CN210278660U - Industrial waste gas treatment device - Google Patents

Abstract

The embodiment of the application provides an industrial waste gas treatment device, relates to the technical field of environmental protection to gaseous emission can lead to the waste of energy and the problem of polluted environment among the solution correlation technique. The device comprises: the gas recovery device comprises a first shell, a second shell and a heat insulation layer, wherein the first shell is provided with a gas access port, and the inner wall of the first shell is covered with the heat insulation layer; the first pipeline is connected between the first shell and the second shell, a second liquid outlet is arranged in the second shell, and a second liquid outlet is formed in the second shell, wherein the second liquid outlet is connected with the second liquid inlet; and a second pipeline is connected between the third shell and the second shell, a first filter is arranged in the third shell, and the third shell is also connected with the third pipeline. The utility model is used for handle gas.

Description

Industrial waste gas treatment device

Technical Field

The utility model relates to an environmental protection technology field especially relates to an industrial waste gas treatment device.

Background

Industrial waste gases, in general, carry heat. Taking a thermal power plant as an example, the thermal power plant generally uses combustible (such as coal) as fuel to convert chemical energy in the fuel into electric energy. The heat released in connection with the combustion of the fuel heats the gases in the combustion chamber, so that the gases discharged from the combustion chamber are also provided with heat.

Many plants discharge gases generated in industrial processes directly into the air, which leads to energy waste due to partial heat removal by the discharged gases, and the discharged gases may contain harmful gases, which may pollute the environment.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides an industrial waste gas treatment device to solve the problem that the emission of gas in the related art can lead to the waste of energy and environmental pollution.

The embodiment of the application provides an industrial waste gas treatment device, the device includes:

the gas inlet is formed in the first shell, a heat insulation layer covers the inner wall of the first shell, and a heat recovery device is arranged inside the heat insulation layer;

a first pipeline is connected between the first shell and the second shell, a second liquid outlet is arranged in the second shell, and a second liquid outlet is formed in the second shell, wherein the second liquid outlet is connected with the second liquid inlet;

the second pipeline is connected between the third shell and the second shell, a first filter is arranged inside the third shell, and the third shell is further connected with the third pipeline.

Optionally, the device further includes a fourth housing, the fourth housing is connected to the third pipe, and a second filter is disposed inside the fourth housing, and the fourth housing is further connected to the exhaust port.

Optionally, the first filter is an activated carbon filter and the second filter is a biofilm filter.

Optionally, the device further comprises a base body, wherein a collecting box is arranged on the base body, and a third liquid discharge port is arranged on the collecting box; the pedestal includes first mounting groove, second mounting groove, third mounting groove, first casing sets up on the first mounting groove, the second casing sets up on the second mounting groove, the third casing sets up on the third mounting groove.

Optionally, the first housing is further provided with a first liquid outlet connected to the first liquid inlet, and the first housing is further provided with a first liquid outlet connected to the first control valve.

Optionally, the first liquid inlet port and the second liquid inlet port are both a common liquid inlet port, and a second control valve is connected between the first liquid outlet port and the second liquid outlet port, and the second control valve is connected to the common liquid inlet port.

Optionally, a third liquid inlet and a liquid outlet are provided on the first housing, and the heat recovery device includes a circulation tube, one end of which is connected to the third liquid inlet, and the other end of which is connected to the liquid outlet.

Optionally, the apparatus comprises a collection bin in which the conveyor is disposed.

Optionally, the conveyer includes that the bottom is equipped with the conveyer pipe of crossing the filtration pore, the conveyer still includes that the outer wall is equipped with helical blade's conveying pole, the conveying pole sets up in the conveyer pipe, one of them one end and drive arrangement's of conveying pole output shaft, the other end and the supporting seat of conveying pole are connected, the conveyer pipe with be connected with the fourth pipeline between the second liquid discharge port.

