CN209614567U - A kind of dust excluding hood, dust-extraction unit and laser cutting device - Google Patents

Abstract

The utility model relates to technical field of dust removal equipment, provide a kind of dust excluding hood, dust-extraction unit and laser cutting device, dust excluding hood offers the first air inlet for air inlet at the first chamber, the cutting mouth for avoiding laser is offered at the second chamber, the gas outlet for outlet and the second air inlet for air inlet are offered at third chamber, air-flow enters the first chamber by the first air inlet, and it flows through the second chamber and takes away the dust generated at cutting mouth, then it flows into third chamber and flows out dust excluding hood from gas outlet, reach dustproof function, the second air inlet opened up on third chamber, play the role of release, influence of the air pressure fluctuation to the second chamber air-flow at gas outlet can be reduced；And the intracavitary wind speed at cutting mouth of dedusting can be reduced, it reduces air-flow and shakes defocus influence caused by pole piece, to guarantee that laser stablizes cutting, to be conducive to improve cut quality and cutting efficiency.Dust-extraction unit and laser cutting device with the dust excluding hood are likewise supplied with above-mentioned beneficial effect.

Description

A kind of dust excluding hood, dust-extraction unit and laser cutting device

Technical field

The utility model relates to technical field of dust removal equipment more particularly to a kind of dust excluding hoods, dust-extraction unit and laser cutting Device.

Background technique

A large amount of dust, smog can be supervened in laser cutting production process, if can not effectively clear up, can be led Problems are caused, such as: first, the dust of delay is easily adhered on pole piece, influences the quality of lithium battery；Second, dust is perishable Circuitry system is lost, makes circuitry system short-circuit, influences the normal operation of equipment；Third, dust can endanger user of service Health；4th, dust belongs to combustible and explosive articles, if effectively security risk can cannot be brought dedusting.Therefore, it is necessary to Dust-extraction unit is set on laser cutting device, to be dusted while laser cutting.The dust-extraction unit of the prior art Although having achieved the purpose that dedusting, dust-extraction unit generates biggish wind speed of dust removal at cutting mouth, is easy to cause the play of pole piece Strong shake and extraction electrode piece and waste material, cause pole piece that defocus occurs, so that generating pole piece can't cut or belt phenomenon, influence laser Cut quality and production efficiency, it is therefore desirable to a kind of new technical solution is provided, to solve above-mentioned existing in the prior art ask Topic.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of dust excluding hood, pole piece when solving dust-extraction unit dedusting It leads to the problem of at cutting mouth and substantially shakes and defocus, and provide a kind of dust-extraction unit with the dust excluding hood and laser is cut Cut device.

The utility model solves technical solution used by above-mentioned technical problem:

A kind of dust excluding hood, including dedusting chamber are provided, cutting mouth, the first air inlet and outlet are offered on the dust excluding hood Mouthful, the cutting mouth is for avoiding laser, and first air inlet, the gas outlet are connected to the dedusting chamber, the dedusting The side that cover is located at the gas outlet is additionally provided with the second air inlet being connected to the dedusting chamber.

As an improvement of the above technical solution, the dedusting chamber includes the first chamber, the second chamber and third chamber being sequentially communicated, Dust excluding hood opens up first air inlet at first chamber, opens up the cutting mouth at second chamber, described The gas outlet and the second air inlet for air inlet are opened at three chambers.

As a further improvement of the above technical scheme, second air inlet is provided on the side wall of the dust excluding hood, It is tilted between the cutting mouth and the gas outlet, and along the third chamber to the direction of the gas outlet.

As a further improvement of the above technical scheme, the dust excluding hood is straight-through structure, first chamber, described the Two chambers and the third chamber are sequentially communicated from one end of the dust excluding hood to the other end.

As a further improvement of the above technical scheme, the first guiding device, first water conservancy diversion are equipped in the third chamber Third chamber is divided into several outlet chambers by device, and the outlet chamber accordingly forms several described outlets on the dust excluding hood Mouthful.

As a further improvement of the above technical scheme, the second guiding device is set in first chamber, second water conservancy diversion First chamber is divided into several inlet chambers by device, and the inlet chamber accordingly forms several first air inlets on the dust excluding hood Mouthful.

Further include a kind of dust-extraction unit, further includes draft hood including above-mentioned dust excluding hood, the draft hood and the outlet Air inside the dust excluding hood can be extracted out draft hood pumping by mouth connection from the gas outlet.

It as an improvement of the above technical solution, further include inlet duct, the inlet duct is arranged in first air inlet At mouthful and to supplying gas inside the dust excluding hood.

