CN221071179U - Dedusting water circulation system applied to carbon fiber product polishing workshop - Google Patents

Abstract

The utility model discloses a dust removal water circulation system applied to a carbon fiber product polishing workshop, and relates to the technical field of water curtain dust collection. The utility model comprises an operation room, wherein a liquid medicine filter is arranged on the operation room, a cleaning machine and a water curtain dust remover are respectively arranged on two sides of the liquid medicine filter, and the water curtain dust remover is matched with the cleaning machine; the anti-explosion electric box is arranged on the water tank, and the demisting plate is arranged on one side of the anti-explosion electric box, so that the demisting plate is conveniently arranged on one side of the anti-explosion electric box. According to the utility model, the problem that the water body is acidified or alkalized due to PH change caused by direct discharge when the carbon fiber workpiece is polished is reduced, the conversion of atmospheric oxygen molecules into water is hindered by petroleum, the efficiency of dissolving oxygen in water is improved, the death problem of aquatic organisms due to hypoxia is reduced, the hidden danger of water caused by river bed heightening is reduced, and the safety problem between life and property of human beings is reduced.

Description

Dedusting water circulation system applied to carbon fiber product polishing workshop

Technical Field

The utility model belongs to the field of water curtain dust collection, and particularly relates to a dust removal water circulation system applied to a carbon fiber product polishing workshop.

Background

Carbon fiber products have been successful in replacing many metal and plastic products in many areas, carbon fiber products have a great advantage over performance. In order to obtain a better and smoother surface, the surface of the carbon fiber product needs to be polished, and the surface polishing process of the carbon fiber product is as follows: 1. after molding, firstly polishing the surface of the carbon fiber, and flattening the surface by sand paper or grinding equipment; 2. the carbon fiber surface after polishing is washed by water, a lot of carbon powder particles need to be washed away in the water, and an automatic filtration circulating water system is generally used; 3. wiping, namely wiping water stains on the surface of the carbon fiber by using dry cloth; 4. baking, namely placing the carbon fiber product after being wiped into a baking oven to bake for 5 minutes at 80 ℃ to ensure that the moisture is completely evaporated.

The wastewater mainly comes from carbon fiber workpiece polishing wastewater, and the wastewater contains the following main pollution factors: PH, CODcr, SS if the wastewater is directly discharged without treatment, CODcr can consume dissolved oxygen in water, PH can cause acidification or alkalization of water, petroleum can obstruct and reduce conversion of atmospheric oxygen molecules into water, so that the dissolved oxygen of water is reduced, aquatic organisms die due to hypoxia, SS can increase river beds, water flooding hidden danger is formed, and serious problems of life and property safety of people are serious.

Therefore, a dust-removing water circulation system applied to a carbon fiber product polishing workshop is provided to solve the defects.

Disclosure of utility model

The utility model aims to solve the technical problem of overcoming the defects of the prior art and providing a dust removal water circulation system applied to a carbon fiber product polishing workshop.

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that:

The dust-removing water circulation system applied to the carbon fiber product polishing workshop comprises an operation room, wherein a liquid medicine filter is arranged on the operation room, a cleaning machine and a water curtain dust remover are respectively arranged on two sides of the liquid medicine filter, and the water curtain dust remover is matched with the cleaning machine;

The anti-explosion electric box is arranged on the water tank, the demisting plate is arranged on one side of the anti-explosion electric box, the demisting plate is conveniently arranged on one side of the anti-explosion electric box, an air outlet is formed in one end of the demisting plate, an anti-explosion lamp tube is arranged on one side of the anti-explosion electric box, and the anti-explosion lamp tube is conveniently arranged on one side of the anti-explosion electric box.

Optionally, glass has been installed to one side of operation room, has made things convenient for through glass is right inside observing of operation room, the cascade dust shaker is installed the inside of operation room, the cascade dust shaker with install first connecting pipe between the liquid medicine filter, the cascade dust shaker with install the second connecting pipe between the descaling machine, the water tank facial make-up is equipped with first water pump, has made things convenient for first water pump is installed on the water tank, explosion-proof electric tank facial make-up is equipped with explosion-proof fan, one side of operation room is equipped with the catch basin, first elevator pump has been installed to the inside of catch basin has made things convenient for the first elevator pump to be installed the inside of catch basin, the one end of first elevator pump has been installed and has been made things convenient for the filter screen frame is installed the inside of catch basin, the one end of filter screen frame has been installed the pocket type filter, has made things convenient for the pocket type filter to install the inside of catch basin, one side of catch basin has been installed first pond, first pond is located the inside the first pond, first elevator pump has been installed to the first side of first pond, the second elevator pump has been installed to the first pond, first side of first pond has been installed to the second elevator pump has been installed to the first pond.

