CN210548950U

CN210548950U - Laser drilling equipment based on photosensitive sensor control

Info

Publication number: CN210548950U
Application number: CN201921353851.9U
Authority: CN
Inventors: 顾国正
Original assignee: Suzhou Huazhen Mechanical Electrical Appliance Co ltd
Current assignee: Suzhou Huazhen Mechanical Electrical Appliance Co ltd
Priority date: 2019-08-20
Filing date: 2019-08-20
Publication date: 2020-05-19
Anticipated expiration: 2029-08-20

Abstract

The utility model discloses a laser drilling equipment based on photosensitive induction ware control. The laser drilling device comprises a base, laser drilling equipment and a controller, wherein the laser drilling equipment and the controller are arranged on the base; the base is sequentially provided with a photosensitive sensor, light-transmitting glass, a supporting structure and a punching material from bottom to top; a suction device for collecting waste gas and waste residues is arranged outside the base; the suction device is communicated with the outlet; the photosensitive sensor is electrically connected with the suction device; the controller is electrically connected with the photosensitive sensor; the photosensitive sensor is used for acquiring optical signals of the laser beams passing through the light-transmitting glass; state the light signal that the controller is used for receiving photosensitive sensor collection to control suction device and open and stop work, the utility model is simple in operation, can realize detaching fast of the waste residue waste gas that produces among the laser beam drilling, be worth using widely.

Description

Laser drilling equipment based on photosensitive sensor control

Technical Field

The utility model belongs to the technical field of the laser beam drilling technique and specifically relates to a laser beam drilling equipment based on photosensitive induction ware control.

Background

The laser perforating machine adopts a metal laser which takes a xenon lamp as an excitation source to output a laser beam with high energy density, focuses the laser beam on the surface of a workpiece, enables the local part of the area irradiated by a facula on the workpiece to be instantly melted and gasified, and then moves the facula irradiation position through a computer-controlled numerical control mechanical system to realize automatic perforating. The laser drilling is a modern high and new technology device integrating a laser technology, a numerical control technology and a precision mechanical technology. However, re-condensed material and discharges may be present at the upper edge of the hole during the drilling process, which may affect the quality of the drilled hole, and the waste gas generated by the high temperature burning of the laser during the drilling process may be harmful to the human body and the environment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a laser drilling equipment based on photosensitive induction ware control to solve the problem of mentioning in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a laser drilling device based on photosensitive sensor control comprises a base, a laser drilling device and a controller, wherein the laser drilling device and the controller are arranged on the base; a supporting structure for placing a workpiece is arranged at the opening of the base; transparent glass is arranged below the supporting structure in the base; the light-transmitting glass is obliquely arranged; a photosensitive sensor is arranged below the light-transmitting glass in the base; an outlet is formed in the side surface of the base and positioned at the inclined lower end of the light-transmitting glass; a suction device for collecting waste gas and waste residues is arranged outside the base; the suction device is communicated with the outlet; the photosensitive sensor is electrically connected with the suction device; the controller is electrically connected with the photosensitive sensor; the photosensitive sensor is used for acquiring optical signals of the laser beams passing through the light-transmitting glass; the controller is used for receiving the optical signal collected by the photosensitive sensor and controlling the starting and stopping of the suction device.

Preferably, the support structure comprises a slide rail and a bracket; two ends of the slide rail are connected with the side wall of the opening; the bracket is arranged on two opposite sides of the sliding rail and is connected with the sliding rail in a sliding way; and a locking structure is arranged on the bracket to lock the bracket on the sliding rail.

Preferably, the suction device comprises a sediment tank, a suction pump and an exhaust gas purification unit; the sediment box body is communicated with the outlet through a pipeline; the inlet of the suction pump is communicated with the sediment box body; the outlet of the suction pump is connected with the waste gas purification unit; the controller is electrically connected with the suction pump and controls the suction pump to start and stop.

Preferably, the purification unit comprises a housing; an air inlet is formed in one side of the shell; an air outlet is formed in the other side of the shell; the air inlet is communicated with an outlet of the suction pump; an activated carbon layer and a honeycomb-shaped ozone catalyst layer are arranged in the shell.

