CN113847613A

CN113847613A - Environment-friendly energy-saving power station boiler

Info

Publication number: CN113847613A
Application number: CN202111167164.XA
Authority: CN
Inventors: 吴国江
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-10-03
Filing date: 2021-10-03
Publication date: 2021-12-28

Abstract

The invention discloses an environment-friendly energy-saving power station boiler, which structurally comprises a burner, a boiler supporting seat, a smoke exhaust device and a boiler body, wherein the burner is connected with one side of the boiler body, the smoke exhaust device is arranged on the other side of the boiler body and is fixedly connected with the boiler body, the bottom of the boiler body is fixedly connected with the boiler supporting seat, an ionization component, a positive pole column, a negative pole column and a connecting rod are additionally arranged, the pull rope wound on the transmission shaft is released by rotating the transmission shaft on the connecting rod, the spring can be reset to pull the moving rod back into the limiting cylinder, the discharge needle on the ionization component extends out of the anode column and the cathode column, the discharge needle ionizes the smoke in the flue through the conduction of the cathode column, the generated negative ions are attached to particles in the smoke, and the electrified anode column adsorbs the smoke attached with the negative ions so as to purify the smoke.

Description

Environment-friendly energy-saving power station boiler

Technical Field

The invention relates to the technical field of power station equipment, in particular to an environment-friendly energy-saving power station boiler.

Background

Thermal power generation is a main power generation mode in China, a power station boiler is used as one of three main devices of a thermal power station, the power station boiler is developed along with the development of the thermal power industry in China, the boiler is energy conversion equipment and comprises a boiler and a furnace, the boiler is a pressure part for containing water and steam and is used for heating, vaporizing and separating steam and water, the furnace is a place for fuel combustion or other heat energy release, combustion equipment, a combustion chamber, a heat release flue and the like are arranged, the power station boiler can generate certain smoke in the combustion heating process, the smoke can pollute the surrounding air to a certain degree, meanwhile, particles in the smoke are inhalable particles, and after people around inhale the particles, the accumulated particles are accumulated in the lung in the day and the lung, so that the breathing function is influenced, and serious harm is caused to the health of people.

Disclosure of Invention

The invention provides an environment-friendly energy-saving power station boiler, which aims to solve the problems that certain smoke can be generated in the combustion heating process of the boiler, the smoke can pollute the surrounding air to a certain extent, particles in the smoke are inhalable particles, and after surrounding people inhale the particles, the accumulated particles are accumulated in the lung to influence the respiratory function, so that the health is seriously injured.

In order to achieve the purpose, the invention is realized by the following technical scheme: the boiler comprises a burner, a boiler supporting seat, a smoke exhaust device and a boiler body, wherein the burner is connected with one side of the boiler body, the smoke exhaust device is arranged on the other side of the boiler body, the smoke exhaust device is fixedly connected with the boiler body, and the bottom of the boiler body is fixedly connected with the boiler supporting seat.

The smoke exhaust device comprises a smoke exhaust pipe, a filter pipe and a smoke inlet pipe, wherein one side of the bottom of the smoke exhaust pipe is connected with the top of the filter pipe in the axial direction, the bottom of the filter pipe is connected with one side of the top of the smoke inlet pipe, and the smoke inlet pipe is fixedly connected with the boiler body.

As optimization, the filter pipe comprises a flue, a pipe body, a purifier, a movable plate and a fixed plate, wherein the flue is arranged inside the pipe body, the purifier is arranged inside the flue, the purifier is in transition fit with the fixed plate, the fixed plate is in clearance fit with one side of the pipe body, the movable plate is arranged on the other side of the pipe body, and the movable plate is in clearance fit with the pipe body.

As optimization, the purifier comprises an adsorption component and a connecting rod, wherein the adsorption component is arranged on each of two sides of the connecting rod, and the adsorption component is fixedly connected with the connecting rod.