Optionally, the mixing box is installed on the reation kettle sedimentation tank, the second pond is installed to one side of reation kettle sedimentation tank, the third water pump has been installed to the inside in second pond, the mixture has been placed to the inside in reation kettle sedimentation tank, the sheet frame filter press has been installed to the inside in reation kettle sedimentation tank, the second header tank has been installed to one side of reation kettle sedimentation tank, the disposal box has been installed to one side of reation kettle sedimentation tank, the one end of header tank is connected with first enterprise raw water connecting pipe, the output of second water pump is connected with first owner's retrieval and utilization connecting pipe, the one end of first header tank is connected with second enterprise raw water connecting pipe, the second owner retrieval and utilization connecting pipe is installed to the output of third water pump, collects waste water, balanced quality of water volume, guarantees the stability and the normal operating of follow-up sewage treatment system.

After the technical scheme is adopted, compared with the prior art, the utility model has the following beneficial effects, and of course, any product for implementing the utility model does not necessarily need to achieve all the following advantages at the same time:

1. The design range comprises all contents of technology, civil engineering, electricity, automatic control and the like in the range of the wastewater treatment station, and the optimized combination and economic and technical comparison are carried out on the treatment technology of the wastewater treatment station from the inlet of an adjusting tank of the wastewater treatment station to the flow weir after wastewater treatment: determining an economic, feasible and reasonable process technical scheme, carrying out analysis and evaluation on a recommended scheme such as process, building, structure, electricity, machinery, automatic control and the like, providing explanation on the aspects of station personnel, energy conservation and the like, carrying out feasibility analysis on the engineering, making conclusions and suggestions, and leading a waste water pipeline, a tap water pipeline and an incoming line cable of the engineering into a waste water station boundary area by an owner, and providing corresponding elevation of each pipeline for design reference;

2. Cleaning wastewater directly enters an adjusting tank, the water quality and the water quantity are adjusted, the sewage communicated with the adjusting tank is lifted and conveyed to a reaction sedimentation tank, caustic soda is added and a stirring device is started after the water tank is fully pumped, the reaction is fully mixed after stirring, pH=10 is kept, coagulant aid PAC and PAM are continuously added into the reacted wastewater, particles, suspended matters, colloid and the like in the wastewater are fully stirred under the action of a coagulant, and the particles of the floc are increased through the adsorption bridging effect, so that the sedimentation efficiency is increased, and the hydroxide colloid formed by trace heavy metal ions is removed from the water due to the control of the pH value of about 10.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic diagram of an overall system operation structure according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a wet environment-friendly dust-removing apparatus according to an embodiment of the utility model;

FIG. 3 is a schematic diagram of a wet environment-friendly dust-removing apparatus according to an embodiment of the utility model;

FIG. 4 is a schematic view of a process flow of a first-floor facility according to an embodiment of the present utility model;

Fig. 5 is a schematic diagram of a process flow of a stair climbing device according to an embodiment of the utility model.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings.

Referring to fig. 1-5, in this embodiment, a dust-removing water circulation system for a carbon fiber product polishing workshop is provided, which includes an operation room 1, a liquid medicine filter 102 is installed on the operation room 1, a cleaning machine 103 and a water curtain dust remover 101 are installed on two sides of the liquid medicine filter 102 respectively, and the water curtain dust remover 101 is matched with the cleaning machine 103;

The water tank 2 is provided with the explosion-proof electric box 204 and the defogging plate 203 positioned on one side of the explosion-proof electric box 204, the defogging plate 203 is conveniently arranged on one side of the explosion-proof electric box 204, one end of the defogging plate 203 is provided with the air outlet 202, one side of the explosion-proof electric box 204 is provided with the explosion-proof lamp tube 207, and the explosion-proof lamp tube 207 is conveniently arranged on one side of the explosion-proof electric box 204.

The wastewater of the project mainly comprises polishing wastewater of carbon fiber workpieces, and the wastewater contains the following main pollution factors: CODcr, SS and a certain amount of organic substances, the waste water has low biochemical degree, can remove pollutants by adopting physical and chemical treatment according to the characteristics of pollution factors and the requirements of reuse water standards, and is a device combining chemical coagulation and physical precipitation, the principle is that coagulant and coagulant aid are added into water to lead small particles in the waste water to form bridging, then the particles are mutually adsorbed to form large particles, and then the particles in the waste water are separated through gravity separation, thereby achieving the aim of purification.

