CN108499733B - Wet-type electrostatic precipitator equipment - Google Patents

Abstract

The application discloses wet electrostatic dust collection equipment which comprises a shell, a spraying device positioned below the shell and an electrostatic dust collection device positioned above a spraying system, wherein an exhaust gas inlet is formed at the lower end of the side wall of the shell, a water outlet is formed at the lower part of the shell, an exhaust port is formed at the upper end of the electrostatic dust collection device, a horn-shaped connector is arranged between the spraying device and the electrostatic dust collection device, and the inner diameter of the upper end of the horn-shaped connector is larger than the inner diameter of the lower end. Compared with the prior art, the dust collector is arranged on the exhaust gas discharge pipeline, so that the dust collector has the characteristic of good dust collection effect.

Description

Wet-type electrostatic precipitator equipment

Technical Field

The application relates to the field of waste gas treatment, in particular to wet electrostatic dust collection equipment which is arranged on a waste gas discharge pipeline, so that the wet electrostatic dust collection equipment has the characteristic of good dust collection effect.

Background

Since the innovation of China was open, the economy has been developed rapidly, and at the same time, the environmental problem has become a problem that must be seen.

Based on the above-mentioned needs, the present inventors have diligently studied and have made the present application.

Disclosure of Invention

The application mainly aims to provide wet electrostatic dust collection equipment which is arranged on an exhaust gas discharge pipeline, so that the wet electrostatic dust collection equipment has the characteristic of good dust collection effect.

In order to achieve the above object, the solution of the present application is:

the utility model provides a wet-type electrostatic precipitator equipment, wherein, includes shell, is located the spray set of shell below and is located the electrostatic precipitator device of spray system top, shell lateral wall lower extreme still is formed with waste gas import, shell lower part then still is formed with the outlet, the shell still is formed with the gas vent in electrostatic precipitator device's upper end, still be provided with the tubaeform connector between spray set and the electrostatic precipitator device, the internal diameter of tubaeform connector upper end is greater than the internal diameter of lower extreme.

Further, spray set has drum main part, the pump body, main outlet pipe and two at least spray assemblies of arranging along drum main part extending direction interval, and every sprays the subassembly and all has the branch pipe that is linked together with main outlet pipe and connects the shower nozzle at the branch pipe tip, the shower nozzle sets up on the axis of drum main part, the shower nozzle has a plurality of guide sections that are radial downwards, and every sprays the subassembly and still is provided with movable joint, minute valve and adapter, the adapter is linked together with main outlet pipe, the adapter links to each other with the branch pipe through minute valve and movable joint in proper order, still be provided with the main valve on the main outlet pipe.

Further, the electrostatic dust collector is provided with a cathode assembly, an anode assembly, a cathode fixing mechanism for fixing the cathode assembly and an anode fixing mechanism for fixing the anode assembly, wherein the cathode assembly is composed of a plurality of cathode frames which are all cylindrical and are coaxially sleeved, the anode assembly is composed of a plurality of cylindrical conductive sheets which are coaxially sleeved, each cylindrical conductive sheet and one cathode frame form a pair of positive and negative discharge assemblies, and an annular area between each cylindrical conductive sheet and the corresponding cathode frame is an exhaust gas channel.

Further, the cathode assembly also includes a middle tube barbed wire positioned at a central axis of the cathode frame.

Further, each cathode frame is provided with a top ring pipe, a middle ring pipe and a bottom ring pipe, the top ring pipe and the middle ring pipe are fixedly connected through a plurality of vertical connecting pipes, a plurality of first barbed wires which are uniformly distributed are further arranged between the top ring pipe and the middle ring pipe, a plurality of second barbed wires which are uniformly distributed are further arranged between the middle ring pipe and the bottom ring pipe, and the connection parts of the first barbed wires and the middle ring pipe and the connection parts of the second barbed wires and the middle ring pipe are staggered.

Further, the first barbed wire, the top annular tube and the middle annular tube are fixedly connected by adopting removable bolts, and the second barbed wire, the middle annular tube and the bottom annular tube are fixedly connected by adopting removable bolts.

Further, the cathode fixing mechanism is provided with an insulator and a suspender fixedly connected with the insulator at the upper end, and the lower end of the suspender is fixedly connected with the cathode assembly.

