CN104138804A - Demountable nonmetallic FRP electrostatic dust collection device suitable for automatic production - Google Patents

Abstract

The invention discloses a demountable nonmetallic FRP electrostatic dust collection device suitable for automatic production. The electrostatic dust collection device is low in cost, light in weight, convenient to assemble, firm, durable, good in dust collection effect, anticorrosive and high-temperature-resistant and can prevent cathode oscillation under high smoke speed. An anode supporting beam and a cathode supporting beam are fixedly arranged in a box; a cathode top supporting pipe and a cathode bottom positioning pipe are arranged on the cathode supporting beam; multiple honeycomb cylinders are arranged on the anode supporting beam and comprise multiple plate members, connecting strips and coamings; a hexagonal-prism-shaped dust collection unit is formed on each honeycomb; cathodes are arranged in cathode sleeve holes in the top supporting pipe and the cathode bottom positioning pipe; cathode carbon fiber layers are arranged on the surface of the cathode top supporting pipe; the connecting strips are connected with the anode supporting beam through FRP angle steel; carbon fiber layers are arranged on the surfaces of the plate members and the connecting strips and the outer side face of the angle steel; an anode carbon fiber layer is arranged at a position, which corresponds to the angle steel, of the anode supporting beam; an anode carbon fiber board is transversely arranged on one side of the anode supporting beam; a cathode carbon fiber board is transversely arranged on the cathode top supporting pipe.

Description

Be suitable for the nonmetal FRP electrostatic dust absorption device of reassembling type of automated production

Technical field

The present invention relates to a kind of nonmetal FRP electrostatic dust absorption device of reassembling type that is suitable for automated production.

Background technology

Existing power plant is to consist of metal cabinet, anode-supported beam, negative electrode joist, a plurality of honeycomb cylinders of being arranged on anode-supported beam with electrostatic dust absorption device, described spiral shell nest cylinder is by bonding the forming of a plurality of conduction cylindrical shells, and each conduction cylindrical shell is to consist of FRP cylindrical shell and the fine top layer of the carbon that is wrapped in FRP cylinder inboard wall.Conduction cylindrical shell, as anode, enters negative electrode in conduction cylindrical shell interpolation during installation, after energising, the flue gas entering in electrostatic precipitator is carried out to electrostatic precipitation.The problem that the electrostatic precipitator of this structure exists is: processing technology is complicated, and processing cost is high, and volume is large, takes up room large, inconvenience is installed, intensity difference; Adopt metal structure, Heavy Weight, the basic cost of casing is high, although preservative treatment has been done at beams of metal place, easily comes off, and causes quality accident.Owing to being double-deck wall thickness (16mm) between adjacent two conduction cylindrical shells, wasted dust suction space, pick-up performance is undesirable.In addition, when existing electrostatic precipitator is used, negative electrode directly inserts in conduction cylindrical shell, negative electrode be heated or cooling after under high cigarette speed, easily swing, cause anode and cathode short circuit.

Summary of the invention

The technical problem to be solved in the present invention is that a kind of processing technology of raising is simple, and cost is low, lightweight, can assemble at the scene, greatly reduce cost of transportation, easy to assembly, intensity is high, sturdy and durable, between anode and cathode, evenly, pick-up performance is good, corrosion-resistant high-temperature for conduction, can target play fixation, prevent under high cigarette speed that negative electrode swings the nonmetal FRP electrostatic dust absorption device of the reassembling type that is suitable for automated production.

Technical solution of the present invention is:

