CN112984772A

CN112984772A - Energy-saving and emission-reducing miniature boiler

Info

Publication number: CN112984772A
Application number: CN201911298185.8A
Authority: CN
Inventors: 孙杰; 成青衡; 杨锋; 蒙金妮; 王浩宇; 刘小娴
Original assignee: Zhuhai Liuhe Energy Saving Investment Co ltd
Current assignee: Zhuhai Liuhe Energy Saving Investment Co ltd
Priority date: 2019-12-17
Filing date: 2019-12-17
Publication date: 2021-06-18

Abstract

The invention relates to the technical field of boiler equipment, in particular to an energy-saving emission-reducing mini-type boiler, which solves the defect of poor energy-saving emission-reducing effect in the prior art, and comprises a boiler body, wherein an ash collecting chamber, a combustion chamber and a smoke discharging cavity are sequentially arranged in the boiler body, an ash collecting box is slidably arranged in the ash collecting chamber, a water tank is fixed in the boiler body through nuts and bolts, the lower part of the water tank is in a sphere-like shape, a boiler operator is arranged between the ash collecting chamber and the combustion chamber, through the arrangement of structures such as a reaction chamber, a filter screen plate, PE filler and the like, when smoke of the equipment is discharged, various impurities, dust and carbon dioxide are absorbed through the filter screen plate and the PE filler, then the smoke enters the reaction chamber to fully react with hydrogen sulfide reactant, then is discharged together with water flow, and when the smoke is discharged, a particle collecting screen box recycles sulfur-containing, reduce the discharge of pollutants and meet the requirements of environmental protection.

Description

Energy-saving and emission-reducing miniature boiler

Technical Field

The invention relates to the technical field of boiler equipment, in particular to an energy-saving and emission-reducing miniature boiler.

Background

Miniature boiler is an energy conversion equipment, at present, ordinary boiler burner power consumption is high, the combustion rate is low, after ordinary boiler direct heating, the temperature in the flue gas is very high, contain in the flue gas if sulfur dioxide, carbon dioxide etc. have and contain the material, if directly discharge the flue gas, pollution to the environment is very big, and the area of contact of water tank when heating is little moreover, thermal conversion rate is lower, the energy that consumes is many, the burning ashes also can not timely discharge, the energy saving and emission reduction effect of boiler is not good.

Disclosure of Invention

The invention aims to solve the defect of poor energy-saving and emission-reducing effects in the prior art, and provides an energy-saving and emission-reducing micro boiler.

In order to achieve the purpose, the invention adopts the following technical scheme:

an ash collection chamber, a combustion chamber and a smoke exhaust cavity are sequentially arranged in the furnace body, an ash collection box is slidably mounted in the ash collection chamber, a water tank is fixed in the furnace body through nuts and bolts, the lower portion of the water tank is in a sphere-like shape, a furnace operator is arranged between the ash collection chamber and the combustion chamber, a particle purification net rack is arranged between the combustion chamber and the smoke exhaust cavity, and a purification device is fixedly arranged on one side of the furnace body; the purifying device comprises a shell, the shell is of a cavity structure and is fixedly connected with a furnace body through screws, a reaction chamber is arranged in the shell, the top of the reaction chamber is respectively and fixedly connected with a smoke exhaust pipe and a feeding pipe, the other end of the smoke exhaust pipe is fixedly connected with one side of a smoke exhaust cavity, a spray head is fixedly arranged on the top wall of the reaction chamber, an outlet is arranged at the bottom of the reaction chamber, a valve block is embedded in the outlet and is arranged in the shell in a sliding manner, a connecting rod is movably hinged to one side of the valve block, a sliding block is movably hinged to the other end of the connecting rod and is arranged in the shell in a sliding manner, a connecting rod is welded at the top of the sliding block, a pressing plate is fixedly connected to the end part of the connecting rod, a bearing plate is welded at one side of the reaction chamber, supporting legs are connected to the, the top of the box body is provided with a bag body, one side and the top of the bag body are respectively and fixedly connected with a water conveying pipe and a water adding pipe, the other end of the water conveying pipe is installed inside the spray head, and the water adding pipe extends to the outside of the shell.

Preferably, one side of the water tank is fixedly connected with a water inlet pipeline through a flange plate, and a water pump is installed on the water inlet pipeline.

Preferably, the particle purification net rack and the furnace operator are assembled inside the furnace body through screws.

