CN217475105U - Laser engraving machine with oil fume filtering function - Google Patents

Abstract

The utility model discloses a laser engraving machine with oil smoke filtering function, which comprises a bracket, a beam, a sliding frame, a laser marking head, a first driving mechanism and a second driving mechanism; two ends of the beam can be respectively and longitudinally movably arranged on two sides of the bracket back and forth; the sliding frame can be transversely and movably arranged on the cross beam back and forth; the laser marking head is arranged on the sliding frame; the first driving mechanism is arranged on the cross beam and drives the cross beam to move back and forth longitudinally; the second driving mechanism is arranged on the sliding frame and drives the sliding frame to transversely move back and forth; the sliding frame is provided with a filtering air box which is communicated with the laser marking head through a smoke exhaust pipe. Through being provided with filter bellows to utilize the pipe of discharging fume will filter bellows through marking the head intercommunication with laser, make oil smoke or dust granule that laser marking head cutting produced directly absorb through filter bellows, can carry out effective filtration to dust granule and smog, alleviateed the injury that engraver smog and dust granule brought greatly.

Description

Laser engraving machine with oil fume filtering function

Technical Field

The utility model belongs to the technical field of the laser engraving machine and specifically relates to indicate a take oil smoke filtering capability's laser engraving machine.

Background

As the name suggests, the laser engraving machine is an advanced device for engraving materials to be engraved by using laser. Laser engravers are different from mechanical engravers, which engrave something else using mechanical means, such as very hard materials like diamond, and other traditional hand engraving methods.

The laser engraving machine uses the heat energy of laser to engrave the material, and the laser in the laser engraving machine is the core of the laser engraving machine. Generally speaking, the laser engraving machine has wider application range, higher engraving precision and faster engraving speed. Compared with the traditional manual carving mode, the laser carving can also achieve a fine carving effect which is not inferior to the technological level of manual carving. Because of the many advantages of laser engraving machines, the use of laser engraving machines has gradually replaced the traditional engraving equipment and methods. Becomes the main engraving device.

The traditional laser engraving machine has no oil fume filtering function, the engraving machine can only engrave and cut according to the instruction of a control system, a large amount of smoke and dust particles generated by cutting are not subjected to aftertreatment, and a large amount of harmful gases such as carbon monoxide and the like can be generated after long-time working under the condition of poor indoor ventilation condition, so that the human health is injured; secondly, traditional laser engraving machine is only a circuit control system, and the connecting cable hangs in the air greatly, is unfavorable for the use, and the operation is inflexible, when connecting cable and support or other accessories interfere, causes the connector interface to become flexible and drops. Therefore, there is a need for improvements in current laser engraving machines.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a laser engraving machine with a fume filtering function, which has a fume filtering function.

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

a laser engraving machine with an oil fume filtering function comprises a support, a cross beam, a sliding frame, a laser marking head, a first driving mechanism and a second driving mechanism; two ends of the beam can be respectively and longitudinally movably arranged on two sides of the bracket back and forth; the sliding frame can be transversely and movably arranged on the cross beam back and forth; the laser marking head is arranged on the sliding frame; the first driving mechanism is arranged on the cross beam and drives the cross beam to move back and forth longitudinally; the second driving mechanism is arranged on the sliding frame and drives the sliding frame to transversely move back and forth; the sliding frame is provided with a filtering air box, and the filtering air box is communicated with the laser marking head through a smoke exhaust pipe.

Preferably, the support comprises a frame and mounting bases arranged at each corner of the frame.

Preferably, a power supply box is arranged on the cross beam, the laser marking head is connected with the power supply box through a first control line, the first driving mechanism is connected with the power supply box through a second control line, the second driving mechanism is connected with the power supply box through a third control line, and the filtering air box is connected with the power supply box through a fourth control line.

Preferably, the second control line is hidden in the crossbeam, the crossbeam is provided with a tank chain, and the first control line, the third control line and the fourth control line are hidden in the tank chain.

Preferably, the power supply box is provided with a power supply jack and a USB data line jack.

Preferably, the first driving mechanism comprises a coupler, a Y-axis motor, two groups of first pulleys and two first synchronous wheels; the coupler is rotatably arranged on the cross beam and transversely extends; the Y-axis motor is fixed at one end of the cross beam and drives the shaft coupling to rotate back and forth; the two groups of first pulleys are respectively and rotatably arranged at two ends of the cross beam and respectively abut against two sides of the bracket; the two first synchronous wheels are respectively fixed at two ends of the coupler and respectively drive the corresponding first pulleys to rotate through the belt.