Optionally, the apparatus comprises a collection box in which a conveyor is disposed; the conveyer includes that the bottom is equipped with the conveyer pipe of filtration pore, the conveyer still includes that the outer wall is equipped with helical blade's conveying pole, the conveying pole sets up in the conveyer pipe, wherein one end and drive arrangement's of conveying pole output shaft, the other end and the supporting seat of conveying pole are connected, the conveyer pipe with be connected with the fourth pipeline between the second liquid discharge port, the conveyer pipe with first control valve is connected.

The industrial waste gas treatment device provided by the embodiment of the application comprises a first shell, a second shell and a third shell, wherein a heat recovery device is arranged in the first shell, a second liquid ejection port is arranged in the second shell, and a first filter is arranged in the third shell. Thus, by adopting the industrial waste gas treatment device provided by the embodiment of the application, the gas to be treated (which can refer to the industrial waste gas to be treated and is not explained later) can enter the first shell firstly, the heat recovery device in the first shell can absorb the preheating in the gas to be treated, and the waste of energy caused by the direct discharge of the gas to be treated to the air can be avoided. In addition, after the gas to be treated is treated by the first shell, the gas to be treated can enter the second shell, and the second shell can be sprayed with liquid (such as water), so that solid particles in the gas to be treated can be removed by the sprayed liquid. Further, after the gas to be treated is treated by the second shell, the gas to be treated can enter the third shell, the gas to be treated can be subjected to secondary treatment by utilizing the first filter in the third shell, and solid particles and harmful gas in the gas to be treated can be further removed, so that the gas to be treated can be prevented from being directly discharged into the air to pollute the environment.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive labor.

FIG. 1 is a schematic structural diagram of an industrial waste gas treatment device according to an embodiment of the present disclosure;

FIG. 2 is a schematic view of the bottom of a delivery tube according to an embodiment of the present disclosure;

fig. 3 is an enlarged view of a portion a in fig. 1.

In the figure: 1-seat body, 2-collecting box, 3-driving device box, 4-conveying pipe, 5-supporting seat, 6-conveying rod, 7-driving device, 8-sewage discharging hole, 9-sealing cover, 10-handle, 11-filtering hole, 12-filtering net, 13-mounting seat, 14-first mounting groove, 15-second mounting groove, 16-third mounting groove, 17-fourth mounting groove, 18-first shell, 19-heat-insulating layer, 20-second liquid inlet, 21-liquid outlet, 22-heat recoverer, 23-first control valve, 24-valve body mounting hole, 25-gas inlet, 26-second shell, 27-first pipeline, 28-third shell, 29-active carbon, 30-second conduit, 31-fourth housing, 32-third conduit, 33-vent, 34-helical blade, 35-second filter, 36-first liquid spout, 37-second liquid spout, 38-liquid supply tube, 39-second control valve, 40-fourth conduit, 41-first liquid inlet port.

Detailed Description

In order to make the technical solutions in the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 3, an industrial waste gas treatment device provided by an embodiment of the present application may include:

the gas inlet 25 is formed in the first shell 18, a heat insulation layer 19 is covered on the inner wall of the first shell 18, and a heat recovery device 22 is arranged inside the heat insulation layer 19;

a second housing 26, a first pipe 27 is connected between the second housing 26 and the first housing 18, a second liquid outlet 37 is provided in the second housing 26, and a second liquid outlet is provided in the second housing 26, wherein the second liquid outlet 37 is connected to the second liquid inlet;

a third casing 28, a second pipeline 30 is connected between the third casing 28 and the second casing 26, a first filter 29 is arranged inside the third casing 28, and the third casing 28 is further connected with a third pipeline 32.

Alternatively, the first filter 29 may include at least one of an activated carbon filter, a biofilm filter, and the like.

Optionally, in the embodiment of the present application, the industrial waste gas treatment device may further include a collection tank 2. The liquid discharged from the second liquid discharge port may be collected by the collection tank 2. Of course, it is easily understood that in other embodiments of the present application, the industrial waste gas treatment device may not include the collection tank 2, and the collection device may be flexibly configured by a construction party to collect the liquid discharged from the second liquid discharge port according to the environment of the site.