Preferably, the inner wall of the shell is provided with symmetrically-arranged chutes, the valve block is connected with the chutes in a sliding manner, the bottom of the shell is fixedly connected with a blow-off pipe through a flange plate, the inner wall of the shell is fixed with a particle collection net box through screws, and the blow-off pipe is located under the particle collection net box.

Preferably, the inner wall of the smoke exhaust pipe is fixedly connected with two filter screen plates, and PE filler is filled between the two filter screen plates.

Preferably, one side of the reaction chamber is fixedly connected with a loop bar through a countersunk head bolt, a slide hole is formed in the slider, the loop bar is embedded in the slide hole, a movable groove is formed in one side of the shell, the slider penetrates through the inside of the movable groove, a return spring is sleeved on the loop bar, and two ends of the return spring are respectively fixedly connected with one side of the reaction chamber and one side of the slider through buckles.

Preferably, a through hole is formed in one side of the box body, and part of the connecting rod penetrates through the inside of the through hole.

Preferably, the center of the pressure plate is on the same axis as the center of the balloon.

The invention has the beneficial effects that:

1. according to the invention, the lower part of the water tank is designed to be in a sphere-like shape, most of water is concentrated on the lower part of the water tank, the heating contact area of the water tank is greatly increased, the heating efficiency and the heat conversion rate can be improved, and the heating energy of the boiler is effectively saved.

2. According to the invention, through the arrangement of the reaction chamber, the filter screen plate, the PE filler and other structures, when the flue gas of the equipment is discharged, various impurities, dust and carbon dioxide are absorbed through the filter screen plate and the PE filler, then the flue gas enters the reaction chamber to fully react with a hydrogen sulfide reactant, and then the flue gas is discharged together with water flow, and when the flue gas is discharged, the particle collection screen box recycles sulfur-containing particles, so that the discharge of pollutants is reduced, and the requirement of environmental protection is met.

3. According to the invention, due to the arrangement of the ash collection box, ash residues generated by coal combustion can automatically fall into the ash collection box which is arranged at the bottom in a sliding mode after falling down, and can be treated in a centralized manner after being drawn out, so that the problem that furnace ash cannot be discharged in time is solved.

Drawings

FIG. 1 is a front view of a micro boiler for energy saving and emission reduction proposed by the present invention;

FIG. 2 is a schematic structural diagram of a purification apparatus according to the present invention;

FIG. 3 is an enlarged view of the position A of the energy-saving and emission-reducing mini-boiler provided by the invention.

