CN209809834U - Organic waste gas treatment equipment for waterproof coiled material production - Google Patents

Abstract

The utility model provides a waterproofing membrane production organic waste gas treatment facility, including a plurality of suction element, its characterized in that: still include the dust fall part, the dust fall part includes the inner tube, inner tube upper portion respectively with a plurality of parts intercommunication of breathing in, the inner tube lower part is equipped with the outlet duct, the inner periphery of inner tube is connected with helical blade, can dismantle the bottom of the inner tube and be connected with and connect dirty section of thick bamboo. The utility model has the advantages that: through the physical mode dust fall, compare in the mode that adopts a large amount of media dust fall then to extract, the energy resource consumption that has significantly reduced has avoided secondary environmental pollution, environmental protection and energy saving.

Description

Organic waste gas treatment equipment for waterproof coiled material production

Technical Field

The utility model relates to a waterproofing membrane production facility.

In particular to an organic waste gas treatment device for waterproof coiled material production.

Background

The waterproof coiled material is mainly used for building walls, roofs, tunnels, highways, refuse landfills and the like, can be curled into a roll-shaped flexible building material product for resisting external rainwater and underground water leakage, is used as a leakage-free connection between an engineering foundation and a building, is a waterproof first barrier of the whole engineering, and plays a vital role in the whole engineering.

The product mainly comprises asphalt waterproof coiled materials and polymer waterproof coiled materials.

At present, asphalt smoke and dust generated in the production of asphalt waterproof coiled materials can cause poisoning by respiratory tract and skin pollution, and symptoms such as dermatitis, blurred vision, conjunctivitis, chest distress, abdominal diseases, palpitation, headache and the like can be caused. Scientific experiments prove that benzopyrene contained in asphalt and asphalt smoke is the main cause of skin cancer, lung cancer, gastric cancer and esophagus cancer.

In the traditional technology, the waste gas is treated by adopting a chemical mode mostly, and the energy consumption is larger.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the weak point of above-mentioned conventional art, provide a waterproofing membrane production organic waste gas treatment facility who takes physical treatment waste gas mode.

The purpose of the utility model is achieved through the following technical measures:

waterproofing membrane production organic waste gas treatment facility, including a plurality of parts of breathing in, its characterized in that: still include the dust fall part, the dust fall part includes the inner tube, inner tube upper portion respectively with a plurality of parts intercommunication of breathing in, the inner tube lower part is equipped with the outlet duct, the inner periphery of inner tube is connected with helical blade, can dismantle the bottom of the inner tube and be connected with and connect dirty section of thick bamboo.

According to a specific optimization scheme, the pitch of the spiral blades is gradually reduced from top to bottom.

A specific optimization scheme is characterized in that a baffle is arranged on the upper portion of a sewage receiving cylinder, and a plurality of through holes are formed in the baffle.

The utility model provides a specific optimization scheme, the internal periphery of inspiratory component is equipped with arc and keeps off the piece, and the dirty box is connect to arc fender lower part detachable connection.

The specific optimization scheme further comprises an outer barrel, the outer barrel is sleeved with the inner barrel, and the outer barrel is connected with a cooling device.

The utility model provides a concrete optimization scheme, the heat sink includes the heat pump, third heat transfer part, fourth heat transfer part and fan, the heat pump includes the compressor, first heat transfer part, the condenser, second heat transfer part, the inlet end of compressor and the end intercommunication of giving vent to anger of first heat transfer part, the compressor is given vent to anger the end and is communicate with the inlet end of second heat transfer part, the end of giving vent to anger of second heat transfer part communicates with the inlet end of condenser, the liquid end of condenser goes out the liquid end and communicates with the feed liquor end of first heat transfer part, first heat transfer part and third heat transfer part cooperation set up, second heat transfer part and fourth heat transfer part cooperation set up, third heat transfer part passes through fan and urceolus upper portion intercommunication, fourth heat transfer part and urceolus lower part intercommunication.

The utility model provides a concrete optimization scheme, urceolus includes urceolus casing and urceolus door, urceolus door one end and the handing-over of urceolus casing, and urceolus door other one end can be dismantled with the urceolus casing and be connected.

A specific optimization scheme is that a sealing separation blade is arranged between an outer barrel door and an outer barrel shell.