It should be noted that, in the embodiment of the present application, the liquid sprayed in the second liquid spraying port may be water, and may also be other special liquid for removing solid particles in the gas to be treated, which is not limited herein. The liquid sprayed from the second liquid spray port may be in a liquid state or a mist state.

Alternatively, in the embodiment of the present application, the heat recovery unit 22 may include a circulation pipe, one end of which is connected to the third liquid inlet port 20 and the other end of which is connected to the liquid outlet port 21.

In this way, the circulation pipe can be used to recover the residual heat of the gas to be treated entering the first casing. The heat recovery of the circulation pipe may be performed by injecting a liquid medium (e.g., water, etc.) into the circulation pipe from the third liquid inlet port, absorbing residual heat of the gas to be treated in the first housing with the liquid medium, and then discharging the heat-absorbed liquid medium from the liquid outlet port. For example, the liquid medium having absorbed heat may be sent to a heating pipe to be heated. When the liquid medium is water, the liquid medium can be used as hot water.

It should be noted that, in the embodiments of the present application, the heat recovery unit is mainly described as including the circulation pipe. However, in other embodiments of the present application, the recuperator may also have other types of heat recovery periods, such as a thermoelectric converter. This is not to be taken as an example.

The industrial waste gas treatment device provided by the embodiment of the application comprises a first shell, a second shell and a third shell, wherein a heat recovery device is arranged in the first shell, a second liquid ejection port is arranged in the second shell, and a first filter is arranged in the third shell. Like this, adopt the industrial waste gas processing apparatus that this application embodiment provided, pending gas can get into first casing earlier, and heat reclamation device in the first casing can absorb the preheating in pending gas, can avoid pending gas direct discharge to the air in, cause the waste of energy. In addition, after the gas to be treated is treated by the first shell, the gas to be treated can enter the second shell, and the second shell can be sprayed with liquid (such as water), so that solid particles in the gas to be treated can be removed by the sprayed liquid. Further, after the gas to be treated is treated by the second shell, the gas to be treated can enter the third shell, the gas to be treated can be subjected to secondary treatment by utilizing the first filter in the third shell, and solid particles and harmful gas in the gas to be treated can be further removed, so that the gas to be treated can be prevented from being directly discharged into the air to pollute the environment.

Referring to fig. 1 to 3, an industrial waste gas treatment device provided by an embodiment of the present application may include:

the gas inlet 25 is formed in the first shell 18, a heat insulation layer 19 covers the inner wall of the first shell 18, and a heat recovery device 22 is arranged inside the heat insulation layer 19.

A second casing 26, a first pipeline 27 is connected between the second casing 26 and the first casing 18, a second liquid outlet 37 is arranged in the second casing 26, and a second liquid outlet is opened on the second casing 26, wherein the second liquid outlet 37 is connected with the second liquid inlet.

A third casing 28, a second pipeline 30 is connected between the third casing 28 and the second casing 26, a first filter 29 is arranged inside the third casing 28, and the third casing 28 is further connected with a third pipeline 32.

And a fourth housing 31, wherein the fourth housing 31 is connected to the third pipeline 32, a second filter 35 is disposed inside the fourth housing 31, and the fourth housing 31 is further connected to an exhaust port 33.

Alternatively, the first filter 29 may be an activated carbon filter, and the second filter 35 may be a biofilm filter. Of course, the first filter 29 and the second filter 35 may be other filters, and only have to have a filtering function. And will not be described herein.