In the figure: 1 furnace body, 2 ash collecting boxes, 3 combustion chambers, 4 smoke exhaust cavities, 5 particle purification net racks, 6 furnace operators, 7 carbon adding ports, 8 water pumps, 9 purification devices, 91 machine shells, 92 movable grooves, 93 sliding blocks, 94 sewage discharge pipes, 95 reaction chambers, 96 loop bars, 97 connecting rods, 98 return springs, 99 box bodies, 100 connecting rods, 101 supporting legs, 102 capsule bodies, 103 water conveying pipes, 104 smoke exhaust pipes, 105 valve blocks, 106 particle collection net boxes, 107 sliding grooves, 108 spray heads, 10 water tanks, 11 water inlet pipelines, 12 filter screen plates and 13 PE fillers.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, the energy-saving and emission-reducing mini-boiler comprises a boiler body 1, wherein an ash collecting chamber, a combustion chamber 3 and a smoke discharging cavity 4 are sequentially arranged in the boiler body 1, an ash collecting box 2 is slidably arranged in the ash collecting chamber, a water tank 10 is fixed in the boiler body 1 through nuts and bolts, the lower part of the water tank 10 is in a sphere-like shape, a boiler operator 6 is arranged between the ash collecting chamber and the combustion chamber 3, a particle purifying net rack 5 is arranged between the combustion chamber 3 and the smoke discharging cavity 4, and a purifying device 9 is fixedly arranged on one side of the boiler body 1; the purification device 9 comprises a shell 91, the shell 91 is of a cavity structure, the shell 91 is fixedly connected with a furnace body 1 through screws, a reaction chamber 95 is arranged inside the shell 91, the top of the reaction chamber 95 is respectively and fixedly connected with a smoke exhaust pipe 104 and a feeding pipe, the other end of the smoke exhaust pipe 104 is fixedly connected with one side of a smoke exhaust cavity 4, a spray head 108 is fixedly arranged on the top wall of the reaction chamber 95, an outlet is arranged at the bottom of the reaction chamber 95, a valve block 105 is embedded inside the outlet, the valve block 105 is arranged inside the shell 91 in a sliding manner, a connecting rod 97 is movably hinged on one side of the valve block 105, a sliding block 93 is movably hinged on the other end of the connecting rod 97, the sliding block 93 is arranged inside the shell 91 in a sliding manner, a connecting rod 100 is welded on the top of the sliding block 93, a pressing plate is fixedly connected to the, the top of the supporting leg 101 is fixedly connected with a box body 99, the top of the box body 99 is provided with a bag body 102, one side and the top of the bag body 102 are respectively and fixedly connected with a water conveying pipe 103 and a water adding pipe, the other end of the water conveying pipe 103 is arranged inside the spray head 108, the water adding pipe extends to the outside of the shell 91, the lower part of the water tank 10 is designed into a sphere-like shape, most of water is concentrated on the lower part of the water tank 10, the heating contact area of the water tank 10 is greatly increased, the heating efficiency and the heat conversion rate can be improved, the heating energy of a boiler can be effectively saved, through the arrangement of the structures of the reaction chamber 95, the filter screen plate 12, the PE filler 13 and the like, when the smoke of the equipment is discharged, the smoke firstly absorbs various impurities, dust and carbon dioxide through the filter screen plate 12 and the PE filler 13, then the smoke, when the coal ash is discharged, the particle collecting net box 106 recycles sulfur-containing particles, reduces the discharge of pollutants, meets the requirement of green environmental protection, ash slag burnt by coal can automatically fall into the ash collecting box 2 with the bottom slidably mounted after falling down through the arrangement of the ash collecting box 2, can be centrally treated after the ash collecting box 2 is drawn out, and solves the problem that furnace ash can not be discharged in time, one side of the water tank 10 is fixedly connected with a water inlet pipeline 11 through a flange plate, a water pump 8 is installed on the water inlet pipeline 11, the particle purifying net rack 5 and the furnace operator 6 are both assembled in the furnace body 1 through screws, symmetrically arranged chutes 107 are arranged on the inner wall of the shell 91, a valve block 105 is slidably connected with the chutes 107, the bottom of the shell 91 is fixedly connected with a blow-off pipe 94 through a flange plate, the particle collecting net box 106 is fixed on the inner wall of the shell 91 through screws, the blow-off pipe 94 is positioned under the particle collecting net box 106, two filter plate 12 of inner wall fixedly connected with of exhaust pipe 104, it packs 13 to have the PE between two filter plate 12, countersunk head bolt fixedly connected with loop bar 96 is passed through to one side of reacting chamber 95, the slide opening has been seted up to the inside of slider 93, the inside at the slide opening is seted up in the embedding of loop bar 96, movable groove 92 has been seted up to one side of casing 91, slider 93 passes the inside in movable groove 92, the outside cover of loop bar 96 is equipped with reset spring 98, buckle and one side of reacting chamber 95 and one side fixed connection of slider 93 are passed respectively to reset spring 98's both ends, the through-hole has been seted up to one side of box 99, the inside of through-hole is passed to the part of connecting rod 100, the center of clamp plate and the center of.

In the embodiment, during operation, heat energy is generated by burning coal in the combustion chamber 3, water flow is pumped into the water inlet pipeline 11 by the water pump 8 and enters the water tank 10, fuel can be added through the carbon adding port 7, during heating, the bottom of the water tank 10 is in a sphere-like shape, the contact area of heating is increased, the heating efficiency is high, furnace ash generated by burning falls into the ash collecting box 2 through the furnace operator 6, and after the boiler is used, the ash collecting box 2 can be pulled to perform centralized treatment on the furnace ash; the generated flue gas enters a smoke exhaust pipe 104, impurities, particles and carbon dioxide are absorbed by a filter screen plate 12 and a PE filler 13, then the flue gas enters a reaction chamber 95, a hydrogen sulfide solution is stored in the reaction chamber 95, the flue gas fully reacts with the hydrogen sulfide after entering, after the flue gas reacts for a period of time, a user pushes a sliding block 93, the sliding block 93 drives one end of a connecting rod 100 rigidly connected with the sliding block 93 to extrude a capsule 102 by a pressing plate, water flow is extruded into a spray head 108 through a water pipe 103, the reaction chamber 95 is washed by the spray head 108, meanwhile, the sliding block 93 drives a connecting rod 97 to rotate, the length of the connecting rod 97 in the Y-axis direction is changed, so that the other end of the connecting rod 97 pushes a valve block 105 to slide on a sliding groove 107, an outlet of the reaction chamber 95 is opened, and the reacted liquid is discharged;