Preferably, the laser drilling equipment comprises a laser emitter, a transmission mechanism, a light gathering mechanism and a laser processing head; the transmission mechanism is an I-shaped columnar structure and is connected to one side of the laser transmitter; a refractor is arranged in the transmission mechanism; the light gathering mechanism is connected below the transmission mechanism; the light condensing mechanism comprises a shell, a condensing lens and a light condensing cavity, and the laser processing head is connected below the laser mechanism.

Preferably, the laser emitter is internally provided with a laser emitting port, and the laser emitting port can uniformly emit a laser beam.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

the utility model discloses a laser drilling equipment based on photosensitive induction ware control, the photosensitive induction ware of printing opacity glass below is receiving the facula that the laser beam sent, controller and photosensitive induction ware electric connection, circuit connection starts purifier and takes waste residue and waste gas out, waste gas and waste residue that the extraction punching in-process that the suction pump can be quick produced, the waste residue can fall in the sediment incasement at the in-process of taking out, the suction pump is arranged waste gas to the purification unit after the filtration of filter screen, waste gas discharges the air behind activated carbon layer and ozone catalyst layer. The arrangement not only can provide convenience for operators, but also can simultaneously control the work of the suction pump and the purification unit, and ensure the quality of products and the working environment of operators.

Drawings

The technical scheme of the utility model is further explained by combining the attached drawings as follows:

fig. 1 is a front view of the laser drilling device based on photosensitive sensor control of the present invention.

Fig. 2 is a top view of the supporting structure of the present invention.

Wherein: 1. a laser transmitter; 21. a transfer drum; 22. a refractor; 23. a heat dissipation port; 3. a condenser; 4. a laser processing head; 50. a base; 51. perforating the material; 52. punching an L-shaped bracket; 53. a slide rail; 54 light-transmitting glass; 55. a photosensitive sensor; 56. a controller; 60. a suction device; 61. a slag settling tank; 62. a filter screen; 63. a suction pump; 64. a purification unit.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

As shown in attached figures 1 and 2, the utility model relates to a laser drilling equipment based on photosensitive sensor control, include: the laser processing device comprises a base 50, a laser emitter 1, a transmission barrel 21, a refractor 22, a heat dissipation port 23, a condenser 3, a laser processing head 4 and a controller 56, wherein the base 50 is of a box structure, the top of the base is provided with an opening, and a supporting structure for placing a workpiece 51 is arranged on the base 50 and positioned at the opening. The supporting structure comprises a sliding rail 53 and a support 52, the sliding rail 53 is a linear sliding rail, the support 52 is an L-shaped structure, the sliding rail 53 is installed in a front-back mode, and two ends of the sliding rail 53 are fixedly connected with the open side wall. The two brackets 52 are arranged on two opposite sides of the slide rail 53 and are slidably connected with the slide rail 53. A locking structure is mounted on the bracket 52 to lock the bracket 52 to the slide. The locking structure is a set screw that is threaded onto the bracket 52 and that, by screwing the screw, abuts the bracket against the slide 53. With the above-described structural design, the brackets 52 slide on the slide rails 53 to adjust the distance between the brackets.

The transparent glass 54 is obliquely arranged, and the material of the transparent glass 54 is high-temperature-resistant quartz glass. The side of base 50 is located the slope lower extreme of printing opacity glass 54 and is equipped with the export, the outside of base 50 is equipped with the suction device 60 that is used for collecting waste gas waste residue, suction device 60 from left to right sinks sediment case 61 in proper order, the filter screen 62, suction pump 63 and purification unit 64, suction device 60 and export intercommunication, photosensitive induction system 55 and suction device 60 electric connection, controller 56 and photosensitive induction system 55 electric connection, photosensitive induction system 55 is used for gathering the light signal of the laser beam that passes printing opacity glass 54, controller 56 is used for receiving the light signal that photosensitive induction system 54 gathered, and control suction device 60 opens and stops work. The slag settling tank 61 is used for receiving the perforated slag which is extracted by the suction pump 63 and falls on the transparent glass. During the suction process, the filter screen 62 can filter out the waste residue that is not deposited in time during suction, ensuring that only the exhaust gas enters the purification unit. The inlet of the purification unit 64 is connected with the outlet of the suction pump 63, the purification unit 64 comprises a shell, an activated carbon layer and a honeycomb ozone catalyst layer are arranged in the shell and used for purifying waste gas generated in perforation, and the purified gas is discharged from the exhaust port of the purification unit.