A kind of nonmetal FRP electrostatic dust absorption device of reassembling type that is suitable for automated production, comprise the Elements of Space Grid Truss by FRP, sealing is arranged on the casing that the FRP boxboard on FRP Elements of Space Grid Truss forms, in casing, both sides are installed with multipair FRP vertical beam and FRP crossbeam, between every pair of vertical beam by to FRP negative electrode joist is once installed, FRP anode-supported beam, horizontal a plurality of FRP cathode top stay pipes on FRP negative electrode joist, between the relative crossbeam of two levels, a plurality of FRP cathode bottom positioning pipes are set, on cathode top stay pipe and cathode bottom positioning pipe, be provided with upper and lower negative electrode trepanning facing each other, cathode top stay pipe upper surface is provided with the fine layer of negative electrode carbon of pultrusion, on every two adjacent anode-supported beams, be provided with the honeycomb cylindrical shell that a plurality of outlines are rectangle, described honeycomb cylindrical shell comprises a plurality of tabular components, middle connection strap, avris connection strap and corner connection strap, each honeycomb forms six prismatic dust suction unit, in the negative electrode trepanning of upper and lower corresponding, negative electrode is installed, described negative electrode is positioned at the center of each dust suction unit, and described cathode top is electrically connected to the fine layer of the negative electrode carbon that is arranged on cathode top stay pipe upper surface, in the middle of described, connection strap surface is provided with three along the circumferential direction uniform slot I, the tabular component edge that is positioned at honeycomb cylindrical shell inner side inserts the slot I of corresponding middle connection strap and passes through high strength plastics screw fastening, it is that the slot II of 120 °, the lateral surface of avris connection strap are plane that described avris connection strap inner side is provided with two angles, the tabular component that is positioned at honeycomb cylindrical shell outside inserts the slot II of corresponding avris connection strap and passes through high strength plastics screw fastening, and each connecting portion scribbles conducting resinl, at the avris connection strap and the corner connection strap lateral surface that are positioned at honeycomb cylindrical shell outside, by high strength plastics screw, FRP coaming plate is installed, described corner connection strap is positioned at the intersection of two adjacent coaming plates, the lateral surface that the inner side of described corner connection strap is provided with 60 ° of slot III, corner connection strap is right angle face, the tabular component of corresponding coaming plate intersection inserts in the slot III of corner connection strap and is connected with corner connection strap by high strength plastics screw, junction is coated with conducting resinl, and beyond the corresponding six prismatic dust suction unit of port of honeycomb cylindrical shell, part arranges FRP shrouding, be positioned at the avris connection strap in honeycomb cylindrical shell outside outside exposed with connection strap lateral surface lower end, corner and be connected with FRP angle steel by high strength plastics screw, described FRP angle steel another side is connected with anode-supported beam by high strength plastics screw, described tabular component surface, middle connection strap surface, avris connection strap surface, the lateral surface of connection strap surface, corner and angle steel is provided with the fine layer of carbon of pultrusion, on anode-supported beam, corresponding FRP angle iron position is provided with the fine layer of anode carbon, by the fine layer of anode carbon, realize the electrical connection that is positioned at each honeycomb cylindrical shell as anode on the fine layer of this anode carbon, at the horizontal fine plate of anode carbon having on the fine layer of the anode carbon of being crimped on of anode-supported beam one side, horizontal and be installed with and negative electrode carbon fibre plate that the fine layer of negative electrode carbon is electrically connected on described cathode top stay pipe, realize the electrical connection of each negative electrode.

The fine layer of described negative electrode carbon is divided into many groups along cathode top stay pipe length direction, between each group, insulate, every group of one group of honeycomb cylindrical shell that correspondence is put along anode-supported beam length direction, the fine plate of described negative electrode carbon is a plurality of and the fine plate of each carbon is crimped on respectively on the fine layer of one group of corresponding negative electrode carbon; The fine plate of described negative electrode carbon is divided into many groups, is crimped with a fine plate of carbon in parallel on every group of fine plate of negative electrode carbon; The fine plate of described anode carbon is a plurality of, and each is corresponding with the fine plate of carbon in parallel, by the fine plate of anode carbon, the fine plate of negative electrode carbon and the fine plate of carbon in parallel, honeycomb cylindrical shell is connected into a plurality of unit group and leads to the power line outside casing.

Described cathode bottom is provided with counterweight and by high strength plastics fastening nuts, described counterweight is that the balance weight body of managing and being poured in FRP pipe by FRP forms.

Described Elements of Space Grid Truss is by being fixed together and orthogonal FRP angle steel and FRP I-steel form.

Described FRP boxboard is corrugated plating, and the joint of two adjacent corrugated platings overlaps together and realized and being tightly connected by bolt, nut and seal gasket.By corrugated plating, improve wind load capacity in casing, can reach 5000-6000Pa.