As optimization, the adsorption component comprises a positive pole, a spring, a limiting cylinder, a moving rod, an ionization component, a through hole and a negative pole, the negative pole is embedded in the positive pole, the limiting cylinder is arranged in the negative pole, the limiting cylinder is of a hollow structure, the limiting cylinder is fixedly connected with the negative pole, the moving rod is arranged in the negative pole, the spring is arranged on the moving rod and faces one side of the limiting cylinder, one end of the spring is connected with the moving rod, the other end of the spring is connected with the limiting cylinder, the ionization component is arranged on the moving rod in seven groups at equal intervals, the ionization component is movably matched with the moving rod, the through hole is formed in each of the upper end and the lower end of the ionization component, and the through hole is formed between the positive pole and the negative pole

As optimization, ionization subassembly is including a movable block, No. two movable blocks, moving part, discharge needle, the upper and lower both ends of a movable block, No. two movable blocks all with moving part hinged joint, the moving part is equipped with two, the moving part is kept away from the one end of a movable block, No. two movable blocks and is connected with the discharge needle perpendicularly, discharge needle and through-hole clearance fit

As optimization, the connecting rod is including connector, transmission shaft, stopper, gear, stay cord, the connector is hollow structure, the connector is equipped with the transmission shaft, transmission shaft and connector clearance fit, be equipped with two stoppers on the inside transmission shaft of connector, two the stopper respectively with transmission shaft transition fit, the transmission shaft both sides are equipped with the stay cord respectively, the one end and the transmission shaft fixed connection of stay cord, the other end and the pole fixed connection that move of stay cord, the top of transmission shaft still is equipped with the gear, gear and transmission shaft transition fit.

Preferably, the movable plate is provided with three racks respectively, the racks are fixedly connected with the movable plate, the racks are meshed with the gears, three groups of fixed rods are fixed on the fixed plates, each group of fixed rods is provided with two fixed rods, and the fixed rods are in transition fit with two sides of the connector.

As optimization, the pipe body is snakelike, the purifier is three, and the fixed rod is provided with a circuit template.

As optimization, the first movable block is in clearance fit with the moving rod, and the second movable block is in transition fit with the moving rod.

According to the technical scheme, the environment-friendly energy-saving power station boiler has the following beneficial effects:

the smoke exhausting device of the boiler is improved, the ionization assembly is combined with the positive pole column, the negative pole column and the connecting rod, the transmission shaft on the connecting rod is rotated, the pull rope wound on the transmission shaft is released, the spring can be reset, the moving rod is pulled back into the limiting cylinder, the discharge needle on the ionization assembly extends out of the positive pole column and the negative pole column, the discharge needle ionizes smoke in a flue through the conduction of the negative pole column, generated negative ions are attached to particles in the smoke, and the electrified positive pole column adsorbs the smoke attached with the negative ions, so that the smoke is purified.

The invention also discloses a smoke purifier, which is characterized in that a fixed plate and a movable plate are combined, a gear on a transmission shaft is transmitted through a rack on the movable plate, the transmission shaft rotates to release or wind a pull rope, the fixed plate fixes the purifier, and a circuit template on the fixed plate conducts electricity to a positive pole column and a negative pole column to generate the effect of adsorbing particles in smoke.

Drawings

FIG. 1 is a schematic structural diagram of an environmental protection and energy saving type utility boiler of the present invention.

Fig. 2 is a schematic structural diagram of a smoke exhaust device of the present invention.

Fig. 3 is a schematic front sectional view of a filter tube according to the present invention.

FIG. 4 is a schematic side sectional view of a filter tube according to the present invention.

FIG. 5 is a schematic view of the structure of the purifier of the present invention.

FIG. 6 is a schematic sectional view of the purifier according to the present invention.

Fig. 7 is an enlarged structural diagram of a in fig. 6.

FIG. 8 is a schematic cross-sectional view of the connecting rod of the present invention.

Fig. 9 is a schematic top sectional view of a filter tube according to the present invention.

