KR200445503Y1 - Secondary Air Conditioning Apparatus of boiler - Google Patents

Abstract

The present invention relates to an auxiliary air conditioner of a boiler.

The present invention wraps around the feedback control unit is fixed by the cladding tube fixing member at both ends of the feedback control unit is a feedback control unit cover tube which is stretched or contracted with the linear movement of the feedback control unit; A cylinder shaft sheathing tube wrapped around the cylinder shaft and press-fixed by the sheath fixing member at one end of the cylinder shaft connected to the other end of the feedback connection and by the sheath fixing member of the cylinder to be tensioned or shrunk with linear movement of the cylinder shaft; And as an internal component of the positioner, to provide an auxiliary air conditioning apparatus of the boiler comprising a diaphragm made of a heat-resistant rubber material.

According to the present invention, the corrugated pipe is coated on the cylinder cylinder shaft and the feedback control unit of the auxiliary air conditioner to prevent foreign substances from flowing through the cylinder cylinder shaft and the feedback control unit, and the diaphragm of the heat-resistant rubber is applied to the positioner. There is an effect that can prevent the failure of the positioner and extend the life of the positioner.

Air, conditioning, boiler, positioner, bituminous coal, cylinder

Description

Secondary Air Conditioning Apparatus of boiler

The present invention relates to an auxiliary air conditioning apparatus of a boiler. More particularly, the present invention relates to an auxiliary air conditioner for controlling auxiliary air for burning bituminous coal in a coal bituminous boiler installation.

Usually, the bituminous coal combustion boiler installation installed in a large coal-fired power plant is provided with an auxiliary air regulator for controlling bituminous coal combustion auxiliary air for the complete combustion of bituminous coal.

The conventional auxiliary air conditioner 100 is composed of a positioner 110, a cylinder 120, a cylinder shaft 130, and the like, as shown in Figs. 1 and 2, the air control plate connecting portion attached to the end of the cylinder shaft 130 132 is connected to the air throttle (not shown). Here, the positioner 110 is coupled to the cylinder 120 by the positioner mounting bracket 140.

The positioner 110 attached to the cylinder 120 converts the output current signal (4-20 mADC) indicated by the controller or the like into an air pressure signal (0.2-1.0 Kg / cm 2) to control the cylinder 120 to be controlled. By adjusting the linear movement distance of the cylinder shaft 130 by adjusting, that is, adjusting the opening amount of the air control plate (not shown) connected to the cylinder shaft 130 and at the same time through the feedback connection 114 and the cylinder shaft 130 and The linear movement of the cylinder shaft 130 is stopped at the point where the pulling force of the feedback spring (not shown) installed in the connected feedback adjusting unit 112 and the force generated by the air pressure signal are balanced.

Since the conventional auxiliary air conditioner 100 is installed on the furnace outer wall of the bituminous coal combustion boiler, it is easy to be exposed to foreign substances such as high temperature, ash and dust.

Therefore, in the conventional auxiliary air conditioner 100, as shown in FIGS. 1 and 2, when the cylinder shaft 130 and the feedback control unit 112 are linearly moved and returned to their original state, foreign matter is stored in the cylinder 120 or the positioner ( 110 may be broken into the cylinder 120 and the positioner 110, or a diaphragm (not shown) made of rubber, which is one of the internal components of the positioner 110, may be deformed by a high temperature so that the positioner ( There is a problem that the internal air of 110) leaks to the outside.

On the other hand, in order to check the normal operation of the auxiliary air conditioning device should measure the linear movement distance of the cylinder shaft 130 and the feedback control unit 112, the conventional auxiliary air conditioning device 100 in the cylinder shaft 130 And since the tool for measuring the linear movement distance of the feedback adjustment unit 112 is not attached, there is an inconvenience that the operator must carry the scale directly.

In order to solve the above problems, the present invention covers the corrugated pipe in the cylinder shaft and the feedback connection part to prevent foreign substances such as dust from flowing through the cylinder shaft and the feedback connection part, and to control the auxiliary air by applying the diaphragm of the heat-resistant rubber to the positioner. The object is to provide a device.

In order to achieve the above object, the present invention, while the cylinder is driven by the control of the positioner including a feedback control unit and a feedback connection unit to adjust the opening amount of the air control plate connected to the cylinder shaft, but the feedback connected to one end of the feedback connection unit An auxiliary air regulating device for stopping the linear movement of the cylinder shaft connected to the other end of the feedback connecting portion, wherein the feedback adjusting portion is wrapped around the feedback adjusting portion by pressing the fixed by the cladding pipe fixing member on both ends of the feedback adjusting unit A feedback regulator cladding tube that is tensioned or retracted with movement; A cylinder shaft sheath that is wrapped around the cylinder shaft and is pressed and fixed by the sheath fixing member at one end of the cylinder shaft connected to the other end of the feedback connecting portion and the sheath fixing member of the cylinder, and is tensioned or shrunk with a linear movement of the cylinder shaft. ; And as an internal component of the positioner, it provides an auxiliary air conditioning apparatus of the boiler comprising a diaphragm made of a heat-resistant rubber material.