Further, the anode fixing mechanism is fixed on the shell and provided with a plurality of annular supporting tables for supporting the anode assemblies, and each annular supporting table is also provided with an annular groove for the anode assemblies to be embedded in.

After the structure is adopted, the application relates to wet electrostatic dust collection equipment which has at least the following beneficial effects:

1. the application uses the spraying device to spray the waste gas from the waste gas discharge pipeline to realize the first dust removal operation, and then uses the electrostatic dust removal device to realize the secondary dust removal of the waste gas, thereby ensuring that the waste gas discharged from the exhaust port has lower pollution and has the effects of energy conservation and environmental protection.

2. According to the application, the horn-shaped connector is arranged between the spraying device and the electrostatic dust collector, so that the concentration degree of waste gas in the spraying device is improved, and the diffusion effect of the horn-shaped connector is utilized, so that the smoke is more uniform, and the electrostatic treatment effect in the next procedure of electrostatic treatment is improved.

3. The application sprays the waste gas, one purpose is to remove large particle dust, and the other purpose is to reduce the temperature so as to facilitate the subsequent improvement of the dust removal effect.

Drawings

Fig. 1 is a schematic structural view of a wet electrostatic precipitator device according to the present application.

Fig. 2 is a top view of the present application.

FIG. 3 is a schematic view of a cathode frame according to a preferred embodiment of the application.

Fig. 4 is a schematic structural view of a preferred embodiment of the spraying device in the present application.

Fig. 5 is a schematic view of another angle of fig. 4.

Fig. 6 is a top view of the cathode frame.

In the figure:

a housing-1; an exhaust gas inlet-11; a water outlet-12;

an exhaust port-13; a horn-shaped connector-14;

a spraying device-2; a cylinder main body-21; a pump body-22;

a main water outlet pipe-23; branch pipe-24; a spray head-25;

a movable joint-26; a split valve-27; an adapter-28;

a main valve-29; an electrostatic dust collection device-3; a cathode assembly-31;

top collar-311; middle collar-312; a bottom collar-313;

a vertical connection pipe-314; a first barbed wire-315; a second barbed wire-316;

an anode assembly-32; a cathode fixing mechanism-33; an insulator-331;

boom-332; an anode fixing mechanism-34; an annular support table-341;

annular recess-342; middle pipe barbed wire-35.

Detailed Description

In order to further explain the technical scheme of the application, the application is explained in detail by specific examples.

As shown in fig. 1 to 5, the wet electrostatic dust collection device according to the present application includes a housing 1, a spray device 2 below the housing 1, and an electrostatic dust collection device 3 above a spray system.

The lower end of the side wall of the shell 1 is also provided with an exhaust gas inlet 11, the lower part of the shell 1 is also provided with a water outlet 12, the upper end of the shell 1 of the electrostatic dust collector 3 is also provided with an exhaust port 13, a horn-shaped connector 14 is further arranged between the spraying device 2 and the electrostatic dust collector 3, and the inner diameter of the upper end of the horn-shaped connector 14 is larger than the inner diameter of the lower end.

In this way, the application uses the spraying device 2 to spray the waste gas from the waste gas discharge pipeline to realize the first dust removal operation, and then uses the electrostatic dust removal device 3 to realize the secondary dust removal of the waste gas, thereby ensuring that the waste gas discharged from the exhaust port 13 has lower pollution and has the effects of energy conservation and environmental protection. In addition, the horn-shaped connector 14 is arranged between the spraying device 2 and the electrostatic dust collector 3, so that the concentration degree of waste gas in the spraying device 2 is improved, and the diffusion effect of the horn-shaped connector 14 is utilized, so that the smoke is more uniform, and the electrostatic treatment effect in the next procedure of electrostatic treatment is improved.

As shown in fig. 4 and 5, as a specific embodiment of the spray device 2, the spray device 2 has a cylinder body 21, a pump body 22, a main water outlet pipe 23, and at least two spray assemblies arranged at intervals along the extending direction of the cylinder body 21.