As a further improvement of the above technical scheme, the bottom that the inlet duct corresponds at first air inlet is set It sets.

As a further improvement of the above technical scheme, the first guiding device, first water conservancy diversion are equipped in the third chamber Third chamber is divided into several outlet chambers by device, and the outlet chamber accordingly forms several described outlets on the dust excluding hood Mouthful, the underlying gas outlet is corresponding with the inlet duct.

As a further improvement of the above technical scheme, the draft hood further includes several mutually isolated exhaust tubes Road, the pump-line respectively correspond the outlet chamber and are evacuated.

As a further improvement of the above technical scheme, the second guiding device is set in first chamber, second water conservancy diversion First chamber is divided into several inlet chambers by device, and the inlet chamber accordingly forms several first air inlets on the dust excluding hood Mouthful, it is arranged at corresponding first air inlet for being located at bottom of the inlet duct.

A kind of laser cutting device is additionally provided, including laser beam emitting device and above-mentioned dust-extraction unit.

The beneficial effects of the utility model are:

The utility model dust excluding hood includes dedusting chamber, the first air inlet for air inlet is offered on dust excluding hood, for keeping away Allow the cutting mouth of laser, the gas outlet for outlet, the first air inlet, gas outlet are connected to dedusting chamber, and dust excluding hood is located at outlet The side of mouth is additionally provided with the second air inlet being connected to dedusting chamber, and air-flow enters dust excluding hood by the first air inlet, and flows through Dedusting chamber takes away the dust generated at cutting mouth, then flows out dust excluding hood from gas outlet, reaches dustproof function, and the second air inlet rises To the effect of release, influence of the air pressure fluctuation to air-flow in dedusting chamber at gas outlet on the one hand can reduce；It on the other hand can be with Reduce the intracavitary wind speed at cutting mouth of dedusting, reduce air-flow and shake defocus influence caused by pole piece, to guarantee to swash Light stablizes cutting, to be conducive to improve cut quality and cutting efficiency.Dust-extraction unit and laser cutting with the dust excluding hood Device is likewise supplied with above-mentioned beneficial effect.

Detailed description of the invention

It, below will be to required in embodiment description in order to illustrate more clearly of the technical scheme in the embodiment of the utility model Attached drawing to be used briefly describes:

Fig. 1 is the overall structure diagram of dust-extraction unit one embodiment of the utility model；

Fig. 2 is the cross-sectional view of dust-extraction unit one embodiment of the utility model；

Fig. 3 is the cross-sectional view of second embodiment of dust-extraction unit of the utility model；

Fig. 4 is the cross-sectional view of the dust-extraction unit third embodiment of the utility model.

Specific embodiment

It is carried out below with reference to technical effect of the embodiment and attached drawing to the design of the utility model, specific structure and generation It clearly and completely describes, to be completely understood by the purpose of this utility model, feature and effect.Obviously, described embodiment It is a part of the embodiment of the utility model, rather than whole embodiments, it is based on the embodiments of the present invention, the skill of this field Art personnel other embodiments obtained without creative efforts belong to the model of the utility model protection It encloses.In addition, all connection/connection relationships being related in patent, not singly refer to that component directly connects, and referring to can be according to specific Performance, by adding or reducing couple auxiliary, Lai Zucheng more preferably coupling structure.Upper involved in the utility model, Under, the orientation such as left and right description be only for the mutual alignment relation of each component part of the utility model in attached drawing. Each technical characteristic in the utility model, can be with combination of interactions under the premise of not conflicting conflict.

Embodiment one:

Fig. 1 is the overall structure diagram of dust-extraction unit one embodiment of the utility model, and Fig. 2 is the utility model Dust-extraction unit one embodiment cross-sectional view, with reference to Fig. 1,2, dust-extraction unit includes dust excluding hood 2, the 2 inside shape of dust excluding hood At dedusting chamber, cutting mouth 22, the first air inlet 21 and gas outlet 23 are offered on dust excluding hood, the cutting mouth 22 is sharp for avoiding Light, the first air inlet 21, gas outlet 23 are connected to dedusting chamber, and the side that dust excluding hood 2 is located at gas outlet 23 is additionally provided with and dedusting Second air inlet 24 of chamber connection.Dedusting chamber includes the first chamber 201, the second chamber 202 and third chamber 203 being sequentially communicated, dedusting Cover 2 offers the first air inlet 21 for air inlet at the first chamber 201, offers at the second chamber 202 for avoiding laser Cutting mouth 22, the gas outlet 23 for outlet and the second air inlet 24 for air inlet, air-flow are offered at third chamber 203 Enter the first chamber 201 by the first air inlet 21, and flow through the second chamber 202 and take away the dust generated at cutting mouth 22, then flows Enter third chamber 203 and flow out dust excluding hood 2 from gas outlet 23, reaches dustproof function, the second air inlet opened up on third chamber 203 24, play the role of release, when 23 negative pressure of gas outlet is larger, portion gas enters gas outlet 23 from the second air inlet 24 Third chamber 203 realizes release, on the one hand can reduce influence of the gas outlet air pressure fluctuation to the second chamber air-flow；It on the other hand can be with Reduce the intracavitary wind speed at cutting mouth of dedusting, reduce air-flow and shake defocus influence caused by pole piece, to guarantee to swash Light stablizes cutting, solves in the prior art, and pole piece generates at cutting mouth 22 when dust-extraction unit dedusting shakes and defocus, thus The problem of influencing cut quality and cutting efficiency.