As described above, according to the present invention, a corrugated pipe is coated on the cylinder shaft and the feedback control unit of the auxiliary air conditioner to prevent foreign substances from flowing through the cylinder shaft and the feedback control unit, and a diaphragm of a heat resistant rubber is applied to the positioner. Therefore, there is an effect that can prevent failure of the cylinder and the positioner and extend the life of the positioner.

In addition, according to the present invention, by adding a linear movement distance measuring unit that can measure the linear movement distance of the cylinder shaft and the feedback control unit to the auxiliary air conditioning device, without the operator carrying a scale (Scale) There is an effect that can measure the distance traveled.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related known configuration or function may obscure the subject matter of the present invention, the detailed description thereof will be omitted.

3 is a side view of the auxiliary air conditioner according to the embodiment of the present invention.

Auxiliary air conditioning apparatus 300 according to an embodiment of the present invention is a positioner 310, feedback control unit covering tube 320, cylinder 330, cylinder shaft 340, cylinder shaft covering tube 350, linear movement distance measurement A part 360, the cladding tube fixing member 370, and the positioner attachment bracket 380 are included. Here, the auxiliary air conditioning apparatus 300 is controlled by the positioner 310, the cylinder 330 is driven to adjust the opening amount of the air control plate (not shown) connected to the cylinder shaft 340, but included in the positioner 310 Feedback control unit 314 stops the linear movement of the cylinder shaft 340 through the feedback connection 316.

The positioner 310 includes a gauge 312, a feedback regulator 314, a feedback connector 316, and a diaphragm (not shown), and outputs an air pressure signal output by a controller (not shown). The linear movement distance of the cylinder shaft 340 is variably adjusted by driving the cylinder 330 to be controlled by converting the signal into a signal.

The feedback adjuster 314 is connected to the cylinder shaft 130 through the feedback connector 316, and the pulling force and air pressure of the feedback spring (not shown) installed inside the feedback adjuster 314 when the cylinder 330 is driven. The linear movement of the cylinder shaft 340 is stopped at the point where the force generated by the signal is balanced.

One end of the feedback connector 316 is connected to the feedback regulator 314, and the other end is connected to the cylinder shaft 340.

The diaphragm (not shown) is one of the internal components of the positioner 310.

In the present invention, the diaphragm (not shown) is made of a heat resistant rubber material. Therefore, deformation by high temperature does not occur.

The feedback adjusting part covering pipe 320 and the cylinder shaft covering pipe 350 are corrugated pipes made of a heat resistant rubber material. Here, the heat resistant rubber material includes a fluorine rubber material and a silicone rubber material.

The feedback adjusting part sheathing tube 320 is wrapped around the feedback adjusting part 314, and is fixed by pressing and fixing the sheathing fixing member 370 such as a clamp at both ends of the feedback adjusting part 314.

Feedback control part fixed by the cladding tube fixing member 370 320 is stretched or contracted with the linear movement of the feedback control unit 314. In other words, when the feedback adjusting unit 314 is stretched by the driving of the cylinder 330 as shown in FIG. 5, the feedback adjusting unit sheathing tube 320 is also stretched together, and the feedback adjusting unit 314 is returned to its original state (FIG. 3). When it returns, the feedback control unit sheath 320 is also contracted with it.

The cylinder shaft sheath 350 is wrapped at the end of the cylinder shaft 340 and the one end of the cylinder shaft 340 connected to the other end of the feedback connection 316 and the cylinder shaft sheath 350 is fixed at the sheath fixed portion of the cylinder 330. It is crimped and fixed by the cladding tube fixing member 370.

The cylinder shaft cladding tube 350 fixed by the cladding tube fixing member 370 is tensioned or contracted together with the cylinder shaft 340 during the entry and exit operation of the cylinder shaft 340. In other words, when the cylinder shaft 340 advances to the outside of the cylinder 330 by the driving of the cylinder 330 as shown in FIG. 5, the cylinder shaft covering pipe 350 is also tensioned with the cylinder shaft 340 in its original state (FIG. 3). Returning to), the cylinder shaft sheathing tube 350 is also contracted with it.

As described above, the feedback adjusting part covering tube 320 and the cylinder shaft covering tube 350 are wrapped around the feedback adjusting unit 314 and the cylinder shaft 340 and are fixed by pressing by the covering tube fixing member 370. When the control unit 314 moves linearly and returns to its original state, foreign matters are blocked from flowing into the cylinder 330 or the positioner 310.