The industrial waste gas treatment device provided by the embodiment of the application comprises a first shell, a second shell and a third shell, wherein a heat recovery device is arranged in the first shell, a second liquid ejection port is arranged in the second shell, the third shell is provided with a first filter in the third shell, and the fourth shell is provided with a second filter in the fourth shell. Like this, adopt the industrial waste gas processing apparatus that this application embodiment provided, pending gas can get into first casing earlier, and heat reclamation device in the first casing can absorb the preheating in pending gas, can avoid pending gas direct discharge to the air in, cause the waste of energy. In addition, after the gas to be treated is treated by the first shell, the gas to be treated can enter the second shell, and the second shell can be sprayed with liquid (such as water), so that solid particles in the gas to be treated can be removed by the sprayed liquid. After the gas to be treated is treated by the second shell, the gas to be treated can enter the third shell, after the gas to be treated is treated by the first filter in the first shell, the gas to be treated can enter the fourth shell, the first filter in the third shell and the second filter in the fourth shell can be utilized for carrying out multiple treatments on the gas to be treated, solid particles and harmful gas in the gas to be treated can be further removed, and therefore the gas to be treated can be prevented from being directly discharged into the air to pollute the environment.

It should be noted that, in the embodiment of the present application, the first filter and the second filter may be different filters, for example, the first filter may be an activated carbon filter, and the second filter may be a biofilm filter. In this way, the solid particles in the gas to be treated can be filtered by the first filter, and the toxic gas in the gas to be treated can be filtered by the second filter. Generally, the service lives of the individual filters are different, and the filters are arranged separately, so that replacement or overhaul of the filters is facilitated. For example, when the first filter is damaged, only the first filter may be disassembled for maintenance, without also disassembling the second filter.

In addition, the industrial waste gas treatment device that this application embodiment provided includes that inside is provided with the first casing of heat recovery ware, inside is provided with the second casing of second liquid blowout port, and inside is provided with the third casing of first filter. Like this, adopt the industrial waste gas processing apparatus that this application embodiment provided, pending gas can get into first casing earlier, and heat reclamation device in the first casing can absorb the preheating in pending gas, can avoid pending gas direct discharge to the air in, cause the waste of energy. In addition, after the gas to be treated is treated by the first shell, the gas to be treated can enter the second shell, and the second shell can be sprayed with liquid (such as water), so that solid particles in the gas to be treated can be removed by the sprayed liquid. Further, after the gas to be treated is treated by the second shell, the gas to be treated can enter the third shell, the gas to be treated can be subjected to secondary treatment by utilizing the first filter in the third shell, and solid particles and harmful gas in the gas to be treated can be further removed, so that the gas to be treated can be prevented from being directly discharged into the air to pollute the environment.

Referring to fig. 1 to 3, an industrial waste gas treatment device provided by an embodiment of the present application may include:

the gas inlet 25 is formed in the first shell 18, a heat insulation layer 19 covers the inner wall of the first shell 18, and a heat recovery device 22 is arranged inside the heat insulation layer 19.

A second casing 26, a first pipeline 27 is connected between the second casing 26 and the first casing 18, a second liquid outlet 37 is arranged in the second casing 26, and a second liquid outlet is opened on the second casing 26, wherein the second liquid outlet 37 is connected with the second liquid inlet.

A third casing 28, a second pipeline 30 is connected between the third casing 28 and the second casing 26, a first filter 29 is arranged inside the third casing 28, and the third casing 28 is further connected with a third pipeline 32.

The industrial waste gas treatment device can also comprise a base body 1, wherein a collecting box 2 is arranged on the base body 1, and a third liquid discharge port (not shown) is arranged on the collecting box 2; the base body 1 includes an installation seat 13, and the installation seat 13 may include a first installation groove 14, a second installation groove 15, and a third installation groove 16. Specifically, the first housing 18 may be disposed on the first mounting groove 14, the second housing 26 may be disposed on the second mounting groove 15, and the third housing 28 may be disposed on the third mounting groove 16.

Optionally, the device may further include a fourth housing 31, the fourth housing 31 is connected to the third pipe 32, a second filter 35 is disposed inside the fourth housing 31, and the fourth housing 31 is further connected to an exhaust port 33. When the apparatus further includes a fourth housing 31, the mounting seat 13 may include a fourth mounting groove 17, and the fourth housing 31 may be disposed on the fourth mounting groove 17.

