CN210475847U - High-precision laser cutting forming process system for hard door frame with spiral track - Google Patents

High-precision laser cutting forming process system for hard door frame with spiral track Download PDF

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Publication number
CN210475847U
CN210475847U CN201921381604.XU CN201921381604U CN210475847U CN 210475847 U CN210475847 U CN 210475847U CN 201921381604 U CN201921381604 U CN 201921381604U CN 210475847 U CN210475847 U CN 210475847U
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dust
laser cutting
water
cover
dust collection
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沈敏伟
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Wuxi Gude Door Industry Co Ltd
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Wuxi Gude Door Industry Co Ltd
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Abstract

The utility model discloses a high-precision laser cutting forming process system for a hard door frame with a spiral track, which comprises a laser cutting machine and a combined dust cooling treatment device; the laser cutting machine is provided with a dust collecting cover, the dust collecting cover is positioned right below a supporting net rack of the laser cutting machine, the composite dust cooling treatment equipment is arranged on the short end side of the dust collecting cover, and the dust and polluted gas input end of the composite dust cooling treatment equipment is communicated with the interior of the short end side of the dust collecting cover; the combined type dust cooling treatment equipment can suck dust in the dust collecting cover into the dust collecting cover to cool and collect, and the combined type dust cooling treatment equipment can suck polluted gas in the dust collecting cover into the dust collecting cover to purify. The utility model discloses can in time clear away dust and the gaseous pollutant that produces in the laser cutting course of working, avoid the dust to be infected with the work piece and cause processing badly and avoid gaseous pollutant to cause the pollution to the workshop environment.

