KR101317937B1 - Coal supplying control apparatus for thermal power plant boiler - Google Patents

Abstract

The present invention relates to a pulverized coal supply control device for a coal-fired power plant that has a simple structure and is easy to install and can reduce costs, and also to quickly open and close the inside of a duct through which pulverized coal moves. A main body installed in the duct; A pulverized coal supply control unit rotatably installed in the main body to control a movement amount of the pulverized coal moved into the main body; A driving unit installed outside the main body so as to be connected to the pulverized coal supply adjusting unit to rotate the pulverized coal supply adjusting unit; And a power transmission unit connecting the driving unit and the pulverized coal supply control unit so that the driving force of the drive unit is transmitted to the pulverized coal supply control unit.

Description

Pulverized coal supply control device of thermal power plant {COAL SUPPLYING CONTROL APPARATUS FOR THERMAL POWER PLANT BOILER}

The present invention relates to a pulverized coal supply control device for a thermal power plant, and more particularly, the structure is simple to install, easy to reduce the cost, as well as to quickly open and close the inside of the duct that the pulverized coal moves. The present invention relates to a pulverized coal supply control device of a thermal power plant.

In general, thermal power generation is a power generation method that converts chemical energy of petroleum, coal, and natural gas into mechanical energy, and then converts it into electrical energy by a generator. Usually, fuel is burned in a boiler to generate water vapor and a turbine. Mechanical energy is converted into electricity by a generator directly connected to the turbine.

Such thermal power generation is divided into thermal power generation, flame retardant power generation, and special thermal power generation, depending on the heat source and the prime mover.

Thermal power generation is a method of producing steam from the thermal energy generated by burning fossil fuels such as coal oil and sending it to a heat engine to obtain mechanical energy, and to obtain electrical energy by rotating the rotor with the mechanical energy.

Flame-resistant power generation is a method of obtaining mechanical energy by directly using a high-pressure gas obtained by evaporating a gas fuel or a liquid fuel, and then rotating the rotor using this mechanical energy to obtain electrical energy.

Specialized thermal power generation includes heat supply power generation, waste heat utilization power generation, dual flow type power generation, geothermal power generation, and gas turbine power generation.

Coal-fired power plants, which use coal as a main raw material, are supplied by supplying finely powdered pulverized coal together with air to burn them in a boiler, and generate electricity by rotating a turbine by vaporizing water in a water pipe piped in the boiler.

Such coal-fired power plants typically use coal pulverizers for pulverizing coal into fine-grained coal and supply them through pulverized coal conveying pipes, and blowers for supplying air through pulverized coal conveying pipes and mixtures of pulverized coal and air conveyed through pulverized coal conveying pipes. It is provided with a boiler which receives and burns.

In addition, the coal-fired power plant is connected so that the pulverized coal transfer pipe is branched from the coal crusher to each boiler so that the pulverized coal can be transferred from one coal crusher to a plurality of boilers. Therefore, in order to equalize the injection pressure of the pulverized coal supplied to the boiler because the conveying distance from the coal crusher to each boiler is different, it is necessary to adjust the pulverized coal conveying speed and the pressure of the pulverized coal conveying pipe leading to each boiler. One is an orifice.

Meanwhile, the circulating fluidized bed combustion technology, which is widely adopted in such a thermal power plant, makes coal particles made by pulverizing coal to a suitable size and blows air at a proper speed into a suspended fluidized bed. It is a method of supplying and burning.

The circulating fluidized bed combustion has a high heat transfer efficiency due to direct heat transfer by solid particles, and the combustion temperature in the furnace is much lower than that in the pulverized coal combustion method, so that there is little damage to facilities such as high temperature corrosion and scale of water pipes and superheated engines. have.

In the boiler of a conventional thermal power plant, pulverized coal pulverized in a pulverizer is usually supplied through four pulverized coal supply pipes so that thermal efficiency can be improved, and thus a flame is generated in the central part. At this time, the pulverized coal is supplied to the pulverized coal supply pipe using a blower, and the pulverized coal is supplied to the boiler by the flow of the air.