Thus, in the embodiment of the present application, the first housing, the second housing, the third housing, and the like can be disposed in the corresponding mounting grooves on the seat body. Therefore, the industrial waste gas treatment device can be of an integrated structure, so that the industrial waste gas treatment device is convenient to install on a construction site.

It should be noted that, in other embodiments of the present application, the first housing, the second housing, and the like may further include other components, and for the first housing, the second housing, and the like in other embodiments, corresponding mounting grooves may also be provided, and the first housing, the second housing, and the like are disposed in the corresponding mounting grooves.

In addition, the industrial waste gas treatment device that this application embodiment provided includes that inside is provided with the first casing of heat recovery ware, inside is provided with the second casing of second liquid blowout port, and inside is provided with the third casing of first filter. Like this, adopt the industrial waste gas processing apparatus that this application embodiment provided, pending gas can get into first casing earlier, and heat reclamation device in the first casing can absorb the preheating in pending gas, can avoid pending gas direct discharge to the air in, cause the waste of energy. In addition, after the gas to be treated is treated by the first shell, the gas to be treated can enter the second shell, and the second shell can be sprayed with liquid (such as water), so that solid particles in the gas to be treated can be removed by the sprayed liquid. Further, after the gas to be treated is treated by the second shell, the gas to be treated can enter the third shell, the gas to be treated can be subjected to secondary treatment by utilizing the first filter in the third shell, and solid particles and harmful gas in the gas to be treated can be further removed, so that the gas to be treated can be prevented from being directly discharged into the air to pollute the environment.

Referring to fig. 1 to 3, an industrial waste gas treatment device provided by an embodiment of the present application may include:

the gas inlet 25 is formed in the first shell 18, a heat insulation layer 19 covers the inner wall of the first shell 18, and a heat recovery device 22 is arranged inside the heat insulation layer 19.

A second casing 26, a first pipeline 27 is connected between the second casing 26 and the first casing 18, a second liquid outlet 37 is arranged in the second casing 26, and a second liquid outlet is opened on the second casing 26, wherein the second liquid outlet 37 is connected with the second liquid inlet.

A third casing 28, a second pipeline 30 is connected between the third casing 28 and the second casing 26, a first filter 29 is arranged inside the third casing 28, and the third casing 28 is further connected with a third pipeline 32.

Optionally, the industrial waste gas treatment device may further include a fourth housing 31, the fourth housing 31 is connected to the third pipe 32, a second filter 35 is disposed inside the fourth housing 31, and the fourth housing 31 is further connected to an exhaust port 33.

In the embodiment of the present application, the first housing 18 may be further provided with a first liquid ejection port 36 inside, the first liquid ejection port 36 being connected to the first liquid inlet port, and the first housing 18 may be further provided with a first liquid discharge port connected to the first control valve 23.

Optionally, in the embodiment of the present application, the industrial waste gas treatment device may further include a seat body (refer to the solution for setting the seat body described above), the seat body may further include a valve body mounting hole 24, and the first control valve 23 may be disposed in the valve body mounting hole 24. This may serve as a protection for the first control valve.

Alternatively, the first liquid inlet port and the second liquid inlet port are both a common liquid inlet port 41, a second control valve 39 is connected between the first liquid outlet port 36 and the second liquid outlet port 37, and the second control valve 39 is connected to the common liquid inlet port 41. Specifically, a liquid supply pipe 38 is provided between the first liquid discharge port 36 and the second control valve 39, and a liquid supply pipe 38 is also provided between the second liquid discharge port 37 and the second control valve 39.

In this way, when the first liquid ejection ports 36 and the second liquid ejection ports 37 eject the same liquid (for example, water), the first liquid ejection ports 36 and the second liquid ejection ports 37 can share one second control valve 39 and one common liquid inlet port 41. This saves hardware overhead of the device and may save costs. Moreover, the shared scheme is adopted, so that the arrangement and subsequent overhaul of the pipeline are facilitated.