In the figure: the device comprises a combustor 1, a boiler supporting seat 2, a smoke exhaust device 3, a boiler body 4, a smoke exhaust pipe 31, a filter pipe 32, a smoke inlet pipe 33, a flue 321, a pipe body 322, a purifier 323, a movable plate 324, a fixed plate 325, an adsorption component 3231, a connecting rod 3232, a positive pole 3a, a spring 3b, a limiting cylinder 3c, a moving rod 3d, an ionization component 3e, a through hole 3f, a negative pole 3g, a first movable block 3e1, a second movable block 3e2, a movable piece 3e3, a discharge needle 3e4, a connecting body a, a transmission shaft b, a limiting block c, a gear d, a pull rope e, a rack 3241 and a fixed rod 3251.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example one

As shown in fig. 1, the invention provides an environment-friendly energy-saving power station boiler, which structurally comprises a burner 1, a boiler supporting seat 2, a smoke exhaust device 3 and a boiler body 4, wherein the burner 1 is connected with one side of the boiler body 4, the smoke exhaust device 3 is arranged on the other side of the boiler body 4, the smoke exhaust device 3 is fixedly connected with the boiler body 4, and the bottom of the boiler body 4 is fixedly connected with the boiler supporting seat 2.

As shown in fig. 2-6, the specific smoke exhausting device 3 includes a smoke exhausting pipe 31, a filtering pipe 32, a smoke inlet pipe 33, one side of the bottom of the smoke exhausting pipe 31 is connected to the top of the filtering pipe 32, the bottom of the filtering pipe 32 is connected to one side of the top of the smoke inlet pipe 33, the smoke inlet pipe 33 is fixedly connected to the boiler body 4, the filtering pipe 32 includes a flue 321, a pipe body 322, a purifier 323, a movable plate 324, and a fixing plate 325, the flue 321 is disposed inside the pipe body 322, the purifier 323 is disposed inside the flue 321, the purifier 323 is in transition fit with the fixing plate 325, the fixing plate 325 is in clearance fit with one side of the pipe body 322, the other side of the pipe body 322 is disposed with a movable plate 324, the movable plate 324 is in clearance fit with the pipe body 322, the pipe body 322 is serpentine, the smoke flows in serpentine space, the smoke can be in contact with the purifier for a longer time, the purifier 323 is three, the fixing plate 3251 is disposed with circuit boards, the purifier 323 comprises an adsorption component 3231 and a connecting rod 3232, the two sides of the connecting rod 3232 are respectively provided with the adsorption component 3231, the adsorption component 3231 is fixedly connected with the connecting rod 3232, the adsorption component 3231 comprises a positive pole 3a, a spring 3b, a limiting cylinder 3c, a moving pole 3d, an ionization component 3e, a through hole 3f and a negative pole 3g, the negative pole 3g is embedded in the positive pole 3a, the limiting cylinder 3c is arranged in the negative pole 3g, the limiting cylinder 3c is of a hollow structure, the limiting cylinder 3c is fixedly connected with the negative pole 3g, the moving pole 3d is further arranged in the negative pole 3g, the spring 3b is arranged on one side of the moving pole 3d facing the limiting cylinder 3c, one end of the spring 3b is connected with the moving pole 3d, the other end of the spring 3b is connected with the limiting cylinder 3c, the moving pole 3d is provided with seven groups of ionization components 3e arranged at equal intervals, the ionization components 3e are movably matched with the moving pole 3d, the upper end and the lower end of the ionization component 3e are both provided with through holes 3f, and the through holes 3f are arranged between the positive pole posts 3a and the negative pole posts 3 g.

The above-mentioned moving rod 3d, when translating, allows the extension and raising of the ionising assembly 3 e.

The positive electrode column 3a can adsorb particles to which negative ions are attached after energization.

The negative pole 3g conducts electricity to the ionization component 3e after being electrified, so that the ionization component 3e ionizes air to release negative ions.

The spring 3b can reset without the influence of external force, and the reset generates pulling force to pull the moving rod 3d to translate.