further, when the net box 106 is collected to the granule, the particulate matter that contains sulphur is left and is retrieved, other filth are discharged through blow off pipe 94, there is the door plant in the position of granule collection box 106 in the front side of casing 91, open the back, can take out the particulate matter, purify the back in proper order and accomplish the back, loosen slider 93, the elasticity of spring 98 resumes to promote slider 93, connecting rod 100 and connecting rod 97 and reset simultaneously, personnel pass through filling tube and filler pipe afterwards and supply hydrogen sulfide and water for reaction chamber 95 and utricule 102 replenishment to purify the flue gas and use next time.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The energy-saving emission-reducing mini-type boiler comprises a boiler body (1), and is characterized in that an ash collecting chamber, a combustion chamber (3) and an exhaust cavity (4) are sequentially arranged in the boiler body (1), an ash collecting box (2) is slidably arranged in the ash collecting chamber, a water tank (10) is fixed in the boiler body (1) through nuts and bolts, the lower portion of the water tank (10) is in a sphere-like shape, a furnace operator (6) is arranged between the ash collecting chamber and the combustion chamber (3), a particle purification net rack (5) is arranged between the combustion chamber (3) and the exhaust cavity (4), and a purification device (9) is fixedly arranged on one side of the boiler body (1); the purification device (9) comprises a shell (91), the shell (91) is of a cavity structure, the shell (91) is in a screw structure and is fixedly connected with the furnace body (1), a reaction chamber (95) is arranged inside the shell (91), the top of the reaction chamber (95) is respectively and fixedly connected with a smoke exhaust pipe (104) and a feeding pipe, the other end of the smoke exhaust pipe (104) is fixedly connected with one side of a smoke exhaust cavity (4), a spray head (108) is fixedly arranged on the top wall of the reaction chamber (95), an outlet is formed in the bottom of the reaction chamber (95), a valve block (105) is embedded into the outlet, the valve block (105) is arranged inside the shell (91) in a sliding manner, a connecting rod (97) is movably hinged to one side of the valve block (105), a sliding block (93) is hinged to the other end of the connecting rod (97), and the sliding block (93) is arranged inside the shell (91) in a sliding, and the welding of the top of slider (93) has connecting rod (100), and the tip fixedly connected with clamp plate of connecting rod (100), the welding of one side of reaction chamber (95) has the loading board, there are stabilizer blade (101) at the top of loading board through bolted connection, the top fixedly connected with box (99) of stabilizer blade (101), the top of box (99) is equipped with utricule (102), and fixedly connected with raceway (103) and filler pipe respectively at one side and the top of utricule (102), the inside at shower nozzle (108) is installed to the other end of raceway (103), the filler pipe extends to the outside of casing (91).

2. The energy-saving and emission-reducing mini-boiler according to claim 1, wherein one side of the water tank (10) is fixedly connected with a water inlet pipe (11) through a flange, and the water inlet pipe (11) is provided with a water pump (8).

3. The energy-saving emission-reducing mini-boiler according to claim 1, wherein the particle purifying grid (5) and the boiler operator (6) are assembled inside the boiler body (1) through screws.

4. The energy-saving and emission-reducing mini-boiler according to claim 1, wherein the inner wall of the shell (91) is provided with symmetrically arranged chutes (107), the valve block (105) is slidably connected with the chutes (107), the bottom of the shell (91) is fixedly connected with a drain pipe (94) through a flange plate, the inner wall of the shell (91) is fixed with a particle collection net box (106) through screws, and the drain pipe (94) is located right below the particle collection net box (106).

5. The energy-saving emission-reducing mini-boiler according to claim 1, wherein the inner wall of the smoke exhaust pipe (104) is fixedly connected with two filter screen plates (12), and PE filler (13) is filled between the two filter screen plates (12).

6. The energy-saving emission-reducing mini-boiler according to claim 1, wherein one side of the reaction chamber (95) is fixedly connected with a loop bar (96) through a countersunk bolt, a slide hole is formed in the slide block (93), the loop bar (96) is embedded in the slide hole, a movable groove (92) is formed in one side of the shell (91), the slide block (93) penetrates through the movable groove (92), a return spring (98) is sleeved outside the loop bar (96), and two ends of the return spring (98) are respectively fixedly connected with one side of the reaction chamber (95) and one side of the slide block (93) through a buckle.

7. The energy-saving emission-reducing mini-boiler according to claim 1, wherein a through hole is formed at one side of the box body (99), and a part of the connecting rod (100) passes through the inside of the through hole.

8. An energy saving and emission reduction microburner according to claim 1, wherein the centre of the platen is on the same axis as the centre of the capsule (102).