CN209475871U - Building material industry desulfurization and dedusting minimum discharge integrated apparatus - Google Patents

Abstract

The utility model provides a kind of building material industry desulfurization and dedusting minimum discharge integrated apparatus, is related to technical field of dust removal equipment, and main purpose is to solve traditional deduster technical problem that structure is complicated, efficiency of dust collection is low.Building material industry desulfurization and dedusting minimum discharge integrated apparatus, including injector, shell and processing unit, wherein: shell is equipped with air inlet, exhaust outlet, discharge outlet and partition, shell is divided into mixed zone and Disengagement zone by partition, air inlet is located at mixed zone, and discharge outlet and exhaust outlet are located at Disengagement zone；Injector includes main-inlet, secondary entrance and exit, and primary flow path extends to outlet from main-inlet, and secondary flow path extends to outlet from secondary entrance；The outlet of injector is connected with the air inlet of shell, and fluid enters in mixed zone through air inlet；Processing unit one end is fixed on partition, and the other end extends towards Disengagement zone direction, and the fluid in mixed zone flows into Disengagement zone through processing unit, and is discharged respectively through discharge outlet and exhaust outlet.

Description

Building material industry desulfurization and dedusting minimum discharge integrated apparatus

Technical field

The utility model relates to technical field of dust removal equipment, more particularly, to a kind of desulfurization and dedusting applied to building material industry Minimum discharge integrated apparatus.

Background technique

With the development of science and technology, social progress, requirement of the people for itself health and external environment is further heavy Depending on the building material industry that especially dust content is relatively more, working environment is more severe.But since the dedusting of electric precipitator is imitated Rate is influenced by dust specific resistance value, can not well adapt to relatively dry or relatively wet working environment, therefore electric precipitation Device high failure rate when in use, efficiency of dust collection is low, and structure is complicated for traditional cleaner, and purchase cost is high, and volume It is larger, be not suitable for applying in actual production.

It is badly in need of producing the high-efficiency dust remover that a kind of structure is simple, small in size at present.

Utility model content

The purpose of this utility model is to provide building material industry desulfurization and dedusting minimum discharge integrated apparatus, existing to solve There is the technical problem that structure is complicated, efficiency of dust collection is low of deduster present in technology.

To achieve the above object, the utility model provides following technical scheme:

Building material industry provided by the utility model desulfurization and dedusting minimum discharge integrated apparatus, including injector, shell And processing unit, in which:

The shell is equipped with air inlet, exhaust outlet, discharge outlet and partition, and the shell is divided into mixing by the partition Area and Disengagement zone, the air inlet are located at the mixed zone, and the discharge outlet and the exhaust outlet are located at the Disengagement zone；

The injector includes main-inlet, secondary entrance and exit, and primary flow path extends to the outlet from the main-inlet, secondary Flow path extends to the outlet from the secondary entrance；The outlet of the injector is connected with the air inlet of the shell, Fluid enters in the mixed zone through the air inlet；

Described processing unit one end is fixed on the partition, and the other end extends towards the Disengagement zone direction, institute The fluid stated in mixed zone flows into the Disengagement zone through the processing unit, and distinguishes through the discharge outlet and the exhaust outlet Discharge.

Gas to be processed is entered in mixed zone through primary flow path by the air inlet of shell, the liquid for being handled gas Body such as water or other fluid equally flow into shell under the drive of air inlet gas through time flow path；Gas and water are in the outlet of injector Inside flows into the secondary mixing of progress in mixed zone after carrying out first step mixed processing simultaneously, flows into after processing unit processes after In Disengagement zone, wherein gas is discharged through exhaust outlet, and liquid is discharged through discharge outlet, handles to realize the desulfurization and dedusting of gas.

In the above-mentioned technical solutions, it is preferred that height of the partition close to the air inlet side is greater than the draining Mouthful height and not higher than the partition close to the exhaust outlet side height.

Partition is arranged to be lower than close to air inlet side height close to exhaust outlet side height, it is ensured that flow into mixed zone Fluid-mixing through processing unit processes and can flow into Disengagement zone in time, avoid untreated fluid it is excessive accumulate in mixed zone It is interior；The height that height of the partition close to air inlet side is greater than at discharge outlet is set, can be overflow to avoid working solution through processing unit Enter in mixed zone out.

In the above-mentioned technical solutions, it is preferred that the quantity of the processing unit is at least two, all processing lists First bottom level is consistent, and top is connected with the partition.

In the above-mentioned technical solutions, it is preferred that the processing unit bottom is reticular structure.

Fluid-mixing can be further at the reticular structure of processing unit bottom before flowing into Disengagement zone through processing unit Mixed processing is carried out, to enhance the treatment effeciency of the device.