Example two

As shown in fig. 7, the ionization element 3e described in the first embodiment includes a first movable block 3e1, a second movable block 3e2, a movable element 3e3, and a discharge needle 3e4, wherein upper and lower ends of the first movable block 3e1 and the second movable block 3e2 are hinged to the movable element 3e3, two movable elements 3e3 are provided, one end of the movable element 3e3 away from the first movable block 3e1 and one end of the second movable block 3e2 are vertically connected to the discharge needle 3e4, and the discharge needle 3e4 is in clearance fit with the through hole 3 f.

The first movable block 3e1 is in clearance fit with the moving rod, the second movable block 3e2 is in transition fit with the moving rod, and under the translation of the second movable block 3e2, the first movable block 3e1 is limited by the movable piece 3e3 to move in the opposite direction, so that the movable piece 3e3 is extended and lifted.

The moving member 3e3 is lifted and attached to the inner wall of the negative pole 3g, and the negative pole 3g conducts electricity to the moving member 3e3, so that the discharge is ionized to the surrounding smoke to release negative ions.

As shown in fig. 8, specific connecting rod 3232 is including connector an, transmission shaft b, stopper c, gear d, stay cord e, connector a is hollow structure, connector a is equipped with transmission shaft b, transmission shaft b and connector a clearance fit, be equipped with two stopper c on the inside transmission shaft b of connector a, two stopper c respectively with transmission shaft b transition fit, transmission shaft b both sides are equipped with stay cord e respectively, the one end and the transmission shaft b fixed connection of stay cord e, the other end and the 3d fixed connection that moves of stay cord e, transmission shaft b's top still is equipped with gear d, gear d and transmission shaft b transition fit.

The transmission shaft b is driven by the rotation of the gear d to rotate, so that the pull rope e is released and wound, and the moving rod can be moved.

As shown in fig. 9, three racks 3241 are respectively disposed on the movable plate 324, the racks 3241 are fixedly connected to the movable plate 324, the racks 3241 are engaged with the gears d, three sets of fixed rods 3251 are fixed on the fixed plate 325, two fixed rods 3251 are provided for each set, and the fixed rods 3251 are in transition fit with two sides of the connector a.

The invention relates to a working principle of an environment-friendly energy-saving power station boiler, which comprises the following steps: the fixed plate 325 and the movable plate 324 are inserted into the snake-shaped tube body 322, the rack 3241 on the movable plate 324 is engaged with the gear d on the connecting rod 3232, the gear d drives the transmission shaft b to rotate by the insertion of the rack 3241, the pull rope e which is originally wound on the transmission shaft b is released, the movable rod 3d is pulled back into the limiting cylinder 3c by the spring 3b, the second movable block 3e2 is driven to move towards the same direction by the movement of the movable rod 3d, the first movable block 3e1 moves towards the opposite direction due to the limitation of the movable block 3e3, after the movable block 3e3 rises, the discharge needle 3e4 extends out of the through hole 3f and is exposed in the flue 321, the movable block 3e3 is attached to the negative pole 3g, so that the electrified negative pole 3g conducts electricity to the ionization component 3e, the discharge needle 3e4 ionizes the surrounding air and releases negative ions under the electrified condition, particles which are adhered to the flue gas and discharged from the discharge needle 3e4 make the particles negatively charged, the negatively charged particles are adsorbed by the electrified positive post 3 a;