Preferably, the second driving mechanism comprises a second pulley and an X-axis stepping motor; the second pulley is rotatably arranged on the sliding frame and abuts against the cross beam, the X-axis stepping motor is fixed on the sliding frame, and a second synchronizing wheel is fixed on an output shaft of the X-axis stepping motor and drives the second pulley to rotate through a belt.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme:

one, through being provided with filtering bellows to utilize the pipe of discharging fume will filter bellows through marking the head intercommunication with the laser, make the oil smoke that the head cutting of laser was marked produced or dust granule directly absorb through filtering bellows, can effectively filter dust granule and smog, alleviateed the injury that engraver smog and dust granule brought greatly.

The power supply box is arranged, and the power supply box is matched with each control line to be hidden, so that the swinging of the control lines is reduced, the control lines are well protected, the operation and the use are convenient, and the movement and the disassembly are convenient.

Drawings

Fig. 1 is a perspective view of a preferred embodiment of the present invention.

The attached drawings indicate the following:

10. support 11, frame

12. Mounting base 20, cross beam

30. Carriage 40, laser marking head

50. First drive mechanism 51 and coupling

52. Y-axis motor 53 and first pulley

54. First synchronizing wheel 60, second drive mechanism

61. Second pulley 62, X axle step motor

63. Second synchronizing wheel 70, filter bellows

80. Smoke exhaust pipe 90 and power supply box

91. Power supply jack 92 and USB data line jack

101. Tank chain

Detailed Description

Referring to fig. 1, a detailed structure of a preferred embodiment of the present invention is shown, which includes a support 10, a cross beam 20, a sliding frame 30, a laser marking head 40, a first driving mechanism 50, and a second driving mechanism 60.

The support 10 comprises a frame 11 and mounting bases 12 arranged at each corner of the frame 11, wherein the frame 11 is square and is formed by splicing four sectional materials.

The two ends of the cross beam 20 are respectively and longitudinally movably mounted on the two sides of the bracket 10 back and forth, and the cross beam 20 is of a profile structure. The carriage 30 is movably disposed on the cross member 20 in a transverse direction back and forth.

The laser marking head 40 is disposed on the carriage 30, and a filter air box 70 is disposed on the carriage 30, and the filter air box 70 communicates with the laser marking head 40 through a smoke discharge pipe 80.

The first driving mechanism 50 is disposed on the cross beam 20 and drives the cross beam 20 to move back and forth longitudinally; in this embodiment, the first driving mechanism 50 includes a coupling 51, a Y-axis motor 52, two sets of first pulleys 53 and two first synchronous wheels 54; the coupling 51 is rotatably arranged on the beam 20 and extends transversely; the Y-axis motor 52 is fixed at one end of the beam 20 and drives the coupling 51 to rotate back and forth; the two groups of first pulleys 53 are respectively rotatably mounted at two ends of the cross beam 20 and respectively abut against two sides of the bracket 10; the two first synchronizing wheels 54 are respectively fixed at two ends of the coupler 51 and respectively drive the corresponding first pulleys 53 to rotate through belts (not shown), specifically, another first synchronizing wheel 54 is fixed beside the first pulleys 53, the two first synchronizing wheels 54 are connected through belts, so as to drive the first pulleys 53 to rotate, and the first pulleys 53 rotate and roll on the support 10 to realize the longitudinal movement of the cross beam 20.

The second driving mechanism 60 is disposed on the sliding frame 30 and drives the sliding frame 30 to move back and forth in the transverse direction; in the present embodiment, the second driving mechanism 60 includes a second pulley 61 and an X-axis stepping motor 62; the second pulley 61 is rotatably disposed on the sliding frame 30 and abuts against the cross beam 20, the X-axis stepping motor 62 is fixed on the sliding frame 30, a second synchronizing wheel 63 is fixed on an output shaft of the X-axis stepping motor 62, the second synchronizing wheel 63 drives the second pulley 61 to rotate through a belt (not shown), specifically, another second synchronizing wheel 63 is fixed beside the second pulley 61, the two second synchronizing wheels 63 are connected through a belt, so as to drive the second pulley 61 to rotate, and the second pulley 61 rotates and rolls on the cross beam 20 to realize the transverse movement of the sliding frame 30.