The linear movement distance measuring unit (Scale) 360 is capable of linear movement and the scale portion 262 marked with a scale for measuring the linear movement distance of the cylinder shaft 340 and the feedback control unit 314 as shown in FIG. One end is coupled to the feedback connection portion 316 and the other end includes a linear moving portion 366 is attached to the indicator 364 indicating the graduation of the graduation portion 362, the positioner 310 is attached to the cylinder 330 Positioner is attached to the bracket for mounting (380). In more detail, the positioner 310 is installed on the positioner attaching surface, which is a surface attached to the positioner attaching bracket 380.

Here, it is preferable that the scale of the scale part 362 is 1 mm unit, and the length of the scale part 362 is 12 cm-20 cm. In addition, the length of the linear moving portion 366 is preferably 2 cm to 4 cm longer than the length of the scale 362.

The linear movement distance measuring unit 360 is linearly connected to the feedback connection unit 316 once the cylinder shaft 340 and the feedback adjusting unit 314 stop at a predetermined distance due to the movement of the cylinder as shown in FIG. 5. The moving unit 366 also moves linearly together with the cylinder shaft 340 and the feedback adjusting unit 314 to stop at a predetermined distance. At this time, the indicator 364 attached to the other end of the linear moving part 366 has a certain distance that the linear moving part 366 linearly moves from the scale part 362, that is, the cylinder shaft 340 and the feedback adjusting part 314. Indicate the scale corresponding to the distance of linear movement of).

Therefore, the operator can measure the linear movement distance of the cylinder shaft 340 and the feedback control unit 314 without carrying a scale (Scale).

Meanwhile, in FIGS. 3 to 5, the linear air movement distance measuring unit 360 is limited to the auxiliary air conditioner 300. However, when the present invention is actually applied, the linear air movement distance measuring unit 360 is described. May be selectively installed in the auxiliary air conditioner 300. In other words, the linear movement distance measuring unit 360 may be installed or not installed in the auxiliary air adjusting device 300 according to the manufacturer's arbitrary.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention belongs may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas falling within the scope of the present invention should be interpreted as being included in the scope of the present invention.

1 is a view showing the side of a conventional auxiliary air conditioner,

2 is a view showing a linear movement of the cylinder shaft and the feedback control unit in the conventional auxiliary air conditioner,

3 is a front view of the auxiliary air conditioner according to the embodiment of the present invention,

4 is a plan view of the auxiliary air conditioning apparatus according to an embodiment of the present invention,

5 is a view showing a linear movement of the cylinder shaft and the feedback control unit in the auxiliary air conditioning apparatus according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: conventional auxiliary air conditioner 110, 310: positioner

112, 314: feedback adjusting section 114, 316: feedback connecting section

120, 330: cylinder 130, 340: cylinder shaft

132: air control panel connection 140, 380: positioner mounting bracket

312: gauge 320: feedback control unit sheath

350: cylinder shaft cover pipe 360: linear travel distance measuring unit

362: graduation 364: indicator

366: linear moving part 370: cladding tube fixing member

Claims (5)

The cylinder is driven by control of a positioner including a feedback adjuster and a feedback connector to adjust an opening amount of an air control plate connected to the cylinder shaft, wherein the feedback regulator connected to one end of the feedback connector is connected to the other end of the feedback connector. In the auxiliary air conditioner to stop the linear movement of the shaft, A feedback adjusting unit covering tube wrapped around the feedback adjusting unit, and fixedly compressed by a covering tube fixing member at both ends of the feedback adjusting unit to be stretched or shrunk with a linear movement of the feedback adjusting unit; A cylinder shaft sheath that is wrapped around the cylinder shaft and is pressed and fixed by the sheath fixing member at one end of the cylinder shaft connected to the other end of the feedback connecting portion and the sheath fixing member of the cylinder, and is tensioned or shrunk with a linear movement of the cylinder shaft. ; As an internal component of the positioner, a diaphragm made of a heat-resistant rubber material; And A scale marked with a scale for measuring the linear movement distance of the cylinder shaft and the feedback adjuster and a linear movement is possible, but one end is coupled to the feedback connection portion and the other end is a linear movement portion having an indicator indicating the scale of the scale portion. And a linear movement distance measuring unit installed in a positioner attaching bracket for attaching the positioner to the cylinder. Auxiliary air conditioning device of the boiler comprising a. The method of claim 1, The feedback control unit covering pipe and the cylinder shaft covering pipe are auxiliary air conditioning apparatus of the boiler, characterized in that the corrugated pipe of the heat-resistant rubber material. The method of claim 1, The heat-resistant rubber material is a secondary air conditioner of the boiler, characterized in that the fluorine rubber material and silicon rubber material. delete The method of claim 1, The scale of the scale portion is auxiliary air conditioning apparatus of the boiler, characterized in that 1mm units.

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