On FRP boxboard, corresponding vertical beam installation site is provided with vertical beam socket, and described vertical beam outside is inserted in vertical beam socket.

Corresponding negative electrode joist, anode-supported beam installation site and be respectively equipped with socket in the installation site of the corresponding cathode bottom positioning pipe of crossbeam in vertical beam, described negative electrode joist, anode-supported beam and cathode bottom positioning pipe portion are inserted into respectively in corresponding socket.

Described cathode top is electrically connected to the fine layer of negative electrode carbon of cathode top stay pipe upper surface by conductive gasket.

The invention has the beneficial effects as follows:

1, all parts are FRP, high-temperature resistant anti-corrosive, and integral body is nonmetal structure, and without adopting corrosion-resistant metalwork, processing technology is simple, and cost is low, lightweight, easily assembled, and whole device can be assembled at the scene, and assembly precision is high, greatly reduces cost of transportation, easy to assembly; Tabular component thin thickness, both sides conduction, make full use of honeycomb cylinder intracorporeal space, because cost is low, can increase dust suction cross section, improves pick-up performance, reduced cigarette speed and case temperature, and after this device is processed, in every cubic metre of flue gas, dustiness drops to 5 mg-2mg.

2, described tabular component, middle connection strap, avris connection strap, the surface of corner connection strap and the lateral surface of angle steel are provided with the fine layer of carbon of pultrusion, by static pressure pultrusion technique, make carbon fibre, glass mixed-forming, intensity is high, and workpiece is whole, firm, none metalwork in whole casing, the casing of establishing electric wire and metalwork in ratio is more suitable for the high corrosive environment of high temperature, durable in use, reaches 50-100 service life, corrosion-resistant high-temperature, reduces costs greatly.

3, by the negative electrode trepanning energy target on cathode bottom positioning pipe, play positioning action, prevent that under high cigarette speed, negative electrode swings.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Fig. 2 is the A-A cutaway view of Fig. 1;

Fig. 3 is the B-B cutaway view of Fig. 1;

Fig. 4 is the C portion enlarged drawing of Fig. 3;

Fig. 5 is the D-D cutaway view of Fig. 4;

Fig. 6 is the E portion enlarged drawing of Fig. 3;

Fig. 7 is the F-F cutaway view of Fig. 2;

Fig. 8 is the structural representation of cellular cylindrical shell in Fig. 1;

Fig. 9 is the upward view of Fig. 8;

Figure 10 is the structural representation of dust suction unit in Fig. 8;

Figure 11 is the G portion enlarged drawing of Fig. 8;

Figure 12 is the H portion enlarged drawing of Fig. 8;

Figure 13 is the I portion enlarged drawing of Fig. 8.

In figure: 1-tabular component, connection strap in the middle of 2-, 201-slot I, 3-avris connection strap, 301-slot II, 4-corner connection strap, 401-slot III, 5-dust suction unit, 6-high strength plastics screw, 7-conducting resinl, 8-coaming plate, the fine layer of 9-carbon, 10-FRP shrouding, 11-anode-supported beam, 12-cathode bottom positioning pipe, 13-negative electrode joist, 14-FRP angle steel, 15-water spout, 16-chimney, 17-negative electrode trepanning, 18-vertical beam, 19-crossbeam, 20-cathode top stay pipe, 21-negative electrode, 22-counterweight, 2201-FRP pipe, 2202-balance weight body, 23-FRP Elements of Space Grid Truss, 2301-FRP angle steel, 2302-FRP I-steel, 24-seal gasket, 25-FRP boxboard, the fine layer of 26-negative electrode carbon, the fine layer of 27-anode carbon, the fine plate of 28-negative electrode carbon, the fine plate of 29-carbon in parallel, the fine plate of 30-anode carbon, 31-honeycomb cylindrical shell, 32-enters mouth, 33-power line.