In the above-mentioned technical solutions, it is preferred that the side wall of the processing unit is equipped with through-hole.

In the above-mentioned technical solutions, it is preferred that the Disengagement zone bottom is equipped with opening.

Opening is set in the bottom of Disengagement zone, user can be by the opening to the dust etc. that may accumulate in Disengagement zone Solid matter is handled.

In the above-mentioned technical solutions, it is preferred that gauze is equipped at the air inlet.

In the above-mentioned technical solutions, it is preferred that the main-inlet of the injector and the outlet direction extending in a straight line It sets gradually, 90 degree of angle is no more than between the straight line that the secondary entrance is connected with the main-inlet and the outlet.

In the above-mentioned technical solutions, it is preferred that the angle of the angle is 25-50 degree.

In the above-mentioned technical solutions, it is preferred that the main-inlet of the injector and the outlet direction extending in a straight line It sets gradually, the secondary entrance is set on the outside of the main-inlet.

Compared with the prior art, the utility model provides a kind of building material industry desulfurization and dedusting minimum discharge integrally makeup It sets, which includes injector, shell and the processing unit positioned at enclosure interior, and gas and working solution to be processed are through injector stream Enter in shell, and carry out mixed processing in shell, is most discharged respectively by exhaust outlet and discharge outlet after processing unit processes afterwards, The apparatus structure is simple, and occupied area is small, while not being influenced by ambient humidity, can effectively carry out to the dust in gas Filter, practical application value with higher.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of the utility model building material industry desulfurization and dedusting minimum discharge integrated apparatus；

Fig. 2 is the A-A structural schematic diagram of Fig. 1；

Fig. 3 is the B-B structural schematic diagram of Fig. 1；

Fig. 4 is the structural schematic diagram of processing unit in Fig. 1；

Fig. 5 is the bottom surface structure schematic diagram of processing unit in Fig. 4；

Fig. 6 is second of structural schematic diagram of injector in Fig. 1；

Fig. 7 is the third structural schematic diagram of injector in Fig. 1；

Fig. 8 is the inlet location structural schematic diagram of injector in Fig. 7；

Fig. 9 is the utility model building material industry desulfurization and dedusting minimum discharge second of structural schematic diagram of integrated apparatus.

In figure: 1, injector；11, main-inlet；12, secondary entrance；13, it exports；2, shell；21, air inlet；22, exhaust outlet； 23, discharge outlet；24, partition；25, it is open；26, gauze；2a, mixed zone；2b, Disengagement zone；3, processing unit.

Specific embodiment

To keep the purpose of this utility model, technical solution and advantage clearer, below by the technology to the utility model Scheme is described in detail.Obviously, the described embodiments are only a part of the embodiments of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not before making creative work Obtained all other embodiment is put, the range that the utility model is protected is belonged to.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", The orientation or positional relationship of the instructions such as " clockwise ", " counterclockwise " be based on attached orientation or positional relationship shown in FIG. 1, be only for Convenient for description the utility model and simplify description, rather than the equipment of indication or suggestion meaning or element must have specifically Orientation is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

Attached drawing 1 is the structural schematic diagram of the utility model building material industry desulfurization and dedusting minimum discharge integrated apparatus；From In figure as can be seen that the device mainly formed by injector, shell and positioned at the intracorporal processing unit of shell, gas to be processed and Flow into Disengagement zone through processing unit after carrying out mixed processing in the mixed zone that working solution flows into upper part of the housing through injector, and through with The connected exhaust outlet in Disengagement zone and discharge outlet are discharged respectively.

Attached drawing 2 is the A-A structural schematic diagram of Fig. 1；It can be seen from the figure that mixed zone and Disengagement zone by partition mutually every It opens, wherein mixed zone is located above partition, and Disengagement zone is located at below partition, and in addition the top of processing unit is connected with partition, bottom End is vacantly arranged in Disengagement zone and the floor height of all processing units is consistent.

Attached drawing 3 is the B-B structural schematic diagram of Fig. 1；It can be seen from the figure that the pe array row being located in Disengagement zone Cloth.

Attached drawing 4 is the structural schematic diagram of processing unit in Fig. 1；As can be seen from the figure it is set on all side walls of the processing unit There is through-hole, the fluid mixture flowed down through processing unit can flow into Disengagement zone through the through-hole.

Attached drawing 5 is the bottom surface structure schematic diagram of processing unit in Fig. 4；The figure illustrates that the bottom surface of processing unit is netted knot Structure.

Attached drawing 6 is second of structural schematic diagram of injector in Fig. 1；Injector primary flow path in figure is rectilinear structure, Secondary entrance is located at the peripheral side of main-inlet and the side wall of secondary entrance all wraps up the peripheral side of main-inlet, this structure energy Effectively reduce the volume of injector.

