working principle of negative pressure to clean the dust, and can timely and thoroughly remove the dust generated by the workpiece processing clean up.

Another technical problem to be solved by the present invention is to provide a laser processing equipment equipped with the above-mentioned dust removal device.

In order to solve the above technical problems, the technical solution of the present invention is: a laser processing equipment, including a base, a bracket is installed on the base, a beam is installed on the bracket, and an axially adjustable X A shaft transmission mechanism, a Y-axis transmission mechanism is installed on the base, an adsorption platform for placing workpieces is installed on the Y-axis transmission mechanism, a Z-axis transmission mechanism is installed on the X-axis transmission mechanism, and the Z-axis An image acquisition device is installed on the transmission mechanism, and the dust removal device according to claim 1 is also installed on the Z-axis transmission mechanism.

Due to the adoption of the above technical solution, the dust generated in the laser processing process is thoroughly cleaned in real time by the dust removal device, which can ensure the processing accuracy of the laser processing equipment, improve the yield rate of laser processing, and reduce production costs.

Another technical problem to be solved by the present invention is to provide a processing method for dust removal using the above-mentioned dust removal device.

In order to solve the above technical problems, the technical solution of the present invention is: a laser processing method, including a dust removal process. The dust in the dust collection chamber is blown into the negative pressure suction port, and the dust in the negative pressure suction port is sucked away by the negative pressure device.

Due to the adoption of the above technical solution, the dust generated during workpiece processing is thoroughly cleaned in real time by the dust removal device, which can ensure the processing accuracy of workpiece processing, improve the yield rate of workpiece processing, and reduce production costs.

Description of drawings

Fig. 1 is a structural schematic diagram 1 of a dust removal device according to an embodiment of the present invention;

Fig. 2 is the structural schematic diagram II of the dust removal device of the embodiment of the present invention;

Fig. 3 is a structural schematic diagram III of the dust removal device according to the embodiment of the present invention;

Fig. 4 is a structural schematic diagram 4 of a dust removal device according to an embodiment of the present invention;

Fig. 5 is the structural representation of the laser processing equipment of the embodiment of the present invention;

Among them: 11-dust collection shell; 12-dust collection chamber; 2-processing workpiece; 3-high pressure nozzle; 31-nozzle clamping plate; 32-nozzle clamping slot; 33-nozzle angle adjustment plate; 34-locking bolt ;35-connecting pipe; 36-flow rate control valve; 4-negative pressure suction port; 41-suction negative pressure pipe; 5-anti-reverse plate; 61-fixed connecting plate; -Bracket; 73-Beam; 74-X-axis transmission mechanism; 75-Y-axis transmission mechanism; 76-adsorption platform; 77-Z-axis transmission mechanism; 8-dust removal device.

detailed description

Below in conjunction with accompanying drawing and embodiment, further elaborate the present invention. In the following detailed description, certain exemplary embodiments of the invention are described by way of illustration only. Needless to say, those skilled in the art would realize that the described embodiments can be modified in various different ways, all without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and not intended to limit the scope of the claims.

As shown in Figures 1 and 2, a dust removal device includes a dust collection housing 11, an upper port is provided on the top end surface of the dust collection housing 11, and an upper port is provided on the bottom end surface of the dust collection housing 11. A lower port, the dust collecting housing 11 is provided with a dust collecting chamber 12 communicating with the upper port and the lower port;

The dust-collecting housing 11 on one side of the dust-collecting chamber 12 is provided with a nozzle holder, and a high-pressure nozzle 3 with an air outlet facing the dust-collecting chamber 12 is installed in the nozzle holder. It includes a nozzle clamping plate 31 installed on the dust collecting housing 11, and the nozzle clamping plate 31 is provided with a nozzle clamping groove 32 for the high-pressure nozzle 3 to pass through; the high-pressure nozzle 3 and the A nozzle angle adjustment device is installed between the dust collection housings 11, and the nozzle angle adjustment device rotates the nozzle angle adjustment plate 33 installed on the dust collection housing 11, and the nozzle angle adjustment plate 33 is in contact with the dust collection housing 11. An angular positioning locking device is installed between the shells 11, and the angular positioning locking device includes a locking bolt 34 that passes through the dust collecting shell 11 and is threadedly connected with the nozzle angle adjustment plate 33; The gas outlet end of the nozzle 3 is clamped on the nozzle holder, and the other end of the high-pressure nozzle 3 is fixedly connected with the nozzle angle adjustment plate 33; not shown), the connecting pipe 35 between the high-pressure nozzle 3 and the gas source is provided with a flow rate control device, and the flow rate control device includes a flow rate control valve 36;