Description

High-precision laser cutting forming process system for hard door frame with spiral track
Technical Field
The utility model belongs to the technical field of the door industry processing equipment, especially, relate to a spiral track stereoplasm door frame high accuracy laser cutting shaping process systems.
Background
Can produce dust and gaseous pollutants in the operation process of laser cutting technology, present mill places the collecting vat in laser cutting machine bottom mostly and carries out the collection of dust, but this kind of collection effect is not good, floats on the tiny particle dust in the air is infected with easily on the work piece, causes processing badly, in addition, does not carry out the cooling of concentrating to the dust and clears away, and the smell that the dust gived off still can lead to the fact the pollution to the surrounding environment. Based on the above reason, the utility model provides a spiral track stereoplasm door frame high accuracy laser cutting shaping process systems can in time clear away dust and the gaseous pollutants that produce in the laser cutting course of working, avoids the dust to be infected with the work piece and causes the processing badly and avoid gaseous pollutants to cause the pollution to the workshop environment.
Disclosure of Invention
The purpose of the invention is as follows: in order to overcome exist not enough among the prior art, the utility model provides a spiral track stereoplasm door frame high accuracy laser cutting shaping process systems can in time clear away dust and the gaseous pollutants that produce in the laser cutting course of working, avoids the dust to be infected with the work piece and causes the processing badly and avoid gaseous pollutants to cause the pollution to the workshop environment.
The technical scheme is as follows: in order to achieve the purpose, the utility model discloses a high-precision laser cutting and forming process system of a spiral track hard door frame, which comprises a laser cutting machine and a combined type dust cooling treatment device; the laser cutting machine is provided with a dust collecting cover, the dust collecting cover is positioned right below a supporting net rack of the laser cutting machine, and a cover opening of the dust collecting cover completely surrounds the whole supporting net rack in the overlooking direction; the bottom cover plate of the dust collecting cover is in an inclined state, the composite dust cooling treatment equipment is arranged on the short end side of the dust collecting cover, and the dust and polluted gas input end of the composite dust cooling treatment equipment is communicated with the interior of the short end side of the dust collecting cover; the combined type dust cooling treatment equipment can suck dust in the dust collecting cover into the dust collecting cover to cool and collect, and the combined type dust cooling treatment equipment can suck polluted gas in the dust collecting cover into the dust collecting cover to purify.
Furthermore, a side middle ash outlet is formed in the middle of the short end side of the dust collection cover, and two side bottom ash outlets symmetrical with respect to the side middle ash outlet are formed in the bottom of the short end side of the dust collection cover;
the composite dust cooling treatment equipment comprises a dust collection box, an air suction pump, a first pipeline, a water-cooling dust falling box, a second pipeline and an air treatment box which are connected in sequence; the dust collection box is provided with a first input pipe, two second input pipes and an output pipe, the first input pipe is in butt joint with the side middle ash outlet, the second input pipe is in butt joint with the side bottom ash outlet, and the output pipe is in butt joint with the air inlet end of the air suction pump; the water-cooling dust falling box is internally filled with water, the first pipeline is communicated with the inner bottom of the water-cooling dust falling box, and the communication position of the second pipeline and the water-cooling dust falling box is positioned above the water surface; a vertical sliding rod is arranged at the top of the water-cooling dust falling box in a vertically sliding mode, the lower end of the vertical sliding rod is connected with an elastic stirring piece immersed in water, the upper end of the vertical sliding rod is connected with an air cylinder, and a piston rod of the air cylinder can vertically extend and retract to drive the vertical sliding rod to drive the elastic stirring piece to vertically move back and forth to stir water; an air filter is arranged in the air treatment box;
the elastic stirring piece is formed by sequentially and alternately connecting a plurality of stirring plates and springs from top to bottom; a plurality of through holes are formed in the stirring plate; the uppermost part of the elastic stirring piece is a stirring plate, and the vertical sliding rod is fixedly connected with the stirring plate; the lowest part of the elastic stirring piece is a spring, the spring is in a limit compression state, and the stirring plate positioned at the lowest part is higher than the communication part of the first pipeline and the water-cooling dust falling box.
Further, the cover opening end edge of the dust collection cover is fixedly connected with a rack of the laser cutting machine in a welding mode.
Has the advantages that: the utility model discloses a spiral track stereoplasm door frame high accuracy laser cutting shaping process systems, beneficial effect as follows:
1) the utility model can remove dust and pollution gas generated in the laser cutting process in time, avoid the dust from contaminating the workpiece to cause poor processing and avoid the pollution of the pollution gas to the environment of the processing workshop;
2) the utility model discloses a vertical flexible drive vertical slide bar of piston rod of cylinder drives the vertical round trip movement of elastic stirring spare and stirs water, can make more the blending into aquatic of solid dust, and dust fall effect is very good.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic structural diagram of a laser cutting machine;
FIG. 3 is a front view of FIG. 2;
FIG. 4 is a schematic structural view of the combined dust temperature-reducing processing device;
FIG. 5 is a schematic view of a water-cooled dust settling tank and the internal structure thereof;
FIG. 6 is a schematic view of an air treatment cabinet and its internal structure.
Detailed Description
The present invention will be further described with reference to the accompanying drawings.