The specific embodiment

As Figure 1-Figure 5, the nonmetal FRP electrostatic dust absorption device of the reassembling type that is suitable for automated production the present invention relates to, comprise by FRP Elements of Space Grid Truss 23, sealing is arranged on the casing that the FRP boxboard 25 on FRP Elements of Space Grid Truss 23 forms, at casing inner top, be provided with water spout 15 and chimney 16, at lower box, be provided with into mouth 32, in casing, both sides are installed with multipair FRP vertical beam 18, in casing, both sides arrange FRP crossbeam 19 between FRP vertical beam 18, between every pair of vertical beam 18 by to FRP negative electrode joist 13 is once installed, FRP anode-supported beam 11, on negative electrode joist 131, pass through FRP angle steel and the horizontal a plurality of FRP cathode top stay pipes 20 of high strength plastics screw, between the relative crossbeam 19 of two levels, a plurality of FRP cathode bottom positioning pipes 12 are set, on cathode top stay pipe 20 and cathode bottom positioning pipe 12, be provided with upper and lower negative electrode trepanning 17 facing each other, cathode top stay pipe 20 upper surfaces are provided with the fine layer 26 of negative electrode carbon of pultrusion, on two adjacent anode-supported beams 11, be provided with the honeycomb cylindrical shell 31 that a plurality of outlines are rectangle.

As shown in Fig. 8-Figure 13, described honeycomb cylindrical shell 31 comprises a plurality of FRP tabular components 1, the middle connection strap 2 of FRP, FRP avris connection strap 3 and FRP corner connection strap 4, each honeycomb forms six prismatic dust suction unit 5, the interior installation negative electrode 21 of negative electrode trepanning 17 in upper and lower corresponding, described negative electrode 21 is positioned at the center of each dust suction unit 5, and described negative electrode 21 is electrically connected to the fine layer 26 of the negative electrode carbon that is arranged on cathode top stay pipe 10 upper surfaces, in the middle of described, connection strap 2 surfaces are provided with three along the circumferential direction uniform slot I 201, tabular component 1 edge that is positioned at honeycomb cylindrical shell 31 inner sides inserts the slot I 201 of corresponding middle connection strap 2 and passes through high strength plastics screw 6 fastening, it is that the slot II 301 of 120 °, the lateral surface of avris connection strap 3 are plane that described avris connection strap 3 inner sides are provided with two angles, the tabular component 1 that is positioned at honeycomb cylindrical shell 31 outsides inserts the slot II 301 of corresponding avris connection strap 3 and passes through high strength plastics screw 6 fastening, and each connecting portion scribbles conducting resinl 7, the inner side of described corner connection strap 4 is provided with 60 ° of slot III 401, the lateral surface of corner connection strap 4 is right angle face, avris connection strap 3 and corner connection strap 4 lateral surfaces in honeycomb cylindrical shell 31 outsides are installed FRP coaming plate 8 by high strength plastics screw 6, intersection at corresponding two adjacent coaming plates 8 is provided with corner connection strap 4, the interior high strength plastics screw 6 that also passes through of slot III 401 that the tabular component 1 of corresponding coaming plate 8 intersections inserts corner connection strap 4 is connected with corner connection strap 4, the junction of tabular component 1 and corner connection strap 4 is coated with conducting resinl, beyond the corresponding dust suction of the port unit 5 of honeycomb cylindrical shell 31, part is bonded with FRP shrouding 10, the avris connection strap 3 that is positioned at honeycomb cylindrical shell 31 outsides is also connected with FRP angle steel 14 by high strength plastics screw 6 outside with connection strap 4 lower end lateral surfaces in corner are exposed, described FRP angle steel 14 another sides are connected with anode-supported beam 11 by high strength plastics screw, described tabular component 1 surface, middle connection strap 2 surfaces, avris connection strap 3 surfaces, corner connection strap 4 surfaces, the lateral surface of FRP angle steel 14 is provided with the fine layer 9 of carbon of pultrusion, on anode-supported beam 11, corresponding FRP angle steel 14 positions are provided with the fine layer 27 of anode carbon, by the fine layer 27 of anode carbon realize be positioned on the fine layer 27 of this anode carbon the electrical connection of each honeycomb cylindrical shell 31.The fine layer 26 of described negative electrode carbon is divided into many groups along cathode top stay pipe 20 length directions, between each group, insulate, and every group of one group of honeycomb cylindrical shell that correspondence is put along anode-supported beam 11 length directions is crimped with the fine plate 28 of negative electrode carbon on the fine layer of one group of negative electrode carbon of correspondence; The fine plate 28 of described negative electrode carbon is divided into many groups, is crimped with a fine plate 29 of carbon in parallel on every group of fine plate 28 of negative electrode carbon; In anode-supported beam 11 1 sides, be also provided with the anode carbon fine plate 30 corresponding with the fine plate 29 of carbon in parallel, the fine plate 30 of described anode carbon is electrically connected to the fine layer 27 of the anode carbon on corresponding anode-supported beam, by the fine plate 30 of anode carbon, the fine plate 28 of negative electrode carbon and the fine plate 29 of carbon in parallel, honeycomb cylindrical shell 31 is connected into a plurality of unit group.The fine plate 30 of described anode carbon, the fine plate 29 of carbon in parallel are connected with the power line 33 outside casing by electrical connector.