As shown in Figures 3 and 4, the dust collecting housing 11 on the other side of the dust collecting chamber 12 is provided with a negative pressure suction port 4, and the negative pressure suction port 4 is connected to the dust collecting chamber. 12 is provided with an anti-backward plate 5 whose top is inclined to the negative pressure suction port 4, and a negative pressure chamber is formed between the anti-backward plate 5 and the negative pressure suction port 4, and the negative pressure suction Mouth 4 is connected with suction negative pressure device, and described suction negative pressure device comprises the suction negative pressure pipe 41 that is connected with described negative pressure suction port 4, and described suction negative pressure pipe 41 is connected with negative pressure suction machine (in the figure not shown);

The dust collection housing 11 is provided with a fixed connection device connected with the application equipment, the fixed connection device includes a fixed connection plate 61, and the fixed connection plate 61 is provided with at least two waist-shaped holes 62, when in use, The dust removal device is installed on the application equipment through the connection screw passing through the waist hole 62, such as laser processing equipment, and the distance between the dust removal device and the workpiece 2 can be adjusted by adjusting the position of the connection screw in the waist hole 62.

The number of the high-pressure nozzles 3 can be determined according to the size of the dust-collecting housing 11. In this embodiment, the connecting pipe 35 is connected with two high-pressure nozzles 3 through a three-way joint, and the two high-pressure nozzles 3 are arranged side by side. snapped into the nozzle holder.

Working principle: The high-pressure nozzle 3 is connected to the air source, and the high-pressure nozzle 3 sprays air into the dust collection chamber 12. At the same time, under the action of the negative pressure suction machine, the dust generated by the workpiece processing is sucked away through the negative pressure suction port 4. Under the action of the reverse flow plate, the dust flows from the dust collecting chamber 12 to the negative pressure suction port 4 in one direction without reverse flow. The jetting angle of the high-pressure nozzle 3 is obliquely facing the workpiece 2 downward. The jetting angle of the high-pressure nozzle 3 can be adjusted by the nozzle angle adjustment plate 33. When adjusting, loosen the locking bolt 34 and turn the nozzle angle adjustment plate 33 to a suitable angle. Then tighten the locking bolt 34.

As shown in Figure 5, a laser processing equipment includes a base 71, a bracket 72 is installed on the base 71, a beam 73 is installed on the bracket 72, and an axially adjustable X-axis is installed on the beam 73 The transmission mechanism 74, the X-axis transmission mechanism 74 can move horizontally along the beam 73, the Y-axis transmission mechanism 75 is installed on the base 71, and the adsorption platform for placing the workpiece 2 is installed on the Y-axis transmission mechanism 75 76, the adsorption platform 76 can move horizontally along the direction perpendicular to the beam 73, and the processed workpiece will be adsorbed on the adsorption platform for laser processing; the X-axis transmission mechanism 74 is equipped with a Z-axis transmission mechanism 77, and the Z-axis transmission Mechanism 77 can move up and down along the vertical direction. Image acquisition device is installed on the Z-axis transmission mechanism 77, and the dust removal device 8 mentioned above is also installed on the Z-axis transmission mechanism 77; the laser scanning vibrating mirror and The image acquisition device is mounted on the Z-axis transmission mechanism 77 .

In the present invention, the dust collecting case 11 adopts an upper and lower opening type, and is installed directly below the vibrating mirror of the laser processing equipment through a fixed connecting plate 61, and the laser beam generated by the vibrating mirror passes through the dust collecting case 11 and strikes the workpiece 2 . The upper end of the fixed connection plate 61 is provided with a waist-shaped hole 62 , and the distance from the dust collecting case 11 to the workpiece 2 is adjusted through the waist-shaped hole 62 on the fixed connection plate 61 .

The dust generated during the laser processing is thoroughly cleaned by the dust removal device 8 in real time, which can ensure the processing accuracy of the laser processing equipment, improve the yield rate of laser processing, and reduce production costs.

A laser processing method, including a dust removal process. In the dust removal process, the aforementioned dust removal device 8 is used for dust removal, and the dust in the dust collection chamber is blown into the negative pressure suction port by the high-pressure airflow generated by the high-pressure nozzle. The dust in the negative pressure suction port is sucked away by the negative pressure device.