In the embodiment of the present application, since the first liquid ejection port is provided in the first housing. Thus, the inside of the first casing can be cleaned. The solid particles in the gas to be treated entering the first shell can be prevented from covering the heat recovery device, and the heat recovery efficiency of the heat recovery device is reduced.

In other embodiments of the present application, the industrial waste gas treatment apparatus may further include other components in addition to the above-described industrial waste gas treatment apparatus, and the first liquid ejection port may be provided in the first housing of the industrial waste gas treatment apparatus including the other components. And need not be described in detail here.

On the basis of the above example, the device may further include a collection box 2, and a conveyor is arranged in the collection box 2; the conveyer includes that the bottom is equipped with the conveyer pipe 4 of filtration pore 11, the conveyer still includes that the outer wall is equipped with helical blade 34's conveying pole 6, conveying pole 6 sets up in the conveyer pipe 4, one of them one end of conveying pole 6 is connected with drive arrangement 7's output shaft, the other end and the supporting seat 5 of conveying pole 6 are connected, conveyer pipe 4 with be connected with fourth pipeline 40 between the second liquid discharge port, conveyer pipe 4 with first control valve 23 is connected. In this way, the liquid flowing out through the second liquid discharge port can be collected in the delivery pipe for disposal. When the first control valve is in a conducting state, the liquid flowing out from the first liquid discharge port can be collected into the conveying pipe for processing.

Optionally, the support base 5 may be provided with a drainage hole 8. Optionally, a cover 9 may be provided on the side of the delivery tube 4 remote from the drive means 7. Optionally, a handle 10 may be provided on the cover 9. In this way, the liquid in the delivery tube can be prevented from flowing out by the cap. The cap can be removed by a handle when it is desired to discharge solid particles accumulated in the transfer pipe. The drive means can then be activated to discharge the solid particles in the conveying pipe 4 by means of the screw conveyor.

Optionally, the apparatus further includes a base 1 (refer to the above-mentioned solution for setting the base), and the base may further include a driving apparatus box 3. The drive means 7 can be arranged in the drive means housing 3, which prevents liquid from entering the drive means and causing damage to the drive means.

Alternatively, the driving device 7 may be an electric motor, and of course, the driving device 7 may also be a hydraulic motor, a pneumatic motor, or the like. Obviously, other drive elements are possible. This is not to be taken as an example.

Like this, adopt above-mentioned scheme, can collect the solid particle thing of discharging from first casing and second casing, can utilize the conveyer to discharge the solid particle thing of collecting. The device can be prevented from being damaged due to the fact that solid particles are accumulated too much in the industrial waste gas treatment device and cannot be discharged smoothly.

In addition, the industrial waste gas treatment device that this application embodiment provided includes that inside is provided with the first casing of heat recovery ware, inside is provided with the second casing of second liquid blowout port, and inside is provided with the third casing of first filter. Like this, adopt the industrial waste gas processing apparatus that this application embodiment provided, pending gas can get into first casing earlier, and heat reclamation device in the first casing can absorb the preheating in pending gas, can avoid pending gas direct discharge to the air in, cause the waste of energy. In addition, after the gas to be treated is treated by the first shell, the gas to be treated can enter the second shell, and the second shell can be sprayed with liquid (such as water), so that solid particles in the gas to be treated can be removed by the sprayed liquid. Further, after the gas to be treated is treated by the second shell, the gas to be treated can enter the third shell, the gas to be treated can be subjected to secondary treatment by utilizing the first filter in the third shell, and solid particles and harmful gas in the gas to be treated can be further removed, so that the gas to be treated can be prevented from being directly discharged into the air to pollute the environment.

Referring to fig. 1 to 3, an industrial waste gas treatment device provided by an embodiment of the present application may include:

the gas inlet 25 is formed in the first shell 18, a heat insulation layer 19 covers the inner wall of the first shell 18, and a heat recovery device 22 is arranged inside the heat insulation layer 19.