Second air inlet 24 is provided on the side wall of dust excluding hood 2, and edge is inclined from third chamber 203 to the direction of gas outlet 23 Tiltedly, the area that can expand the second air inlet 24 and 203 connectivity part of third chamber, facilitates abundant air inlet release.Second air inlet 24 Between cutting mouth 22 and gas outlet 23, i.e., the second air inlet 24 is located at 22 rear of cutting mouth, can reduce gas outlet barometric wave The dynamic influence to the second chamber air-flow, and the intracavitary wind speed at cutting mouth of dedusting can be reduced, to reduce air-flow to pole piece Caused by shake defocus influence.In the present embodiment, second air inlet 24 is provided on dust excluding hood 2, when it is implemented, can also Multiple second air inlets 24 are set to reach above-mentioned effect on the side wall of the corresponding third chamber 203 of dust excluding hood 2.

Third chamber 203 is gradually reduced from the second chamber 202 to the direction of gas outlet 23, closing-in structure is formed, so that in outlet When being evacuated at mouth 23, it is possible to increase flow velocity reduces pressure.

Dust excluding hood 2 is straight-through structure, and the first chamber 201, the second chamber 202 and third chamber 203 are from one end of dust excluding hood 2 to another One end is sequentially communicated, therefore airflow channel is put-through channel, helps to improve efficiency of dust collection.

Based on above-mentioned dust excluding hood 2, the draft hood 3 of dust-extraction unit is connected to the gas outlet 23 of dust excluding hood 2, and with pumping gas source (not shown go out) connection, when work, pumping gas source (not shown go out) is evacuated draft hood 3, so as to will be inside dust excluding hood 2 Air is extracted out from gas outlet 23, while taking dust out of dust excluding hood 2, realizes the purpose being dusted in time in laser cutting.

Common air knife may be selected as air inlet to obtain larger air inlet wind speed in the also settable inlet duct 1 of dust-extraction unit Device, the inlet duct 1 are arranged at the first air inlet 21 and to supplying gas inside dust excluding hood 2, and formation is evacuated while supplying gas Dust-cleaning scheme, help to improve efficiency of dust collection.

Consider that inlet duct 1 is supplied gas the pole piece that will affect at cutting mouth 22, pole piece easily made to generate shake under airflow function, By the bottom setting at corresponding first air inlet 21 of inlet duct 1, so that the air-flow that inlet duct 1 is supplied gas is most of to cutting mouth 22 bottom is blown, and can reduce influence of the air-flow to pole piece of supplying gas, and can blow away the bulky grain for being deposited in 202 lower part of the second chamber Dust, to improve efficiency of dust collection.

To obtain suitable air inlet wind speed, it may also set up multiple inlet ducts 1 at the first air inlet 21 and supply gas, it can Lesser wind speed of supplying gas is arranged to inlet duct 1 corresponding with 22 height of cutting mouth, avoids air-flow excessive and pole piece occurred Big shake.Relatively, relative altitude is located at the settable relatively large wind speed of supplying gas of inlet duct 1 of 22 lower section of cutting mouth, To effectively remove the large dust particle for being deposited in 202 lower part of the second chamber, to improve efficiency of dust collection.