In a specific optimization scheme, the air outlet pipe is communicated with a negative pressure fan.

Owing to adopted above-mentioned technical scheme, compare with prior art, the utility model has the advantages that:

through the physical mode dust fall, compare in the mode that adopts a large amount of media dust fall then to extract, the energy resource consumption that has significantly reduced has avoided secondary environmental pollution, environmental protection and energy saving.

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Drawings

FIG. 1 is the structure schematic diagram of the organic waste gas treatment equipment for waterproof coiled material production.

Fig. 2 is a schematic structural diagram of the helical blade of the present invention.

Fig. 3 is a schematic structural view of the sewage receiving cylinder of the present invention.

Fig. 4 is a schematic structural view of the dust suction unit of the present invention.

Fig. 5 is a schematic structural view of the outer barrel of the present invention.

Fig. 6 is a schematic structural diagram of the cooling device of the present invention.

Detailed Description

Example 1: as shown in the attached figures 1-6, waterproofing membrane production organic waste gas treatment equipment comprises a plurality of air suction parts 1 and further comprises a dust fall part 2, wherein the dust fall part 2 comprises an inner cylinder 21, the upper part of the inner cylinder 21 is respectively communicated with the plurality of air suction parts 1, an air outlet pipe 25 is arranged at the lower part of the inner cylinder 21, a spiral blade 23 is connected to the inner periphery of the inner cylinder 21, and a dirt collecting cylinder 24 is detachably connected to the bottom of the inner cylinder 21.

The pitch of the helical blades 23 decreases from top to bottom.

The upper part of the dirt collecting cylinder 24 is provided with a baffle 241, and the baffle 241 is provided with a plurality of through holes 242.

An arc-shaped blocking piece 11 is arranged on the inner periphery of the air suction part 1, and the lower part of the arc-shaped blocking piece 11 is detachably connected with a sewage receiving box 12. The arc-shaped blocking piece 11 and the sewage receiving box 12 can be detachably connected through a pin shaft, a bolt, a buckle and other parts, and in addition, the arc-shaped blocking piece 11 and the sewage receiving box 12 can also be detachably connected through a magnet and other parts.

The cooling device further comprises an outer cylinder 22, the outer cylinder 22 is sleeved with the inner cylinder 21, and the outer cylinder 22 is connected with the cooling device 3.

The cooling device 3 comprises a heat pump, a third heat exchange component 33, a fourth heat exchange component 34 and a fan 37, the heat pump comprises a compressor 35, a first heat exchange component 31, a condenser 36 and a second heat exchange component 32, an air inlet end of the compressor 35 is communicated with an air outlet end of the first heat exchange component 31, an air outlet end of the compressor 35 is communicated with an air inlet end of the second heat exchange component 32, an air outlet end of the second heat exchange component 32 is communicated with an air inlet end of the condenser 36, an liquid outlet end of the condenser 36 is communicated with an liquid inlet end of the first heat exchange component 31, the first heat exchange component 31 and the third heat exchange component 33 are arranged in a matched mode, the second heat exchange component 32 and the fourth heat exchange component 34 are arranged in a matched mode, the third heat exchange component 33 is communicated with the upper portion of the outer barrel 22 through the fan 37, and the fourth heat exchange.

The first heat exchange part 31 and the third heat exchange part 33 are in contact connection, and heat-insulating shells can be arranged outside the first heat exchange part 31 and the third heat exchange part 33, so that the heat exchange efficiency is improved conveniently. The first heat exchange part 31 and the third heat exchange part 33 are generally serpentine heat exchange tubes, and in addition, can be selectively replaced according to requirements.

The second heat exchange part 32 and the fourth heat exchange part 34 are in contact connection, and a heat insulation shell can be arranged outside the second heat exchange part 32 and the fourth heat exchange part 34, so that the heat exchange efficiency is improved conveniently. The second heat exchange member 32 and the fourth heat exchange member 34 are generally serpentine heat exchange tubes, and may be selectively replaced as needed.

During the use, extract urceolus 22 upper portion steam and get into third heat transfer part 33 through fan 37, heat pump work makes the steam cooling, then sends into the urceolus 22 through the air conditioning after fan 37 will cool down in, makes air conditioning and inner tube 21 produce the heat exchange to make the waste gas cooling, be convenient for improve organic waste gas's collection efficiency. Compared with other cooling devices, the heat pump has the characteristics of low energy consumption and small environmental pollution.