In addition, as a pulverized coal supply device for a boiler of a conventional thermal power generator, "Pulverized coal automatic supply control device for optimum combustion of a boiler in thermal power plants" of Korean Patent No. 10-1038207, "Registered Utility Model No. 20-0093838" Separator of a pulverized coal supply device "and the like.

The pulverized coal supply device of the thermal power plant configured as described above has a problem in that the structure is difficult to install, the cost is high, and the opening and closing of the duct can not be opened and closed quickly.

The present invention was developed to improve the conventional problems as described above, the structure is easy to install, easy to reduce the cost, as well as thermal power to quickly open and close the inside of the duct that the pulverized coal moves The purpose is to provide a pulverized coal supply control device for a power plant.

The present invention in order to achieve the above object is installed in the duct is supplied with pulverized coal; A pulverized coal supply control unit rotatably installed in the main body to control a movement amount of the pulverized coal moved into the main body; A driving unit installed outside the main body so as to be connected to the pulverized coal supply adjusting unit to rotate the pulverized coal supply adjusting unit; And a power transmission unit connecting the driving unit and the pulverized coal supply control unit so that the driving force of the driving unit is transmitted to the pulverized coal supply control unit.

In addition, the present invention provides a pulverized coal supply control device of the thermal power plant to prevent the pulverized coal supply control unit to completely block the movement of the pulverized coal.

In addition, the present invention is rotatably coupled to the main body through a bearing, the rotating shaft member connected to the drive unit and the power transmission unit; And a pulverized coal supply control unit coupled to the rotary shaft member and including a pulverized coal supply control unit configured to adjust or reduce the feed amount of pulverized coal by adjusting the inner width of the main body according to the rotation of the rotary shaft member. .

In addition, the present invention provides a pulverized coal supply control apparatus for a thermal power plant further comprises a wear protection unit coupled to the rotary shaft member and the throttle plate member to prevent wear of the rotary shaft member and the throttle plate member.

In addition, the present invention includes an actuator having a rotating shaft member provided on one side of the main body, a second rotating shaft provided on the other side of the main body, the drive unit is connected to the first rotating shaft or the second rotating shaft. It includes, the power transmission unit for connecting the actuator and the first rotary shaft or the second rotary shaft; And a linkage part provided between the first rotational shaft and the second rotational shaft and interlocking the first rotational shaft and the second rotational shaft according to the driving of the actuator.

In addition, the present invention includes an interlocking shaft member provided between the first rotating shaft and the second rotating shaft; And a linking unit including a linking member and a first rotating shaft, and a gear member connecting the linking shaft member and the second rotating shaft.

In addition, the present invention is a rod member coupled to the first rotary shaft or the second rotary shaft; And it provides a pulverized coal supply control device of the thermal power plant comprising a connection portion hinged to the rod member and made of a connector coupled to the cylinder rod of the actuator.

According to the present invention configured as described above, the structure is simple and easy to install and reduce the cost, as well as quickly opening and closing the inside of the duct has the advantage of reducing the wear caused by pulverized coal to improve the durability have.

1 is a block diagram showing a boiler for a coal-fired power plant to which a pulverized coal supply control device according to an embodiment of the present invention is applied.
2 is a perspective view showing a pulverized coal supply control apparatus of a thermal power plant according to an embodiment of the present invention.
3 is a plan view of Fig.
4 is a side view of Fig.
5 is a sectional view taken along the line AA in Fig.
6 is an exploded perspective view showing a fine coal supply control unit according to an embodiment of the present invention.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It must be interpreted in terms of meaning and concept.

Hereinafter, the pulverized coal supply control apparatus of a thermal power plant according to the present invention will be described in detail with reference to the accompanying drawings.