when the movable plate 324 is taken out, the rotating transmission shaft b pulls the pull rope e, so that the pull rope e is wound on the transmission shaft b, the limiting block c inside the connector a has a limiting effect on the transmission shaft b, the problem that the gear d cannot be meshed with the rack 3241 due to the fact that the transmission shaft b in clearance fit with the connector a is staggered is solved, the wound pull rope e generates pulling force to pull the movable rod 3d to move towards the connector a, the second movable block 3e2 in transition fit with the movable rod 3d is driven to move, the first movable block 3e1 at the same level can only move in opposite directions when being subjected to the movable pieces 3e3 at the top and the bottom, the movable pieces 3e3 at the top and the bottom extend towards two sides, the discharge needles 3e4 at the top and the bottom can be driven to retract into the through holes 3f, and the movable pieces 3e3 are not electrified when being attached to the inner wall of the negative pole 3 g.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides an environmental protection and energy saving type power station boiler, its structure includes combustor (1), boiler supporting seat (2), fume extractor (3), boiler body (4) one side links to each other with combustor (1), and the opposite side meets with fume extractor (3), boiler body (4) bottom is connected its characterized in that with boiler supporting seat (2):

fume extractor (3) are including discharging fume pipe (31), filter tube (32), advance tobacco pipe (33), the bottom side of discharging fume pipe (31) is passed through filter tube (32) and is connected with the top side of advancing tobacco pipe (33), it is connected with boiler body (4) to advance tobacco pipe (33), filter tube (32) are including body (322), fixed plate (325), body (322) inside is equipped with flue (321), inside clarifier (323) that is equipped with of flue (321), clarifier (323) and fixed plate (325) transition fit, fixed plate (325) and body (322) clearance fit, body (322) still be equipped with between clearance fit's fly leaf (324).

2. The environmental-friendly energy-saving utility boiler according to claim 1, characterized in that: the purifier (323) comprises a connecting rod (3232), and adsorption components (3231) connected with the connecting rod (3232) are arranged on two sides of the connecting rod.

3. The environmental-friendly energy-saving utility boiler according to claim 2, characterized in that: adsorption component (3231) including anodal post (3a), spring (3b), anodal post (3a) is inside to be inlayed negative pole post (3g), inside spacing section of thick bamboo (3c) of being equipped with of negative pole post (3g), spacing section of thick bamboo (3c) and negative pole post (3g) interior wall connection, pole (3d) are still moved to inside being equipped with of negative pole post (3g), it is connected with spacing section of thick bamboo (3c) through spring (3b) to move pole (3d), move the ionization subassembly (3e) that is equipped with seven equidistance settings on pole (3d), ionization subassembly (3e) and move pole (3d) clearance fit, the upper and lower both ends of ionization subassembly (3e) all are equipped with through-hole (3f), through-hole (3f) are located between anodal post (3a) and negative pole post (3 g).

4. The environmental-friendly energy-saving utility boiler according to claim 3, characterized in that: ionization subassembly (3e) is including a movable block (3e1), No. two movable blocks (3e2), moving part (3e3), the upper and lower both ends of a movable block (3e1), No. two movable blocks (3e2) all with moving part (3e3) hinged joint, moving part (3e3) are equipped with two, the one end of a movable block (3e1), No. two movable blocks (3e2) is kept away from in moving part (3e3) is connected with discharge needle (3e4) perpendicularly, discharge needle (3e4) and through-hole (3f) clearance fit, a movable block (3e1) with move pole (3d) clearance fit, No. two movable blocks (3e2) with move pole (3d) transition fit.

5. The environmental-friendly energy-saving utility boiler according to claim 2, characterized in that: connecting rod (3232) is including connector (a), transmission shaft (b), gear (d), connector (a) is hollow structure, connector (a) is equipped with transmission shaft (b) and both clearance fit, be equipped with two stopper (c) of transition fit with it on transmission shaft (b), transmission shaft (b) both sides are equipped with stay cord (e) respectively, the one end and the transmission shaft (b) of stay cord (e) are connected, and the other end is connected with moving pole (3d), transmission shaft (b) top is equipped with gear (d) and both transition fit.

6. The environmental-friendly energy-saving utility boiler according to claim 1, characterized in that: the movable plate (324) is provided with three racks (3241), the racks (3241) are meshed with the gears (d), three groups of fixing rods (3251) are fixed on the fixing plate (325), each group of fixing rods (3251) is provided with two, and the fixing rods (3251) are in transition fit with two sides of the connector (a).