The outer cylinder 22 comprises an outer cylinder shell 221 and an outer cylinder door 222, one end of the outer cylinder door 222 is connected with the outer cylinder shell 221, and the other end of the outer cylinder door 222 is detachably connected with the outer cylinder shell 221.

A sealing baffle is arranged between the outer cylinder door 222 and the outer cylinder shell 221. The sealing baffle can refer to a common refrigerator baffle, and is not described herein in detail.

The air outlet pipe 25 is communicated with a negative pressure fan 26.

When the dust collector is used, organic waste gas firstly falls dust through the air suction component 1, firstly produced dirt is collected by the dirt collecting box 12, and the dirt collecting box 12 can be detached and cleaned after the dirt collecting box is fully collected; then organic waste gas reenters inside the inner tube, through the further dust fall of helical blade 23, helical blade 23 dust fall still possesses the transportation effect simultaneously, can make waste oil after the condensation flow in downwards and connect dirty section of thick bamboo 24 in, helical blade 23 with connect dirty section of thick bamboo 24 all can dismantle the washing, then through other dust removal steps of waste gas reentrant behind the physics dust fall, because this application passes through the physics mode dust fall, therefore the energy resource consumption that has significantly reduced, environmental protection and energy saving.

Claims (9)

1. Waterproofing membrane production organic waste gas treatment facility, including a plurality of parts of breathing in, its characterized in that: still include the dust fall part, the dust fall part includes the inner tube, inner tube upper portion respectively with a plurality of parts intercommunication of breathing in, the inner tube lower part is equipped with the outlet duct, the inner periphery of inner tube is connected with helical blade, can dismantle the bottom of the inner tube and be connected with and connect dirty section of thick bamboo.

2. The organic waste gas treatment equipment for waterproof coiled material production according to claim 1, wherein: the pitch of the helical blade is gradually reduced from top to bottom.

3. The organic waste gas treatment equipment for waterproof coiled material production according to claim 1, wherein: connect dirty section of thick bamboo upper portion to be equipped with the baffle, be equipped with a plurality of through-holes on the baffle.

4. The organic waste gas treatment equipment for waterproof coiled material production according to claim 1, wherein: the inner periphery of the air suction part is provided with an arc-shaped stopper, and the lower part of the arc-shaped stopper is detachably connected with a sewage receiving box.

5. The organic waste gas treatment equipment for producing the waterproof coiled material according to any one of claims 1 to 4, wherein: the cooling device is characterized by further comprising an outer barrel, wherein the outer barrel is sleeved with the inner barrel, and the outer barrel is connected with the cooling device.

6. The organic waste gas treatment equipment for waterproof coiled material production according to claim 5, wherein: the cooling device comprises a heat pump, a third heat exchange component, a fourth heat exchange component and a fan, the heat pump comprises a compressor, a first heat exchange component, a condenser and a second heat exchange component, the air inlet end of the compressor is communicated with the air outlet end of the first heat exchange component, the air outlet end of the compressor is communicated with the air inlet end of the second heat exchange component, the air outlet end of the second heat exchange component is communicated with the air inlet end of the condenser, the liquid outlet end of the condenser is communicated with the liquid inlet end of the first heat exchange component, the first heat exchange component and the third heat exchange component are arranged in a matched mode, the second heat exchange component and the fourth heat exchange component are arranged in a matched mode, the third heat exchange component is communicated with the upper portion of the outer barrel through the fan, and.

7. The organic waste gas treatment equipment for waterproof coiled material production according to claim 5, wherein: the urceolus includes urceolus casing and urceolus door, urceolus door one end and the handing-over of urceolus casing, and urceolus door other one end can dismantle with the urceolus casing and be connected.

8. The organic waste gas treatment equipment for waterproof coiled material production according to claim 7, wherein: a sealing separation blade is arranged between the outer cylinder door and the outer cylinder shell.

9. The organic waste gas treatment equipment for producing the waterproof coiled material according to any one of claims 1 to 4, wherein: the air outlet pipe is communicated with a negative pressure fan.