First, referring to FIG. 1, a boiler 10 of a thermal power plant includes a boiler main body 11 in which fuel is ignited, a grinding powder 13 for pulverizing coal as fuel, and a boiler main body 11 and a grinding powder 13. Pulverized coal supply duct 15 to be connected, and the pulverized coal supply control device 100 is installed in the duct 15 to adjust the amount of pulverized coal supplied to the boiler body (11).

In addition, the boiler 10 of the thermal power plant further includes a control unit 20 for controlling the pulverized coal supply control device 100.

The boiler body 11 is provided with a burner (not shown) in the center so that the pulverized coal supplied from the pulverizer 13 can be burned, and the position of the flame is adjusted by the amount of pulverized coal supplied from the pulverizer 20. Since the flame of the boiler main body 11 moves in a direction in which a lot of pulverized coal is supplied, it is preferable that a flame is formed at the center in order to improve heat exchange efficiency with a heat exchanger (not shown) provided on the side wall.

The fine powder 13 is supplied with coal from the outside, and finely pulverizes the coal so that the coal can be supplied to the boiler body 11 through the supply duct 15.

The supply duct 15 supplies the pulverized coal of the pulverizer 13 to the boiler main body 11, and is connected to the four sides of the boiler main body 11 so that the pulverized coal can be supplied from all sides of the boiler main body 11. At this time, the pulverized coal movement in the supply duct 15 uses the wind of the blower. The blower supplies air to the supply duct 15 so that the pulverized coal of the powder 13 is transferred to the boiler body 11 by the flow of air, and is installed in the powder 13 to be connected to each supply duct 15. do.

On the other hand, each of the supply duct 15 is provided with a pulverized coal detection sensor 17 to detect the supply amount of pulverized coal.

With reference to Figures 2 to 6 will be described in more detail the fine coal supply control device 100 for controlling the supply amount of the pulverized coal supplied to the boiler body 11 through the supply duct 15.

As shown in FIGS. 2 to 6, the pulverized coal supply control device 100 is installed in the supply duct 15 to reduce and increase the width of the supply duct 15 to control the feed amount of the pulverized coal.

To this end, the pulverized coal supply control device 100 is a main body 110 installed in the supply duct 15, the pulverized coal supply control unit 120 rotatably installed in the main body 110 to control the movement amount of the pulverized coal. It includes a drive unit 130 and a power transmission unit 140 for operating the pulverized coal supply control unit 120.

The main body 110 is provided with an upper flange portion 111 and a lower flange portion 113 for connection with the supply duct 15, respectively, and a case for covering the driving unit 130 and the power transmission unit 140 on one side. 115 is further provided.

The upper flange portion 111 and the lower flange portion 113 are coupled to the supply duct 15 and the main body 110 through bolts, respectively. The upper flange 111 and the lower flange 113 may be coupled to the supply duct 15 and the main body 110 through welding or riveting.

The case 115 has an accommodating space therein and is coupled to the main body 110 through bolts, rivets, or welding. In addition, the case 115 has a support block (not shown) formed therein to guide the rotation of the power transmission unit 140.

The pulverized coal supply adjusting unit 120 is rotatably installed in the main body 110 to adjust the movement amount of the pulverized coal moved into the supply duct 15 through the main body 110. For example, when the area covered by the pulverized coal supply control unit 120 increases, the amount of pulverized coal passing through the main body 110 decreases. When the area covered by the pulverized coal supply control unit 120 decreases, the main body 110 decreases. The amount of pulverized coal passing through) is reduced.

The pulverized coal supply adjusting unit 120 is formed so as not to completely block the inside of the main body 110 so that the movement of the pulverized coal in the main body 110 is completely blocked.

Specifically, the pulverized coal supply adjusting unit 120 is coupled to the rotating shaft member 121 and the rotating shaft member 121 rotatably coupled to the main body 110 and increases the feed amount of the pulverized coal according to the rotation of the rotating shaft member 121. Or reducing plate member 123.

In addition, the pulverized coal supply control unit 120 further includes a wear protection unit 125 to prevent abrasion of the rotation shaft member 121 and the control plate member 123.