Embodiment two:

Fig. 3 is the cross-sectional view of second embodiment of dust-extraction unit of the utility model, with reference to Fig. 3, the dedusting of the present embodiment Cover 2 and dust-extraction unit are roughly the same with the scheme of embodiment one, and difference is as follows:

It (1), can be inclined in the first chamber 201 in order to preferably guide air-flow to flow to the downside of the second chamber 202 in the present embodiment Under position at the second guiding device 25 is set, which is divided into several inlet chambers for the first chamber 201, these Inlet chamber accordingly forms several the first air inlets on dust excluding hood.To air-flow can respectively by these first air inlets into Enter dedusting chamber, by the setting of different first air inlet flow velocitys, passes through the intracavitary air-flow of dedusting and form different flow velocity guarantors Influence of the air-flow of high flow rate to pole piece at cutting mouth was prevented under the premise of card high-effective dust-removing.

Second guiding device 25 can be integrally formed the plate structure in the first chamber 201, or pass through fixed installation Mode be mounted on the plate structure in the first chamber 201 be spaced apart from each other or mutually interconnect so that the first chamber 201 forms upper and lower two Logical two parts, respectively superposed first epicoele 2011 and the first cavity of resorption 2012 positioned at lower part accordingly form One enterprising port 211 and first lower 212 two air inlets of air inlet, inlet duct 1 is located at the first lower air inlet 212, The air-flow that inlet duct 1 is supplied gas enters the second chamber 202 along the first cavity of resorption 2012, to realize to the guiding function of air-flow, helps In raising efficiency of dust collection.The position of opposite 2 bottom of dust excluding hood of second guiding device 25 is not higher than the lower side of cutting mouth 22 along phase For the position of 2 bottom of dust excluding hood, the influence of air-flow that inlet duct 1 is supplied gas to the pole piece at cutting mouth 22 is further decreased, So that the position of pole piece is maintained in cutting focus, cut quality and cutting efficiency are helped to ensure that.When it is implemented, can Multiple inlet chambers are set according to above-mentioned principle and corresponding multiple first air inlets, the utility model are not construed as limiting quantity.

(2) in the present embodiment, the first guiding device 26, first water conservancy diversion dress are equipped in the third chamber 203 of dust excluding hood 2 It sets and third chamber is divided into several outlet chambers, these outlet chambers accordingly form several gas outlets on dust excluding hood, thus dedusting Intracavitary gas can flow out dedusting chamber by these gas outlets respectively, or can be carried out respectively to dedusting chamber by these gas outlets Pumping.

The plate structure that first guiding device 26 can be integrally formed in third chamber 203, or pass through fixed installation Mode be mounted on the plate structure in third chamber 203, which, which is divided into third chamber 203, is spaced apart from each other or phase Intercommunicated two parts, respectively third epicoele 2031 and third cavity of resorption 2032, the two accordingly form first on dust excluding hood 2 Gas outlet 231 and the second gas outlet 232, third cavity of resorption 2032 are corresponding with inlet duct 1.Thus in pumping, inlet duct 1 air-flow being sent into can largely be extracted out by third cavity of resorption 2032, improve pumping efficiency.The opposite dust excluding hood of first guiding device 26 The position of 2 bottoms is not higher than the lower side of cutting mouth 22 along the position relative to 2 bottom of dust excluding hood, further decreases inlet duct Influence of 1 air-flow supplied gas to the pole piece at cutting mouth 22 facilitates so that the position of pole piece is maintained in cutting focus Guarantee cut quality and cutting efficiency.When it is implemented, can be arranged according to above-mentioned principle multiple outlet chambers and it is corresponding it is multiple go out Port, the utility model are not construed as limiting quantity.

In addition to above-mentioned difference, the present embodiment other structures and principle are basically the same as the first embodiment, and are not done herein superfluous It states.

Embodiment three:

Fig. 4 is the cross-sectional view of the dust-extraction unit third embodiment of the utility model, with reference to Fig. 4, the dedusting of the present embodiment Cover 2 and dust-extraction unit are roughly the same with the scheme of embodiment two, and difference is as follows:

In the present embodiment, 3 several mutual pump-lines of draft hood, these pump-lines respectively correspond above-mentioned outlet chamber It is evacuated, so as to keep the corresponding pumping negative pressure of each outlet chamber different, avoids excessively high pumping negative pressure from influencing dedusting intracavitary Wind speed at cutting mouth avoids the shake of pole piece generation by a relatively large margin, prevents pole piece defocus.

In embodiment as shown in the figure, draft hood 3 includes mutually isolated the first pump-line 31 and the second pump-line 32, First pump-line 31 is connected to third epicoele 2031, and the second pump-line 32 is connected to third cavity of resorption 2032, and the two connects respectively Lead to different pumping gas sources (not shown go out), by being evacuated respectively to the first pump-line 31, the second pump-line 32, can will remove Air inside dust hood 2 is extracted out from the first gas outlet 231, the second gas outlet 232 respectively, the air pressure of pumping can it is identical not yet Together, it can be adjusted as needed.Based on the setting of the draft hood 3, for the settable biggish pumping negative pressure of third cavity of resorption 2032, To effectively extract the air-flow that air supply device is sent into, avoids pumping efficiency too low and to generate turbulent flow in the second chamber 202, so that Dust is detained.