As shown in fig. 1 and 3, a high-precision laser cutting and forming process system for a spiral track hard door frame comprises a laser cutting machine 1 and a composite dust cooling treatment device 2; the laser cutting machine 1 is provided with a dust collecting cover 13, the dust collecting cover 13 is positioned under a support net rack 11 of the laser cutting machine 1, a cover opening of the dust collecting cover 13 completely surrounds the whole support net rack 11 in the overlooking direction, and when the laser cutting machining process is carried out, the generated dust can be ensured to fall into the dust collecting cover 13 completely; the bottom cover plate 131 of the dust collection cover 13 is in an inclined state, the composite dust temperature reduction treatment equipment 2 is arranged at the short end side of the dust collection cover 13, and the dust and polluted gas input end of the composite dust temperature reduction treatment equipment 2 is communicated with the interior of the short end side of the dust collection cover 13; the combined type dust cooling treatment equipment 2 can suck dust in the dust collection cover 13 into the dust collection cover for cooling collection, and the combined type dust cooling treatment equipment 2 can suck polluted gas in the dust collection cover 13 into the dust collection cover for purification treatment. The utility model discloses can in time clear away dust and the gaseous pollutant that produces in the laser cutting course of working, avoid the dust to be infected with the work piece and cause processing badly and avoid gaseous pollutant to cause the pollution to the workshop environment. It is worth noting that the utility model discloses not only carried out the dust fall to the dust and handled, but also can both carry out purification treatment to the gaseous pollutant that produces among the laser cutting process and by dust pollution's gas, handle comparatively comprehensively, thoroughly.
The utility model discloses in, when starting combined type dust cooling treatment facility 2 and removing dust, owing to have the suction effect towards combined type dust cooling treatment facility 2 in the cover 13 is collected to the dust, it will slide to the short end of cover 13 along the bottom shield board 131 of slope to fall into the heavier dust in cover 13 bottom is collected to the dust, and then inhale by combined type dust cooling treatment facility 2, the inside floated lighter dust of cover 13 and polluted gas are collected to the dust is inhaled by combined type dust cooling treatment facility 2, near the cover mouth of collecting cover 13 also can produce the suction towards combined type dust cooling treatment facility 2, make the polluted gas that laser cutting produced inhale combined type dust cooling treatment facility 2.
As shown in fig. 2 and fig. 4 to fig. 6, a side middle ash outlet 13a is formed in the middle of the short end side of the dust collection cover 13, two side bottom ash outlets 13b symmetrical with respect to the side middle ash outlet 13a are formed in the bottom of the short end side of the dust collection cover 13, and the positions of the side middle ash outlet 13a and the side bottom ash outlet 13b are very reasonable, so that the dust at the bottom in the short end of the dust collection cover 13 can be sucked by the combined type dust cooling processing device 2, the dust floating in the dust collection cover 13 and the polluted gas can be sucked by the combined type dust cooling processing device 2, and the dust and the polluted gas can be thoroughly removed; more specifically, the combined dust cooling treatment equipment 2 comprises a dust collection box 21, an air suction pump 22, a first pipeline 23, a water-cooling dust cooling box 24, a second pipeline 25 and an air treatment box 26 which are connected in sequence; the dust collection box 21 is provided with a first input pipe 21a, two second input pipes 21b and an output pipe 21c, the first input pipe 21a is in butt joint with the side middle dust outlet 13a, the second input pipe 21b is in butt joint with the side bottom dust outlet 13b, and the output pipe 21c is in butt joint with the air inlet end of the air suction pump 22; the water-cooled dust falling box 24 is internally filled with water, the first pipeline 23 is communicated with the inner bottom of the water-cooled dust falling box 24, and the communication position of the second pipeline 25 and the water-cooled dust falling box 24 is positioned above the water surface; a vertical sliding rod 27 is arranged at the top of the water-cooling dust falling box 24 in a vertically sliding mode, the lower end of the vertical sliding rod 27 is connected with an elastic stirring piece 28 immersed in water, the upper end of the vertical sliding rod 27 is connected with an air cylinder, and a piston rod of the air cylinder can vertically extend and retract to drive the vertical sliding rod 27 to drive the elastic stirring piece 28 to vertically move back and forth to stir water; an air filter 29 is arranged in the air treatment box 26; the polluted gas mixed with dust is introduced into the water in the water-cooling dust falling box 24, the gas flows from bottom to top, meanwhile, the air cylinder drives the elastic stirring piece 28 to vertically move back and forth to stir the water, the water cools the dust and the polluted gas, part of the dust mixed with the polluted gas is mixed into the water, and then the polluted gas is subjected to thorough purification treatment by the air filter 29 in the air treatment box 26, so that pollutants are removed, and clean air is discharged; it should be noted that the elastic stirring member 28 is formed by alternately connecting a plurality of stirring plates 281 and springs 282 from top to bottom; a plurality of through holes are formed in the stirring plate 281; the uppermost part of the elastic stirring piece 28 is a stirring plate 281, and the vertical sliding rod 27 is fixedly connected with the stirring plate 281; the lowest part of the elastic stirring piece 28 is a spring 282, and the spring 282 is in the extreme compression state, and the stirring plate 281 positioned at the lowest part is higher than the communication part of the first pipeline 23 and the water-cooled dust falling box 24. According to the self structural feature of elastic stirring piece 28, the contaminated gas of aquatic scurries the in-process and can cause the impact to stirring board 281 on going up, make stirring board 281 through spring 282 interconnect produce the vibration, realize the less stirring effect to water, in addition, the reunion cylinder drives the vertical round trip movement of elastic stirring piece 28 and stirs water, make stirring board 281 can carry out stirring effect thoroughly to water, thereby make the dust can be more the income aquatic, improve dust fall treatment effeciency.
More specifically, the utility model discloses in, the cover opening end edge of cover 13 is collected to the dust links firmly along the frame 12 welding with laser cutting machine 1.
The above description is only a preferred embodiment of the present invention, and it should be noted that: for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications should also be considered as the protection scope of the present invention.