An explosion-proof centrifugal fan is installed at the top of the environment-friendly dust removing device to form negative pressure, a water tank is designed above an air suction inlet, water is filled with water and overflows evenly to form a water curtain, an atomizing chamber and a filter screen are designed behind the water curtain, a water storage tank is designed at the bottom, an explosion-proof water pump is installed to pump water to each group of water tanks to form circulating water, the environment-friendly dust removing device is started in operation, a workpiece is taken to the air suction inlet, polishing machine or tool is used for polishing and deburring products, dust produced in processing is sucked from the air suction inlet to fuse with water, residual dust mist is sucked into the atomizing chamber through the fan and discharged to the atomizing chamber, internal circulation is formed to be discharged after the filter screen is filtered, the circulating water flows into a water tank to collect waste, and is collected and cleaned in time, the pH change caused by direct discharge when polishing of carbon fiber workpieces is reduced, the oil can prevent atmospheric oxygen molecules from being converted into water, the efficiency of water dissolved oxygen is improved, the problem that water life and potential safety hazards of humans are reduced due to the lack of oxygen is reduced.

The process has the characteristics of good treatment effect, simple operation, small occupied area and the like.

Glass 106 has been installed to one side of the operation room 1 of this embodiment, the inside of operation room 1 is observed through glass 106 to the convenience, the inside at the operation room 1 is installed to the cascade dust shaker 101, first connecting pipe 104 has been installed between cascade dust shaker 101 and the liquid medicine filter 102, second connecting pipe 105 has been installed between cascade dust shaker 101 and the descaling machine 103, first water pump 201 has been installed to water tank 2, the convenience is installed first water pump 201 on water tank 2, explosion-proof electric tank 204 facial make-up is equipped with explosion-proof fan 208, one side of operation room 1 is equipped with catch basin 3, first elevator pump 301 has been installed to the inside of catch basin 3, the one end of first elevator pump 301 has been installed first filter screen frame 302, the convenience is installed the inside at catch basin 3 to first filter screen frame 302, bag filter 303 has been installed to the one end of first filter frame 302, the convenience is installed the inside at the catch basin 3, first pond 304 has been installed to one side of water tank 3, first pond 304 has been installed to one side, first water pump 303 is located the inside of first pond 304, first elevator tank 2 has been installed to the inside of first explosion-proof electric tank 204 has been installed first elevator pump 305, the first side of operation room 4 has been installed to the first elevator tank 4, the first end of operation room 4 has been installed to the first elevator pump 401, the first reactor 4 is located the inside of the first side of catch basin 4, the reactor 4 has been installed to be installed to the first elevator tank 401, the first side of operation tank 4 has been installed.

The mixing box 403 is installed on the reaction kettle sedimentation tank 402 of this embodiment, the second pond 404 is installed to one side of the reaction kettle sedimentation tank 402, the third water pump 405 is installed to the inside of the second pond 404, the mixture 406 is placed to the inside of the reaction kettle sedimentation tank 402, the plate and frame filter press 407 is installed to the inside of the reaction kettle sedimentation tank 402, the second header tank 408 is installed to one side of the reaction kettle sedimentation tank 402, the disposal box 409 is installed to one side of the reaction kettle sedimentation tank 402, one end of the header tank 3 is connected with first enterprise raw water connecting pipe, the output of the second water pump 305 is connected with first owner's recycling connecting pipe, one end of the first header tank 4 is connected with second enterprise raw water connecting pipe, the second owner's recycling connecting pipe is installed to the output of the third water pump 405, collect waste water, balanced quality and water yield, guarantee the stability and the normal operation of follow-up sewage treatment system, effective dwell time: 4h, the balance of the water quality and the water quantity of the wastewater can be satisfied.

It should be noted that:

The design range comprises all contents of technology, civil engineering, electricity, automatic control and the like in the range of the wastewater treatment station, and the optimized combination and economic and technical comparison are carried out on the treatment technology of the wastewater treatment station from the inlet of an adjusting tank of the wastewater treatment station to the flow weir after wastewater treatment: determining an economic, feasible and reasonable process technical scheme, carrying out analysis and evaluation on a recommended scheme such as process, building, structure, electricity, machinery, automatic control and the like, providing explanation on the aspects of station personnel, energy conservation and the like, carrying out feasibility analysis on the engineering, making conclusions and suggestions, and leading a waste water pipeline, a tap water pipeline and an incoming line cable of the engineering into a waste water station boundary area by an owner, and providing corresponding elevation of each pipeline for design reference;

Cleaning wastewater directly enters an adjusting tank, the water quality and the water quantity are adjusted, the sewage communicated with the adjusting tank is lifted and conveyed to a reaction sedimentation tank, caustic soda is added and a stirring device is started after the water tank is fully pumped, the reaction is fully mixed after stirring, pH=10 is kept, coagulant aid PAC and PAM are continuously added into the reacted wastewater, particles, suspended matters, colloid and the like in the wastewater are fully stirred under the action of a coagulant, and the particles of the floc are increased through the adsorption bridging effect, so that the sedimentation efficiency is increased, and the hydroxide colloid formed by trace heavy metal ions is removed from the water due to the control of the pH value of about 10. The reaction precipitation is a high-efficiency precipitation method, the process is formed by installing a series of reaction stirring devices in a common precipitation tank, the equipment volume is reduced, the operation steps are simplified, sludge deposited in an inclined tube precipitation tank is periodically discharged to a sludge drying tank, the sludge is stored in the sludge tank, the sludge is pumped into a filter press for dehydration by a sludge pump, filtered water enters an adjusting tank for reprocessing, and the pressed sludge is delivered to a qualified unit for outward transportation treatment.