Attached drawing 7 is the third structural schematic diagram of injector in Fig. 1；The secondary entrance of injector at this time is set in main-inlet Side.

Attached drawing 8 is the inlet location structural schematic diagram of injector in Fig. 7；As can be seen from the figure the injector in Fig. 7 enters The specific structure in mouth region domain.

Attached drawing 9 is the utility model building material industry desulfurization and dedusting minimum discharge second of structural representation of integrated apparatus Figure；Partition in figure is horizontally set in shell, and the length of processing unit at this time is consistent.

As shown in figs 1-9, the utility model provides a kind of building material industry desulfurization and dedusting minimum discharge integrated apparatus, Including injector 1, shell 2 and processing unit 3, in which: shell 2 is equipped with air inlet 21, exhaust outlet 22, discharge outlet 23 and partition 24, shell 2 is divided into mixed zone 2a and Disengagement zone 2b by partition 24, and air inlet 21 is located at mixed zone 2a, discharge outlet 23 and exhaust Mouth 22 is located at Disengagement zone 2b；Injector 1 includes main-inlet 11, secondary entrance 12 and outlet 13, and primary flow path is extended to from main-inlet 11 Outlet 13, secondary flow path extends to outlet 13 from secondary entrance 12；The outlet 13 of injector 1 is connected with the air inlet 21 of shell 2, stream Body enters in the 2a of mixed zone through air inlet 21；3 one end of processing unit is fixed on partition 24, and the other end is towards Disengagement zone 2b Direction extends, and the fluid in the 2a of mixed zone flows into the 2b of Disengagement zone through processing unit 3, and distinguishes through discharge outlet 23 and exhaust outlet 22 Discharge.

One end that processing unit 3 intersects with partition 24 has opening, and the fluid-mixing in the 2a of mixed zone is flowed into through the opening It is handled and is eventually entered into the 2b of Disengagement zone in processing unit 3.

Gas to be processed is entered in the 2a of mixed zone through primary flow path by the air inlet 21 of shell 2, to gas The liquid such as water or other fluid of reason equally flow into shell 2 under the drive of 21 gas of air inlet through time flow path；Gas and water are spraying The secondary mixing of progress in the 2a of mixed zone is flowed into simultaneously after carrying out first step mixed processing on the inside of the outlet 13 of emitter 1, through locating after It manages after unit 3 is handled and flows into the 2b of Disengagement zone, wherein gas is discharged through exhaust outlet 22, and liquid is discharged through discharge outlet 23, thus real Now the desulfurization and dedusting of gas is handled.

Specifically, the working solution flowed into shell 2 through time entrance 12 is alkaline working solution, solute include NaOH, KOH and Ca(OH)₂Equal substances.

Optionally embodiment, partition 24 are greater than the height and not of discharge outlet 23 close to the height of 21 side of air inlet Higher than partition 24 close to the height of 22 side of exhaust outlet.

Partition 24 is arranged to be lower than close to 21 side height of air inlet close to 22 side height of exhaust outlet, it is ensured that flow into mixed The fluid-mixing for closing area 2a can handle in time through processing unit 3 and flow into the 2b of Disengagement zone, avoid untreated fluid excessive It accumulates in the 2a of mixed zone；The height that height of the partition 24 close to 21 side of air inlet is greater than at discharge outlet 23 is set, can be kept away Exempt from working solution to overflow into the 2a of mixed zone through processing unit 3.

Specifically, partition 24 is horizontally set in shell 2.

Specifically, partition 24 is inclined in shell 2, and the inclined degree of partition 24 is between 10-45 degree.

Specifically, the water being discharged through discharge outlet 23 can be delivered to herein at time entrance 12 through pipeline, flowed through secondary entrance 12 Enter and carries out circular treatment in the shell.

Optionally embodiment, the quantity of processing unit 3 are at least two, all 3 bottom levels of processing unit Unanimously, top is connected with partition 24.

Specifically, the height of discharge outlet 23 is higher than the height of 3 bottom end of processing unit.

Screenshot, discharge outlet 23 can be located on the bottom surface of shell 2.

Optionally embodiment, 3 bottom of processing unit are reticular structure.

Fluid-mixing through processing unit 3 flow into Disengagement zone 2b before can at the reticular structure of 3 bottom of processing unit into One step carries out mixed processing, to enhance the treatment effeciency of the device.

The side wall of optionally embodiment, processing unit 3 is equipped with through-hole.

Specifically, the quantity of the through-hole is multiple.

Optionally embodiment, the Disengagement zone bottom 2b are equipped with opening 25.

The bottom setting opening 25 of 2b in Disengagement zone, user can be by that may accumulate in 25 couples of Disengagement zone 2b of the opening The solid matters such as dust handle and 2 internal structure of shell is overhauled.