The rotating shaft member 121 includes a first rotating shaft 121a provided at one side of the main body 110 and a second rotating shaft 121b provided at the other side of the main body 110. The rotation shaft member 121 has a first rotation shaft 121a and a second rotation shaft 121b rotatably coupled to the main body 110 through a bearing, and the first rotation shaft 121a and the second rotation shaft 121b are rotated. It is connected to the driving unit 130 through the power transmission unit 140.

In addition, the first rotation shaft 121a has a fixed shaft 127 protruded from one end thereof so as to be connected to the driving unit 130 through the power transmission unit 140.

The control plate member 123 is coupled to the first rotation shaft 121a and the second rotation shaft 121b through bolts or welding methods, respectively. The adjustment plate member 123 is formed so that the sum of the length is shorter than the inner length of the main body 110 to prevent the main body 110 is completely blocked.

The wear protection unit 125 is coupled to the first rotation shaft 121a and the second rotation shaft 121b to prevent the wear of the first rotation shaft 121a and the second rotation shaft 121b and the adjustment shaft cover member 125a, and the adjustment plate. It is provided with a control plate cover member 125b coupled to the member 123 to prevent wear of the control plate member 123.

The rotating shaft cover member 125a has a cylindrical shape in which the first rotating shaft 121a and the second rotating shaft 121b are inserted and fixed, and the first rotating shaft 121a and the second rotating shaft 121b are easily inserted. An expansion slot for expansion is formed. This rotation shaft cover member 125a is formed of a tungsten cobalt alloy.

The control plate cover member 125b is coupled to the control plate member 123 through a bolt or riveting method, and is formed in a plate shape by ceramic.

The rotation shaft cover member 125a and the adjustment plate cover member 125b prevent the rotation shaft member 121 and the adjustment plate member 123 from abrasion due to friction between the internal heat of the supply duct 15 and the pulverized coal.

The driving unit 130 is installed on the case 115 so as to be connected to the first rotating shaft 121a to rotate the first rotating shaft 121a. To this end, the drive unit 130 includes an actuator 131 connected to the first rotation shaft 121a.

Actuator 131 is a cylinder body is rotatably coupled to the case 115, the cylinder rod is coupled to the first rotation shaft 121a through the power transmission unit 140, the first rotation shaft through the expansion and contraction of the cylinder rod Rotate 121a.

The power transmission unit 140 has an actuator 131, a first rotating shaft 121a, and a first rotating shaft 121a such that the driving force of the actuator 131 is transmitted to the second rotating shaft 121b through the first rotating shaft 121a. The second rotation shaft 121b is connected to each other.

Specifically, the power transmission unit 140 is a connecting portion 141 connecting the actuator 131 and the first rotating shaft 121a, and the linking unit 143 connecting the first rotating shaft 121a and the second rotating shaft 121b. It includes.

The connecting portion 141 includes a rod member 141a coupled to the first rotation shaft 121a and a connector 141b connecting the rod member 141a and the actuator 131. The rod member 141a is axially coupled to the fixed shaft 127 and the other end is rotatably coupled to the connector 141b through the pin member 141c.

The connector 141b is screwed to the cylinder rod of the actuator 131. To this end, a screw groove is formed in the connecting portion 141b and a male screw is formed in the cylinder rod.

The interlocking unit 143 interlocks the first rotating shaft 121a and the second rotating shaft 121b according to the driving of the actuator 131.

To this end, the interlocking portion 143 is interlocking shaft member 145 rotatably coupled to the case 115 through a bearing so as to be provided between the first rotating shaft 121a and the second rotating shaft 121b, the interlocking shaft member. And a gear member 147 connecting the first and second rotary shafts 121 and 145.

The gear member 147 is provided at both ends of the first bevel gear 147a and the first bevel gear 147a coupled to the first and second rotation shafts 121a and 121b, respectively. And second bevel gears 147b respectively coupled thereto.