Example IV (not shown go out):

The utility model additionally provides a kind of laser cutting device, including laser beam emitting device and above-mentioned dust-extraction unit. Dust-extraction unit is correspondingly arranged at pole piece cut place, and while the laser of laser beam emitting device transmitting cuts pole piece, this is removed The dust that dirt device generates cutting pole piece is dusted, so that dust be avoided to cause adverse effect to environment, equipment etc..This is removed The setting of dirt device so that, while the laser of laser beam emitting device transmitting cuts pole piece, the gas that is passed through in dust excluding hood Stream can effectively remove the dust that cutting generates, and effectively prevent air-flow to the influence of pole piece, prevent pole piece from shaking defocus, favorably In raising cut quality and cutting efficiency.

It above are only the preferred embodiment of the utility model, but the utility model is not restricted to the embodiment, be familiar with Those skilled in the art can also make a variety of equivalent deformation or replacement without departing from the spirit of the present invention, this Equivalent deformation or replacement are all included in the scope defined by the claims of the present application a bit.

Claims (13)

1. a kind of dust excluding hood, it is characterised in that: including dedusting chamber, offered on the dust excluding hood cutting mouth, the first air inlet and Gas outlet, for avoiding laser, first air inlet, the gas outlet are connected to the cutting mouth with the dedusting chamber, described The side that dust excluding hood is located at the gas outlet is additionally provided with the second air inlet being connected to the dedusting chamber.

2. dust excluding hood according to claim 1, it is characterised in that: the dedusting chamber includes the first chamber being sequentially communicated, Two chambers and third chamber, dust excluding hood open up first air inlet at first chamber, and described cut is opened up at second chamber Scarfing opens the gas outlet and the second air inlet for air inlet at the third chamber.

3. dust excluding hood according to claim 2, it is characterised in that: second air inlet is provided with the side of the dust excluding hood On wall, tilted between the cutting mouth and the gas outlet, and along the third chamber to the direction of the gas outlet.

4. dust excluding hood according to claim 2 or 3, it is characterised in that: the dust excluding hood is straight-through structure, described first Chamber, second chamber and the third chamber are sequentially communicated from one end of the dust excluding hood to the other end.

5. dust excluding hood according to claim 4, it is characterised in that: be equipped with the first guiding device in the third chamber, this Third chamber is divided into several outlet chambers by one guiding device, and the outlet chamber is accordingly formed on the dust excluding hood described in several Gas outlet.

6. dust excluding hood according to claim 4, it is characterised in that: the second guiding device is arranged in first chamber, this First chamber is divided into several inlet chambers by two guiding devices, the inlet chamber accordingly formed on the dust excluding hood several first Air inlet.

7. a kind of dust-extraction unit, it is characterised in that: further include taking out including dust excluding hood described in any one of Claims 1 to 4 Gas hood, the draft hood are connected to the gas outlet, can be by the air inside the dust excluding hood from institute to draft hood pumping State gas outlet extraction.

8. dust-extraction unit according to claim 7, it is characterised in that: it further include inlet duct, the inlet duct setting At first air inlet and to supplying gas inside the dust excluding hood.

9. dust-extraction unit according to claim 8, it is characterised in that: the inlet duct corresponds at first air inlet Bottom setting.

10. dust-extraction unit according to claim 9, it is characterised in that: the dedusting chamber include the first chamber being sequentially communicated, Second chamber and third chamber are equipped with the first guiding device in the third chamber, do if third chamber is divided by first guiding device Air cavity, the outlet chamber accordingly form several described gas outlets, the underlying gas outlet on the dust excluding hood It is corresponding with the inlet duct.

11. dust-extraction unit according to claim 10, it is characterised in that: the draft hood further includes mutually isolated several Root pump-line, the pump-line respectively correspond the outlet chamber and are evacuated.

12. dust-extraction unit according to claim 10, it is characterised in that: the second guiding device is set in first chamber, First chamber is divided into several inlet chambers by second guiding device, and the inlet chamber accordingly forms on the dust excluding hood several A first air inlet, the inlet duct is corresponding to be arranged at first air inlet of bottom.

13. a kind of laser cutting device, it is characterised in that: including any one of laser beam emitting device and claim 7~12 institute The dust-extraction unit stated.