The laser drilling machine is conventional equipment in the prior art, the laser drilling machine is used for drilling holes by laser, the laser transmitter 1, the transmission mechanism 20, the condenser 3 and the laser processing device 4 are positioned on the same light path, the laser is transmitted by the transmitter 1 and then reaches the refractor 22 through the transmission cylinder 21, the radiator 23 is positioned above the refractor 22, the refractor 22 changes the direction of the laser to enable the laser to pass through the condenser 3, the laser is converged into a laser beam to act on a drilling material 51 through the laser processing head 4 by the condenser 3, the photosensitive sensor 55 collects the optical signal of the laser beam passing through the transparent glass 54, the controller 56 is used for receiving the optical signal collected by the photosensitive sensor 54 and controlling the suction device 60 to start and stop, waste residues are quickly and effectively extracted, and the drilling quality and the working environment are.

During the use, photosensitive induction ware 55 of printing opacity glass 54 below is receiving the facula that the laser beam sent, controller 56 and photosensitive induction ware 55 electric connection, circuit connection starts purifier 60 and takes waste residue and waste gas out, waste gas and waste residue that the extraction punching in-process that suction pump 63 can be quick produced, the waste residue can fall in sediment case 61 at the in-process of taking out, suction pump 63 is discharged waste gas to purification unit 64 after the filtration of filter screen 62, waste gas discharges the air behind activated carbon layer and ozone catalyst layer.

The embodiment can simultaneously control the work of the suction pump and the purification unit, and ensure the quality of products and the working environment of operators.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all utilize the equivalent structure or equivalent flow transformation that the content of the specification does, or directly or indirectly use in other related technical fields, all including in the same way the patent protection scope of the present invention.

Claims

1. The utility model provides a laser drilling equipment based on photosensitive induction ware control, includes the base, sets up laser drilling equipment and the controller on the base, its characterized in that: the base is of a box structure, and the top of the base is provided with an opening; a supporting structure for placing a workpiece is arranged at the opening of the base; transparent glass is arranged below the supporting structure in the base; the light-transmitting glass is obliquely arranged; a photosensitive sensor is arranged below the light-transmitting glass in the base; an outlet is formed in the side surface of the base and positioned at the inclined lower end of the light-transmitting glass; a suction device for collecting waste gas and waste residues is arranged outside the base; the suction device is communicated with the outlet; the photosensitive sensor is electrically connected with the suction device; the controller is electrically connected with the photosensitive sensor; the photosensitive sensor is used for collecting optical signals of the laser beams passing through the light-transmitting glass; the controller is used for receiving the optical signal collected by the photosensitive sensor and controlling the starting and stopping of the suction device.

2. The photosensitive sensor control-based laser drilling apparatus according to claim 1, wherein: the support structure comprises a slide rail and a bracket; two ends of the slide rail are connected with the side wall of the opening; the bracket is arranged on two opposite sides of the sliding rail and is connected with the sliding rail in a sliding way; and a locking structure is arranged on the bracket to lock the bracket on the sliding rail.

3. The photosensitive sensor control-based laser drilling apparatus according to claim 1, wherein: the suction device comprises a sediment box body, a suction pump and a waste gas purification unit; the sediment box body is communicated with the outlet through a pipeline; the inlet of the suction pump is communicated with the sediment box body; the outlet of the suction pump is connected with the waste gas purification unit; the controller is electrically connected with the suction pump and controls the suction pump to start and stop.

4. The photosensitive sensor control-based laser drilling device according to claim 3, wherein: the purification unit includes a housing; an air inlet is formed in one side of the shell; an air outlet is formed in the other side of the shell; the air inlet is communicated with an outlet of the suction pump; an activated carbon layer and a honeycomb-shaped ozone catalyst layer are arranged in the shell.

5. The photosensitive sensor control-based laser drilling apparatus according to claim 1, wherein: the laser drilling equipment comprises a laser emitter, a transmission mechanism, a light gathering mechanism and a laser processing head; the transmission mechanism is an I-shaped columnar structure and is connected to one side of the laser transmitter; a refractor is arranged in the transmission mechanism; the light gathering mechanism is connected below the transmission mechanism; the light condensing mechanism comprises a shell, a condensing lens and a light condensing cavity, and the laser processing head is connected below the laser mechanism.

6. The photosensitive sensor control-based laser drilling device according to claim 5, wherein: the laser emitter is internally provided with a laser emitting port, and the laser emitting port can uniformly emit laser beams.