The amount of pulverized coal moved into the main body 115 while the first rotation shaft 121a and the second rotation shaft 121b are rotated by the connection portion 141 and the linkage portion 143 of the power transmission unit 140 as described above. Decrease and increase.

In the present embodiment, a bevel gear is used as the gear member 147. For example, a spur gear may be used.

The operation of the pulverized coal supply control device of the thermal power plant according to the present embodiment configured as described above will be described.

The pulverized coal supply adjusting device 100 according to the present embodiment rotates the rotating shaft member 121 through expansion and contraction of the actuator 131 rotatably coupled to the main body 110 to block and open the inside of the main body 110. Therefore, the structure is simple, the production is easy and the manufacturing cost is reduced.

In addition, since the feed amount of the pulverized coal can be adjusted only by installing the main body 115 in the supply duct 15, the pulverized coal supply adjusting device 100 can be easily installed in the supply duct 15.

In addition, since the first rotating shaft 121a, the second rotating shaft 121b, and the adjusting plate member 123, which are located inside the main body 110, are covered by the wear preventing portion 125, the hot air of the duct and the collision of pulverized coal are prevented. As a result, wear of the first rotating shaft 121a, the second rotating shaft 121b, and the adjustment plate member 123 can be reduced. That is, the durability of the pulverized coal supply control device 100 can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is understandable. Accordingly, the true scope of the present invention should be determined by the following claims.

100: fine coal supply control device 110: main body
120: pulverized coal supply adjusting unit 121: rotating shaft member
123: control plate member 125: wear protection
121a: first rotating shaft 121b: second rotating shaft
127: fixed shaft 130: drive unit
131: actuator 140: power transmission unit
141: connecting portion 141a: rod member
141b: connector 143: linkage
145: linkage shaft member 147: gear member
147a: First Bevel Gear 147b: Second Bevel Gear

Claims (7)

A main body installed in the duct to which the pulverized coal is supplied; A pulverized coal supply control unit rotatably installed in the main body to control a movement amount of the pulverized coal moved into the main body; A driving unit installed outside the main body so as to be connected to the pulverized coal supply adjusting unit to rotate the pulverized coal supply adjusting unit; And a power transmission unit connecting the driving unit and the pulverized coal supply control unit so that the driving force of the driving unit is transmitted to the pulverized coal supply control unit, wherein the pulverized coal supply control unit is rotatably coupled to the main body through a bearing. A rotating shaft member connected to a driving unit and the power transmission unit; And a control plate member coupled to the rotary shaft member and configured to increase or decrease the feed amount of pulverized coal by adjusting the inner width of the main body according to the rotation of the rotary shaft member.
The rotating shaft member includes a first rotating shaft provided on one side of the main body, a second rotating shaft provided on the other side of the main body, and the driving unit includes an actuator connected to the first rotating shaft or the second rotating shaft. The power transmission unit includes a connection part connecting the actuator to the first rotational shaft or the second rotational shaft; And an interlocking portion provided between the first rotational shaft and the second rotational shaft and interlocking the first rotational shaft and the second rotational shaft according to the driving of the actuator.
The interlocking portion includes an interlocking shaft member provided between the first rotating shaft and the second rotating shaft. And a gear member connecting the interlocking shaft member and the first rotating shaft, the interlocking shaft member, and the second rotating shaft. The method of claim 1,
The pulverized coal supply control unit for the pulverized coal supply control unit for preventing the movement of the pulverized coal is completely blocked. delete The method of claim 1,
The pulverized coal supply control unit of the coal power plant further comprises a wear prevention unit coupled to the rotary shaft member and the throttle member to prevent wear of the rotary shaft member and the throttle plate member. delete delete The method of claim 1, wherein the connecting portion
A rod member coupled to the first rotation shaft or the second rotation shaft; And
A connector hinged to the rod member and coupled to the cylinder rod of the actuator;
Pulverized coal supply control device of a thermal power plant comprising a.

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