Each spray assembly is provided with a branch pipe 24 communicated with the main water outlet pipe 23 and a spray head 25 connected to the end part of the branch pipe 24, the spray head 25 is arranged on the central axis of the cylinder main body 21, the spray head 25 is provided with a plurality of guiding sections which are radial downwards, each spray assembly is further provided with a movable joint 26, a branch valve 27 and an adapter 28, the adapter 28 is communicated with the main water outlet pipe 23, the adapter 28 is connected with the branch pipe 24 sequentially through the branch valve 27 and the movable joint 26, and the main water outlet pipe 23 is further provided with a main valve 29.

So, utilize two spray assemblies can form three-dimensional spray network to let waste gas can more fully realize the ash removal processing, simultaneously through letting shower nozzle 25 be provided with a plurality of guide sections, can let spun drop of water more diverge, movable joint 26 then has the orientation controllability that is convenient for install in order to ensure shower nozzle 25 stronger.

As shown in fig. 1 to 3, as a specific embodiment of the electrostatic precipitator 3, the electrostatic precipitator 3 has a cathode assembly 31, an anode assembly 32, and a cathode fixing mechanism 33 for fixing the cathode assembly 31 and an anode fixing mechanism 34 for fixing the anode assembly 32.

The cathode assembly 31 is composed of a plurality of cathode frames which are all cylindrical and coaxially sleeved, the anode assembly 32 is composed of a plurality of cylindrical conductive plates which are coaxially sleeved, each cylindrical conductive plate and one cathode frame form a pair of positive and negative discharge assemblies, and an annular area between each cylindrical conductive plate and the corresponding cathode frame is an exhaust gas channel.

Therefore, the application creatively provides the cylindrical electrostatic dust collection mechanism, and the cylindrical structure is utilized, so that the formed electrostatic net is more uniform, the waste gas from the three-dimensional electrostatic net to the grid leakage is minimized, and the stability of the dust collection effect of the whole dust collection equipment is ensured.

As shown in fig. 6, the cathode assembly 31 further includes a middle pipe barbed line 35 at the center axis of the cathode frame, so that the entire discharge can be more uniform and reliable.

As shown in fig. 3, each cathode frame further has a top collar 311, a middle collar 312, and a bottom collar 313, wherein the top collar 311 and the middle collar 312 are fixedly connected with each other through a plurality of vertical connecting pipes 314, a plurality of first barbed wires 315 uniformly distributed are further disposed between the top collar 311 and the middle collar 312, a plurality of second barbed wires 316 uniformly distributed are further disposed between the middle collar 312 and the bottom collar 313, and the connection between the first barbed wires 315 and the middle collar 312 and the connection between the second barbed wires 316 and the middle collar 312 are staggered with each other.

The framework of the whole cathode frame is formed by utilizing the top annular pipe 311, the middle annular pipe 312, the bottom annular pipe 313 and a plurality of vertical connecting pipes 314, the stability of the whole cathode frame structure is ensured, the whole cathode frame is in a cylindrical shape, the middle part of the cylindrical shape is provided for the exhaust gas to pass through, and the first barbed wire 315 and the second barbed wire 316 which are uniformly distributed are utilized, so that the characteristics of uniform discharge are all provided, and the passing exhaust gas can be further ensured to be subjected to dust removal treatment.

Furthermore, the application divides the barbed wire into the first barbed wire 315 and the second barbed wire 316, and the connection parts of the first barbed wire 315 and the second barbed wire 316 and the middle ring pipe 312 are staggered, so that the lengths of the first barbed wire 315 and the second barbed wire 316 are in a controllable range, the shapes of the first barbed wire 315 and the second barbed wire 316 become controllable, the problem of uneven discharge caused by the swinging of the barbed wires is avoided, and the dust removing effect of the whole electrostatic dust removing equipment is ensured.

Specifically, the first barbed wire 315 and the top collar 311 are fixedly connected with the middle collar 312 by removable bolts, and the second barbed wire 316 and the middle collar 312 are fixedly connected with the bottom collar 313 by removable bolts.