As shown in Figure 6, described FRP Elements of Space Grid Truss 23 is by being fixed together and orthogonal FRP angle steel 2301 and FRP I-steel 2302 form, described FRP boxboard 25 is corrugated plating, and the joint of two blocks of adjacent FRP boxboards 25 overlaps together and realized and being tightly connected by bolt and nut, seal gasket 24.Adopt corrugated plating to improve the wind load capacity of casing.

On FRP boxboard 25, corresponding vertical beam 18 installation sites are provided with vertical beam socket, and described vertical beam 18 ends are inserted in vertical beam socket and by high strength plastics screw and are connected with FRP boxboard 25.

In vertical beam 18 corresponding negative electrode joist 13, anode-supported beam 1 installation site and on crossbeam 19 installation site of corresponding cathode bottom positioning pipe 12 be respectively equipped with socket, described negative electrode joist 13, anode-supported beam 11 and cathode bottom positioning pipe 12 ends are inserted into respectively in corresponding socket.

As shown in Figure 7, described negative electrode 21 bottoms are provided with counterweight 22, and described counterweight 22 is to consist of FRP pipe 2201 and the balance weight body 2202 being poured in FRP pipe 2201, and balance weight body 2202 is cement or sandstone.

Described high strength plastics screw can adopt nylon screw.

Claims (8)

1. the nonmetal FRP electrostatic dust absorption device of reassembling type that is suitable for automated production, it is characterized in that: comprise the Elements of Space Grid Truss by FRP, sealing is arranged on the casing that the FRP boxboard on FRP Elements of Space Grid Truss forms, in casing, both sides are installed with multipair FRP vertical beam and FRP crossbeam, between every pair of vertical beam by to FRP negative electrode joist is once installed, FRP anode-supported beam, horizontal a plurality of FRP cathode top stay pipes on FRP negative electrode joist, between the relative crossbeam of two levels, a plurality of FRP cathode bottom positioning pipes are set, on cathode top stay pipe and cathode bottom positioning pipe, be provided with upper and lower negative electrode trepanning facing each other, cathode top stay pipe upper surface is provided with the fine layer of negative electrode carbon of pultrusion, on every two adjacent anode-supported beams, be provided with the honeycomb cylindrical shell that a plurality of outlines are rectangle, described honeycomb cylindrical shell comprises a plurality of tabular components, middle connection strap, avris connection strap and corner connection strap, each honeycomb forms six prismatic dust suction unit, in the negative electrode trepanning of upper and lower corresponding, negative electrode is installed, described negative electrode is positioned at the center of each dust suction unit, and described cathode top is electrically connected to the fine layer of the negative electrode carbon that is arranged on cathode top stay pipe upper surface, in the middle of described, connection strap surface is provided with three along the circumferential direction uniform slot I, the tabular component edge that is positioned at honeycomb cylindrical shell inner side inserts the slot I of corresponding middle connection strap and passes through high strength plastics screw fastening, it is that the slot II of 120 °, the lateral surface of avris connection strap are plane that described avris connection strap inner side is provided with two angles, the tabular component that is positioned at honeycomb cylindrical shell outside inserts the slot II of corresponding avris connection strap and passes through high strength plastics screw fastening, and each connecting portion scribbles conducting resinl, at the avris connection strap and the corner connection strap lateral surface that are positioned at honeycomb cylindrical shell outside, by high strength plastics screw, FRP coaming plate is installed, described corner connection strap is positioned at the intersection of two adjacent coaming plates, the lateral surface that the inner side of described corner connection strap is provided with 60 ° of slot III, corner connection strap is right angle face, the tabular component of corresponding coaming plate intersection inserts in the slot III of corner connection strap and is connected with corner connection strap by high strength plastics screw, junction is coated with conducting resinl, and beyond the corresponding six prismatic dust suction unit of port of honeycomb cylindrical shell, part arranges FRP shrouding, be positioned at the avris connection strap in honeycomb cylindrical shell outside outside exposed with connection strap lateral surface lower end, corner and be connected with FRP angle steel by high strength plastics screw, described FRP angle steel another side is connected with anode-supported beam by high strength plastics screw, described tabular component surface, middle connection strap surface, avris connection strap surface, the lateral surface of connection strap surface, corner and angle steel is provided with the fine layer of carbon of pultrusion, on anode-supported beam, corresponding FRP angle iron position is provided with the fine layer of anode carbon, by the fine layer of anode carbon, realize the electrical connection that is positioned at each honeycomb cylindrical shell as anode on the fine layer of this anode carbon, at the horizontal fine plate of anode carbon having on the fine layer of the anode carbon of being crimped on of anode-supported beam one side, horizontal and be installed with and negative electrode carbon fibre plate that the fine layer of negative electrode carbon is electrically connected on described cathode top stay pipe, realize the electrical connection of each negative electrode.