Reaction mechanism:

NaOH and PAC are added to remove metal ions and fine carbon fiber particles, suspended matters, colloid and the like in the wastewater are subjected to the coagulation action of a coagulant aid, the floc particles are increased through the adsorption bridging action, most of the suspended matters are coagulated into clusters, and the clusters are settled and enter a sludge hopper of a precipitator.

The present utility model is not limited to the above embodiments, and any person who can learn the structural changes made under the teaching of the present utility model can fall within the scope of the present utility model if the present utility model has the same or similar technical solutions. The technology, shape, and construction parts of the present utility model, which are not described in detail, are known in the art.

Claims (10)

1. Be applied to carbon fiber goods workshop of polishing's dust removal water circulation system, its characterized in that includes:

The device comprises an operation room (1), wherein a liquid medicine filter (102) is arranged on the operation room (1), a cleaning machine (103) and a water curtain dust remover (101) are respectively arranged on two sides of the liquid medicine filter (102), and the water curtain dust remover (101) is matched with the cleaning machine (103);

The anti-explosion water tank comprises a water tank (2), wherein an anti-explosion electric tank (204) and a demisting plate (203) arranged on one side of the anti-explosion electric tank (204) are arranged on the water tank (2), an air outlet (202) is formed in one end of the demisting plate (203), and an anti-explosion lamp tube (207) is arranged on one side of the anti-explosion electric tank (204).

2. The dust removal water circulation system applied to a carbon fiber product polishing workshop according to claim 1, wherein glass (106) is arranged on one side of the operation room (1), the water curtain dust remover (101) is arranged in the operation room (1), a first connecting pipe (104) is arranged between the water curtain dust remover (101) and the liquid medicine filter (102), and a second connecting pipe (105) is arranged between the water curtain dust remover (101) and the cleaning machine (103).

3. The dust removal water circulation system applied to the carbon fiber product polishing workshop according to claim 1, wherein a first water pump (201) is arranged on the water tank (2), and an explosion-proof fan (208) is arranged on the explosion-proof electric tank (204).

4. The dust removal water circulation system for carbon fiber product polishing workshop according to claim 1, wherein a water collecting tank (3) is arranged on one side of the operation room (1), a first lifting pump (301) is arranged in the water collecting tank (3), a primary filter screen frame (302) is arranged at one end of the first lifting pump (301), a bag filter (303) is arranged at one end of the primary filter screen frame (302), a first water tank (304) is arranged on one side of the water collecting tank (3), the bag filter (303) is located in the first water tank (304), and a second water pump (305) is arranged in the first water tank (304).

5. The dust removal water circulation system applied to a carbon fiber product polishing workshop according to claim 1, wherein a first water collecting tank (4) is arranged on one side of the operation room (1), a second lifting pump (401) is arranged in the first water collecting tank (4), a reaction kettle sedimentation tank (402) is arranged on one side of the first water collecting tank (4), and an output end of the second lifting pump (401) is positioned in the reaction kettle sedimentation tank (402).

6. The dust removal water circulation system applied to a carbon fiber product polishing workshop according to claim 5, wherein a mixing box (403) is arranged on the reaction kettle sedimentation tank (402), a second water tank (404) is arranged on one side of the reaction kettle sedimentation tank (402), and a third water pump (405) is arranged in the second water tank (404).

7. The dust removal water circulation system applied to a carbon fiber product polishing workshop according to claim 6, wherein a mixture (406) is placed in the reaction kettle sedimentation tank (402), a plate-and-frame filter press (407) is installed in the reaction kettle sedimentation tank (402), and a second water collection tank (408) is installed on one side of the reaction kettle sedimentation tank (402).

8. The dust removal water circulation system for a carbon fiber product polishing workshop according to claim 7, wherein a disposal box (409) is arranged at one side of the reaction kettle sedimentation tank (402).

9. The dust removal water circulation system applied to a carbon fiber product polishing workshop according to claim 4, wherein one end of the water collecting tank (3) is connected with a first enterprise raw water connecting pipe, and the output end of the second water pump (305) is connected with a first owner recycling connecting pipe.

10. The dust-removing water circulation system applied to the carbon fiber product polishing workshop according to claim 6, wherein one end of the first water collection tank (4) is connected with a second enterprise raw water connecting pipe, and the output end of the third water pump (405) is provided with a second owner recycling connecting pipe.