Optionally embodiment, is equipped with gauze 26 at air inlet 21, gauze 26 can help to gas and liquid into Row mixing, to improve the treatment effeciency of the device.

Optionally embodiment, main-inlet 11 and 13 directions extending in a straight line of outlet of injector 1 are set gradually, 90 degree of angle is no more than between the straight line that secondary entrance 12 is connected with main-inlet 11 and outlet 13.

Optionally embodiment, the angle of angle are 25-50 degree.

Optionally embodiment, main-inlet 11 and 13 directions extending in a straight line of outlet of injector 1 are set gradually, Secondary entrance 12 is set in 11 outside of main-inlet.

Optionally embodiment, shell 2 and processing unit 3 are made of corrosion resistant metal metal.

When in use, gas to be processed flows into shell 2 through primary flow path, and the working solution at secondary entrance 12 is wait locate Entered in shell 2 by effects of air pressure through time flow path under the action of process gases, and the gauze 26 by being located at 2 air inlet 21 of shell into Row mixed processing, at this time working solution can by gas to be processed dust and sulfurous gas it is soluble in water or with the solute in water To dispel its acidity, which is continued for the 2b of Disengagement zone for reaction；The fluid-mixing of gas and liquid is through handling After unit 3 flow to Disengagement zone 2b, liquid is deposited in the 2b of Disengagement zone, and gas is discharged through exhaust outlet 22, the liquid in the 2b of Disengagement zone After body reaches the height of discharge outlet 23, excessive liquid is discharged through discharge outlet；Being deposited in liquid in the 2b of Disengagement zone can also be into One step is handled through escaping gas on 3 bottom end of processing unit or its side wall.

Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to In this, anyone skilled in the art within the technical scope disclosed by the utility model, can readily occur in variation Or replacement, it should be covered within the scope of the utility model.Therefore, the protection scope of the utility model should be with the power Subject to the protection scope that benefit requires.

Claims (10)

1. a kind of building material industry desulfurization and dedusting minimum discharge integrated apparatus, which is characterized in that including injector, shell and place Manage unit, in which:

The shell be equipped with air inlet, exhaust outlet, discharge outlet and partition, the partition by the shell be divided into mixed zone and Disengagement zone, the air inlet are located at the mixed zone, and the discharge outlet and the exhaust outlet are located at the Disengagement zone；

The injector includes main-inlet, secondary entrance and exit, and primary flow path extends to the outlet, secondary flow path from the main-inlet The outlet is extended to from the secondary entrance；The outlet of the injector is connected with the air inlet of the shell, fluid Enter in the mixed zone through the air inlet；

Described processing unit one end is fixed on the partition, and the other end extends towards the Disengagement zone direction, described mixed The fluid closed in area flows into the Disengagement zone through the processing unit, and arranges respectively through the discharge outlet and the exhaust outlet Out.

2. building material industry according to claim 1 desulfurization and dedusting minimum discharge integrated apparatus, which is characterized in that described Height of the partition close to the air inlet side is greater than the height of the discharge outlet and not higher than the partition close to the exhaust The height of mouth side.

3. building material industry according to claim 1 desulfurization and dedusting minimum discharge integrated apparatus, which is characterized in that described The quantity of processing unit is at least two, and all processing unit bottom levels are consistent, and top is connected with the partition.

4. building material industry according to claim 1 desulfurization and dedusting minimum discharge integrated apparatus, which is characterized in that described Processing unit bottom is reticular structure.

5. building material industry according to claim 1 desulfurization and dedusting minimum discharge integrated apparatus, which is characterized in that described The side wall of processing unit is equipped with through-hole.

6. building material industry according to claim 1 desulfurization and dedusting minimum discharge integrated apparatus, which is characterized in that described Disengagement zone bottom is equipped with opening.

7. building material industry according to claim 1 desulfurization and dedusting minimum discharge integrated apparatus, which is characterized in that described Gauze is equipped at air inlet.

8. the desulfurization and dedusting minimum discharge integrated apparatus of building material industry described in any one of -7 according to claim 1, special Sign is, the main-inlet of the injector is set gradually with the outlet direction extending in a straight line, the secondary entrance with it is described 90 degree of angle is no more than between main-inlet and the straight line for exporting and being connected.

9. building material industry according to claim 8 desulfurization and dedusting minimum discharge integrated apparatus, which is characterized in that described The angle of angle is 25-50 degree.

10. the desulfurization and dedusting minimum discharge integrated apparatus of building material industry described in any one of -7 according to claim 1, special Sign is that the main-inlet of the injector is set gradually with the outlet direction extending in a straight line, and the secondary entrance is set in On the outside of the main-inlet.