The high-pressure nozzle 3 blows high-speed and uniform gas to the processing area of the workpiece 2 at a certain angle. The gas blows the dust splashed from the workpiece processing to the negative pressure chamber, and the negative pressure chamber efficiently sucks the blown dust back. The high-pressure nozzle 3 is connected to the flow rate control valve 36 through the connection head and the connecting pipe 35 , and the flow rate of the gas in the high-pressure nozzle 3 is controlled by the flow rate control valve 36 . The dust generated during workpiece processing is thoroughly cleaned in real time by the dust removal device 8, which can ensure the processing accuracy of workpiece processing, improve the yield rate of workpiece processing, and reduce production costs.

The basic principles, main features and advantages of the present invention have been shown and described above. Those skilled in the industry should understand that the present invention is not limited by the above-mentioned embodiments, and what described in the above-mentioned embodiments and the description only illustrates the principles of the present invention, and the present invention will also have other functions without departing from the spirit and scope of the present invention. Variations and improvements all fall within the scope of the claimed invention. The protection scope of the present invention is defined by the appended claims and their equivalents.

Claims (10)

1. A dust removal device, characterized in that: it comprises a dust collection housing, an upper port is provided on the top end surface of the dust collection housing, a lower port is provided on the bottom end surface of the dust collection housing, and the dust collection housing is provided with a lower port. A dust collection chamber communicated with the upper port and the lower port is provided in the dust housing; The dust-collecting housing on one side of the dust-collecting chamber is provided with a nozzle holder, and a high-pressure nozzle with an air outlet facing the dust-collecting chamber is installed in the nozzle holder, and the high-pressure nozzle and the dust-collecting chamber A nozzle angle adjustment device is installed between the housings, the high-pressure nozzle is connected to a gas source through a connecting pipe, and a flow rate control device is installed on the connecting pipe between the high-pressure nozzle and the gas source; The dust-collecting housing on the other side of the dust-collecting chamber is provided with a negative-pressure suction port, and between the negative-pressure suction port and the dust-collecting chamber is a top end facing the negative-pressure suction port. The inclined anti-reversal plate, the negative pressure suction port is connected with a negative pressure device; The dust collecting housing is provided with a fixed connection device connected with the application equipment. 2. A dust removal device according to claim 1, characterized in that: the nozzle holder includes a nozzle clamping plate installed on the dust collection housing, and the nozzle clamping plate is provided with a The nozzle card slot through which the above-mentioned high-pressure nozzle passes. 3. A dust removal device according to claim 1, characterized in that: the nozzle angle adjustment device rotates the nozzle angle adjustment plate installed on the dust collection housing, and the nozzle angle adjustment plate is connected to the collector An angle positioning locking device is installed between the dust housings, the gas outlet end of the high-pressure nozzle is clamped on the nozzle holder, and the other end of the high-pressure nozzle is fixedly connected with the nozzle angle adjustment plate. 4. A dust removal device according to claim 3, wherein the angle positioning locking device comprises a locking bolt passing through the dust collecting housing and threadedly connected with the nozzle angle adjusting plate. 5. A dust removal device according to claim 1, characterized in that: said flow rate control device comprises a flow rate control valve. 6. A dust removal device according to claim 1, characterized in that: the negative pressure device comprises a negative pressure tube connected to the negative pressure suction port, and the negative pressure tube is connected with a negative pressure suction machine. 7. A dust removal device according to claim 1, characterized in that: said fixed connection device comprises a fixed connection plate, and said fixed connection plate is provided with at least two waist-shaped holes. 8. A dust removal device according to any one of claims 1 to 7, characterized in that: the connecting pipe is connected with two high-pressure nozzles through a three-way joint, and the two high-pressure nozzles are connected side by side to the inside the nozzle holder described above. 9. A laser processing equipment, comprising a base, a bracket is installed on the base, a beam is installed on the bracket, an axially adjustable X-axis transmission mechanism is installed on the beam, and a Y axis is installed on the base. shaft transmission mechanism, the Y-axis transmission mechanism is equipped with an adsorption platform for placing workpieces, the X-axis transmission mechanism is equipped with a Z-axis transmission mechanism, and an image acquisition device is installed on the Z-axis transmission mechanism. In that: the dust removal device according to claim 1 is also installed on the Z-axis transmission mechanism. 10. A laser processing method, comprising a dust removal process, characterized in that: in the dust removal process, the dust removal device as claimed in claim 1 is used for dust removal, and the dust in the dust collection chamber is collected by the high-pressure airflow generated by the high-pressure nozzle Blow into the negative pressure suction port, and the dust in the negative pressure suction port will be sucked away by the negative pressure device.