2. the nonmetal FRP electrostatic dust absorption device of reassembling type that is suitable for automated production according to claim 1, it is characterized in that: the fine layer of described negative electrode carbon is divided into many groups along cathode top stay pipe length direction, between each group, insulate, every group of one group of honeycomb cylindrical shell that correspondence is put along anode-supported beam length direction, the fine plate of described negative electrode carbon is a plurality of and the fine plate of each carbon is crimped on respectively on the fine layer of one group of corresponding negative electrode carbon; The fine plate of described negative electrode carbon is divided into many groups, is crimped with a fine plate of carbon in parallel on every group of fine plate of negative electrode carbon; The fine plate of described anode carbon is a plurality of, and each is corresponding with the fine plate of carbon in parallel, by the fine plate of anode carbon, the fine plate of negative electrode carbon and the fine plate of carbon in parallel, honeycomb cylindrical shell is connected into a plurality of unit group and leads to the power line outside casing.

3. the nonmetal FRP electrostatic dust absorption device of reassembling type that is suitable for automated production according to claim 1, it is characterized in that: described cathode bottom is provided with counterweight and by high strength plastics fastening nuts, described counterweight is that the balance weight body of managing and being poured in FRP pipe by FRP forms.

4. the nonmetal FRP electrostatic dust absorption device of reassembling type that is suitable for automated production according to claim 1, is characterized in that: described Elements of Space Grid Truss is by being fixed together and orthogonal FRP angle steel and FRP I-steel form.

5. the nonmetal FRP electrostatic dust absorption device of reassembling type that is suitable for automated production according to claim 1, it is characterized in that: described FRP boxboard is corrugated plating, the joint of two adjacent corrugated platings overlaps together and is realized and being tightly connected by bolt, nut and seal gasket.

6. the nonmetal FRP electrostatic dust absorption device of reassembling type that is suitable for automated production according to claim 1, is characterized in that: on FRP boxboard, corresponding vertical beam installation site is provided with vertical beam socket, and described vertical beam outside is inserted in vertical beam socket.

7. the nonmetal FRP electrostatic dust absorption device of reassembling type that is suitable for automated production according to claim 1, it is characterized in that: corresponding negative electrode joist, anode-supported beam installation site and be respectively equipped with socket in the installation site of the corresponding cathode bottom positioning pipe of crossbeam in vertical beam, described negative electrode joist, anode-supported beam and cathode bottom positioning pipe portion are inserted into respectively in corresponding socket.

8. the nonmetal FRP electrostatic dust absorption device of reassembling type that is suitable for automated production according to claim 1, is characterized in that: described cathode top is electrically connected to the fine layer of negative electrode carbon of cathode top stay pipe upper surface by conductive gasket.