Claims (3)

1. The utility model provides a spiral track stereoplasm door frame high accuracy laser cutting shaping process systems which characterized in that: comprises a laser cutting machine (1) and a composite dust cooling treatment device (2); the laser cutting machine (1) is provided with a dust collecting cover (13), the dust collecting cover (13) is positioned under a supporting net rack (11) of the laser cutting machine (1), and a cover opening of the dust collecting cover (13) completely surrounds the whole supporting net rack (11) in the overlooking direction; the bottom cover plate (131) of the dust collection cover (13) is in an inclined state, the combined type dust cooling treatment equipment (2) is arranged on the short end side of the dust collection cover (13), and the dust and polluted gas input end of the combined type dust cooling treatment equipment (2) is communicated with the interior of the short end side of the dust collection cover (13); the combined type dust cooling treatment equipment (2) can suck dust in the dust collection cover (13) into the dust collection cover to cool and collect, and the combined type dust cooling treatment equipment (2) can suck polluted gas in the dust collection cover (13) into the dust collection cover to purify.
2. The high-precision laser cutting forming process system for the spiral track hard door frame according to claim 1, wherein the high-precision laser cutting forming process system comprises the following steps: a side middle ash outlet (13a) is formed in the middle of the short end side of the dust collection cover (13), and two side bottom ash outlets (13b) which are symmetrical about the side middle ash outlet (13a) are formed in the bottom of the short end side of the dust collection cover (13);
the composite dust cooling treatment equipment (2) comprises a dust collection box (21), an air suction pump (22), a first pipeline (23), a water-cooling dust collection box (24), a second pipeline (25) and an air treatment box (26) which are connected in sequence; the dust collection box (21) is provided with a first input pipe (21a), two second input pipes (21b) and an output pipe (21c), the first input pipe (21a) is in butt joint with the side middle ash outlet (13a), the second input pipe (21b) is in butt joint with the side bottom ash outlet (13b), and the output pipe (21c) is in butt joint with the air inlet end of the air suction pump (22); the water-cooling dust falling box (24) is internally filled with water, the first pipeline (23) is communicated with the inner bottom of the water-cooling dust falling box (24), and the communication position of the second pipeline (25) and the water-cooling dust falling box (24) is positioned above the water surface; a vertical sliding rod (27) is arranged at the top of the water-cooling dust falling box (24) in a vertically sliding mode, the lower end of the vertical sliding rod (27) is connected with an elastic stirring piece (28) immersed in water, the upper end of the vertical sliding rod (27) is connected with an air cylinder, and a piston rod of the air cylinder can vertically extend and retract to drive the vertical sliding rod (27) to drive the elastic stirring piece (28) to vertically move back and forth to stir water; an air filter (29) is arranged in the air processing box (26);
the elastic stirring piece (28) is formed by connecting a plurality of stirring plates (281) and springs (282) in turn from top to bottom; a plurality of through holes are formed in the stirring plate (281); the uppermost part of the elastic stirring piece (28) is a stirring plate (281), and the vertical sliding rod (27) is fixedly connected with the stirring plate (281); the lowest part of the elastic stirring piece (28) is provided with a spring (282), the spring (282) is in a limit compression state, and the stirring plate (281) positioned at the lowest part is higher than the communication part of the first pipeline (23) and the water-cooling dust falling box (24).
3. The high-precision laser cutting forming process system for the spiral track hard door frame according to claim 1, wherein the high-precision laser cutting forming process system comprises the following steps: and the cover opening end edge of the dust collection cover (13) is fixedly connected with a frame (12) of the laser cutting machine (1) in a welding mode.
CN201921381604.XU 2019-08-23 2019-08-23 High-precision laser cutting forming process system for hard door frame with spiral track Active CN210475847U (en)

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Application Number Priority Date Filing Date Title
CN201921381604.XU CN210475847U (en) 2019-08-23 2019-08-23 High-precision laser cutting forming process system for hard door frame with spiral track

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921381604.XU CN210475847U (en) 2019-08-23 2019-08-23 High-precision laser cutting forming process system for hard door frame with spiral track

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CN210475847U true CN210475847U (en) 2020-05-08

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114473339A (en) * 2022-03-02 2022-05-13 江苏天晶智能装备有限公司 Thermal cutting machine and thermal cutting method

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114473339A (en) * 2022-03-02 2022-05-13 江苏天晶智能装备有限公司 Thermal cutting machine and thermal cutting method

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