As shown in fig. 1, the cathode fixing mechanism 33 has an insulator 331 and a hanger rod 332 fixedly connected to the insulator 331 at an upper end thereof, and the lower end of the hanger rod 332 is fixedly connected to the cathode assembly 31. The anode fixing mechanism 34 is fixed on the casing 1 and has a plurality of annular supporting tables 341 for supporting the anode assembly 32, and each annular supporting table 341 is further formed with an annular groove 342 for the anode assembly 32 to be embedded therein. Therefore, the application separately fixes the anode component 32 and the cathode component 31, namely, the cathode component 31 is lifted by adopting an upward hanging mode, and the anode component 32 is supported by adopting a downward supporting mode, so that the anode component 32 and the cathode component 31 are very stable in structure, and the stability of the dedusting effect of the whole dedusting equipment is ensured. In addition, the insulator 331 is adopted to realize insulation with the equipment shell 1, so that the insulation between the anode component 32 and the cathode component 31 is ensured; then, the hanger rod 332 is adopted to fix the cathode assembly 31, and the annular supporting table 341 is arranged to prevent the anode assembly 32 from swinging, so that the cathode assembly 31 and the anode assembly 32 can have mutually nested structures, and the actual landing of the high-efficiency dust removal performance is ensured.

The above examples and drawings are not intended to limit the form or form of the present application, and any suitable variations or modifications thereof by those skilled in the art should be construed as not departing from the scope of the present application.

Claims (5)

1. The wet electrostatic dust collection equipment is characterized by comprising a shell, a spraying device positioned below the shell and an electrostatic dust collection device positioned above a spraying system, wherein an exhaust gas inlet is formed at the lower end of the side wall of the shell, a water outlet is formed at the lower part of the shell, an exhaust port is formed at the upper end of the electrostatic dust collection device, a horn-shaped connector is further arranged between the spraying device and the electrostatic dust collection device, and the inner diameter of the upper end of the horn-shaped connector is larger than that of the lower end;

the electrostatic dust collector comprises a cathode assembly, an anode assembly, a cathode fixing mechanism for fixing the cathode assembly and an anode fixing mechanism for fixing the anode assembly, wherein the cathode assembly is composed of a plurality of cathode frames which are all cylindrical and are coaxially sleeved, the anode assembly is composed of a plurality of cylindrical conductive sheets which are coaxially sleeved, each cylindrical conductive sheet and one cathode frame form a pair of positive and negative discharge assemblies, and an annular area between each cylindrical conductive sheet and the corresponding cathode frame is an exhaust gas channel;

the cathode assembly further comprises a middle pipe barbed wire positioned at the central axis of the cathode frame;

each cathode frame is provided with a top ring pipe, a middle ring pipe and a bottom ring pipe, the top ring pipe and the middle ring pipe are fixedly connected through a plurality of vertical connecting pipes, a plurality of first barbed wires which are uniformly distributed are further arranged between the top ring pipe and the middle ring pipe, a plurality of second barbed wires which are uniformly distributed are further arranged between the middle ring pipe and the bottom ring pipe, and the connection parts of the first barbed wires and the middle ring pipe and the connection parts of the second barbed wires and the middle ring pipe are staggered.

2. The wet electrostatic precipitator device according to claim 1, wherein the spraying device comprises a cylindrical body, a pump body, a main water outlet pipe and at least two spraying components which are arranged at intervals along the extending direction of the cylindrical body, each spraying component comprises a branch pipe communicated with the main water outlet pipe and a spray head connected to the end of the branch pipe, the spray head is arranged on the central axis of the cylindrical body, the spray head is provided with a plurality of guiding sections which are radial downwards, each spraying component is further provided with a movable joint, a branch valve and an adapter, the adapter is communicated with the main water outlet pipe, the adapter is connected with the branch pipe through the branch valve and the movable joint in sequence, and the main water outlet pipe is further provided with the main valve.

3. The wet electrostatic precipitator of claim 2, wherein said first barbed wire and said top collar are fixedly connected to said middle collar by removable bolts, and said second barbed wire and said middle collar are fixedly connected to said bottom collar by removable bolts.

4. A wet electrostatic precipitator apparatus according to claim 1, wherein said cathode fixing means comprises an insulator and a hanger rod fixedly connected to the insulator at an upper end thereof, and wherein a lower end of said hanger rod is fixedly connected to the cathode assembly.

5. A wet electrostatic precipitator apparatus according to claim 1, wherein the anode fixing means is fixed to the casing and has a plurality of annular support tables for supporting the anode assembly, each annular support table further having an annular recess formed therein for the anode assembly to be embedded therein.