A second casing 26, a first pipeline 27 is connected between the second casing 26 and the first casing 18, a second liquid outlet 37 is arranged in the second casing 26, and a second liquid outlet is opened on the second casing 26, wherein the second liquid outlet 37 is connected with the second liquid inlet.

A third casing 28, a second pipeline 30 is connected between the third casing 28 and the second casing 26, a first filter 29 is arranged inside the third casing 28, and the third casing 28 is further connected with a third pipeline 32.

Optionally, the industrial waste gas treatment device may further include a fourth housing 31, the fourth housing 31 is connected to the third pipe 32, a second filter 35 is disposed inside the fourth housing 31, and the fourth housing 31 is further connected to an exhaust port 33. Optionally, the first filter 29 is an activated carbon filter and the second filter 35 is a biofilm filter.

In the embodiment of the present application, the industrial waste gas treatment device may further include a collection box 2, and a conveyor may be disposed in the collection box 2, and the conveyor may discharge the solid particulate matters in the collection box.

In embodiments of the present application, the conveyor may be any conveyor capable of conveying solid particulate matter. For example, a screw conveyor, a belt conveyor, or the like may be used. This is not to be taken as an example.

When the conveyer is screw conveyer, the conveyer can include that the bottom is equipped with the conveyer pipe 4 of crossing filter pore 11 (optionally, can be provided with filter screen 12 in crossing filter pore 11), the conveyer still can include that the outer wall is equipped with conveying rod 6 of helical blade 34, conveying rod 6 sets up in the conveyer pipe 4, wherein one end of conveying rod 6 is connected with drive arrangement 7's output shaft, conveying rod 6's the other end and supporting seat 5 are connected, conveyer pipe 4 with be connected with fourth pipeline 40 between the second liquid discharge port. In this way, the liquid flowing out through the second liquid discharge port can be collected in the delivery pipe for disposal.

Optionally, the support base 5 may be provided with a drainage hole 8. Optionally, a cover 9 may be provided on the side of the delivery tube 4 remote from the drive means 7. Optionally, a handle 10 may be provided on the cover 9. In this way, the liquid in the delivery tube can be prevented from flowing out by the cap. The cap can be removed by a handle when it is desired to discharge solid particles accumulated in the transfer pipe. The drive means can then be activated to discharge the solid particles in the conveying pipe 4 by means of the screw conveyor.

Optionally, the apparatus further includes a base 1 (refer to the above-mentioned solution for setting the base), and the base may further include a driving apparatus box 3. The drive means 7 can be arranged in the drive means housing 3, which prevents liquid from entering the drive means and causing damage to the drive means.

Alternatively, the driving device 7 may be an electric motor, and of course, the driving device 7 may also be a hydraulic motor, a pneumatic motor, or the like. Obviously, other drive elements are possible. This is not to be taken as an example.

Like this, adopt above-mentioned scheme, can collect the solid particle thing of discharging from the second casing, can utilize the conveyer to discharge the solid particle thing of collecting. The device can be prevented from being damaged due to the fact that solid particles are accumulated too much in the industrial waste gas treatment device and cannot be discharged smoothly.

In addition, the industrial waste gas treatment device that this application embodiment provided includes that inside is provided with the first casing of heat recovery ware, inside is provided with the second casing of second liquid blowout port, and inside is provided with the third casing of first filter. Like this, adopt the industrial waste gas processing apparatus that this application embodiment provided, pending gas can get into first casing earlier, and heat reclamation device in the first casing can absorb the preheating in pending gas, can avoid pending gas direct discharge to the air in, cause the waste of energy. In addition, after the gas to be treated is treated by the first shell, the gas to be treated can enter the second shell, and the second shell can be sprayed with liquid (such as water), so that solid particles in the gas to be treated can be removed by the sprayed liquid. Further, after the gas to be treated is treated by the second shell, the gas to be treated can enter the third shell, the gas to be treated can be subjected to secondary treatment by utilizing the first filter in the third shell, and solid particles and harmful gas in the gas to be treated can be further removed, so that the gas to be treated can be prevented from being directly discharged into the air to pollute the environment.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present application have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the embodiments, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An industrial waste gas treatment device, characterized in that the device comprises:

the heat recovery device comprises a first shell (18) and a second shell (18), wherein a gas access port (25) is formed in the first shell, a heat insulation layer (19) is covered on the inner wall of the first shell (18), and a heat recovery device (22) is arranged inside the heat insulation layer (19);

a second shell (26), a first pipeline (27) is connected between the second shell (26) and the first shell (18), a second liquid outlet (37) is arranged in the second shell (26), and a second liquid outlet is arranged on the second shell (26), wherein the second liquid outlet (37) is connected with the second liquid inlet;

and a second pipeline (30) is connected between the third shell (28) and the second shell (26), a first filter (29) is arranged in the third shell (28), and the third shell (28) is also connected with a third pipeline (32).

2. The apparatus of claim 1, further comprising,

and a fourth housing (31) connected to the third duct (32), provided with a second filter (35) therein, and the fourth housing (31) being further connected to an exhaust port (33).

3. The apparatus of claim 2,

the first filter (29) is an activated carbon filter and the second filter (35) is a biofilm filter.

4. The device according to claim 1, characterized in that it further comprises a base body (1), a collection tank (2) is arranged on the base body (1), and a third liquid discharge port is arranged on the collection tank (2);

the seat body (1) comprises a first mounting groove (14), a second mounting groove (15) and a third mounting groove (16),

the first housing (18) is disposed on the first mounting groove (14), the second housing (26) is disposed on the second mounting groove (15), and the third housing (28) is disposed on the third mounting groove (16).

5. A device according to claim 1, wherein the interior of the first housing (18) is further provided with a first liquid outlet (36), the first liquid outlet (36) being connected to a first liquid inlet,

the first shell (18) is also provided with a first liquid discharge port, and the first liquid discharge port is connected with a first control valve (23).

6. The device according to claim 5, wherein the first liquid inlet port and the second liquid inlet port are each a common liquid inlet port (41),

a second control valve (39) is connected between the first liquid discharge port (36) and the second liquid discharge port (37), and the second control valve (39) is connected to the common liquid inlet port (41).

7. Device according to claim 1, characterized in that the first housing (18) is provided with a third liquid inlet opening (20) and a liquid outlet opening (21),

the heat recoverer (22) comprises a circulating pipe, one end of the circulating pipe is connected with the third liquid inlet (20), and the other end of the circulating pipe is connected with the liquid outlet (21).

8. The device according to any one of claims 1 to 3, characterized in that it comprises a collecting tank (2), in which tank (2) a conveyor is arranged.

9. The device according to claim 8, characterized in that the conveyor comprises a conveying pipe (4) provided with filtering holes (11) at the bottom, the conveyor further comprises a conveying rod (6) provided with a helical blade (34) at the outer wall, the conveying rod (6) is arranged in the conveying pipe (4),

one end of the conveying rod (6) is connected with an output shaft of the driving device (7), the other end of the conveying rod (6) is connected with the supporting seat (5),

a fourth pipeline (40) is connected between the conveying pipe (4) and the second liquid discharge port.

10. The device according to claim 5 or 6, characterized in that it comprises a collecting tank (2), inside which a conveyor is arranged (2);

the conveyer comprises a conveying pipe (4) with a filtering hole (11) at the bottom, and a conveying rod (6) with a helical blade (34) on the outer wall, wherein the conveying rod (6) is arranged in the conveying pipe (4),

one end of the conveying rod (6) is connected with an output shaft of the driving device (7), the other end of the conveying rod (6) is connected with the supporting seat (5),

a fourth pipeline (40) is connected between the conveying pipe (4) and the second liquid discharge port, and the conveying pipe (4) is connected with the first control valve (23).

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