The beam 20 is provided with a power supply box 90, the laser marking head 40 is connected with the power supply box 90 through a first control line (not shown), the first driving mechanism 50 is connected with the power supply box 90 through a second control line (not shown), the second driving mechanism 60 is connected with the power supply box 90 through a third control line (not shown), the filtering air box 70 is connected with the power supply box 90 through a fourth control line (not shown), the second control line is hidden in the beam 20, the beam 20 is provided with a tank chain 101, and the first control line, the third control line and the fourth control line are hidden in the tank chain 101; the power supply box 90 has a power supply jack 91 and a USB data line jack 92.

The working principle of the embodiment is detailed as follows:

when the device works, the first driving mechanism 50 drives the cross beam 20 to move longitudinally, and the second driving mechanism 60 is matched with the cross frame 30 to drive the sliding frame 30 to move transversely, so that the laser marking head 40 moves transversely and/or longitudinally to a preset position to perform laser marking on a workpiece, oil smoke and dust particles are generated at the position of the laser marking head 40 in the laser marking process, at the moment, the filtering air box 70 can be opened, and the smoke exhaust pipe 80 absorbs the oil smoke and the dust particles.

The utility model discloses a design key is: at first, through being provided with filtering bellows to utilize the pipe of discharging fume will filter bellows through marking the head intercommunication with the laser, make the oil smoke that the head cutting of laser was marked produced or dust granule directly absorb through filtering bellows, can effectively filter dust granule and smog, alleviateed the injury that engraver smog and dust granule brought greatly. Secondly, through being provided with the power pack to cooperate each control line to hide, reduce the swing of control line, make the control line obtain fine protection, both convenient operation and use can conveniently remove and dismantle again.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (7)

1. A laser engraving machine with an oil fume filtering function comprises a support, a cross beam, a sliding frame, a laser marking head, a first driving mechanism and a second driving mechanism; two ends of the beam can be respectively and longitudinally movably arranged on two sides of the bracket back and forth; the sliding frame can be transversely and movably arranged on the cross beam back and forth; the laser marking head is arranged on the sliding frame; the first driving mechanism is arranged on the cross beam and drives the cross beam to move back and forth longitudinally; the second driving mechanism is arranged on the sliding frame and drives the sliding frame to transversely move back and forth; the method is characterized in that: the sliding frame is provided with a filtering air box which is communicated with the laser marking head through a smoke exhaust pipe.

2. The laser engraving machine with the fume filtering function according to claim 1, wherein: the support is including the frame with set up in the installation base of each edge of frame department.

3. The laser engraving machine with the fume filtering function according to claim 1, wherein: the beam is provided with a power supply box, the laser marking head is connected with the power supply box through a first control line, the first driving mechanism is connected with the power supply box through a second control line, the second driving mechanism is connected with the power supply box through a third control line, and the filtering bellows is connected with the power supply box through a fourth control line.

4. The laser engraving machine with the fume filtering function according to claim 3, wherein: the second control line is hidden in the crossbeam, and is provided with the tank chain on the crossbeam, and this first control line, third control line and fourth control line are all hidden in the tank chain.

5. The laser engraving machine with the fume filtering function according to claim 3, wherein: the power supply box is provided with a power supply jack and a USB data line jack.

6. The laser engraving machine with the fume filtering function according to claim 1, wherein: the first driving mechanism comprises a coupler, a Y-axis motor, two groups of first pulleys and two first synchronous wheels; the coupler is rotatably arranged on the cross beam and transversely extends; the Y-axis motor is fixed at one end of the cross beam and drives the shaft coupling to rotate back and forth; the two groups of first pulleys are respectively and rotatably arranged at two ends of the cross beam and respectively abut against two sides of the bracket; the two first synchronous wheels are respectively fixed at two ends of the coupler and respectively drive the corresponding first pulleys to rotate through the belts.

7. The laser engraving machine with the fume filtering function according to claim 1, wherein: the second driving mechanism comprises a second pulley and an X-axis stepping motor; the second pulley is rotatably arranged on the sliding frame and abuts against the cross beam, the X-axis stepping motor is fixed on the sliding frame, and a second synchronizing wheel is fixed on an output shaft of the X-axis stepping motor and drives the second pulley to rotate through a belt.

Images