KR100660736B1 - The tube type flow boiler having the steam separator - Google Patents

Abstract

Donut-shaped water chamber 111 is filled with water and a through-hole formed in the center,

A plurality of water pipes 116 communicating with the water chamber 111 to warm water;

A boiler body 113 sealed to allow the combustion chamber 112 inside the water chamber 111;

Burner mounting hole 115 is configured in the boiler body 113, the burner 114 is mounted,

Heat retention means formed between the water pipes 116 to retain heat;

       A vapor chamber 118 in communication with the water chamber 111;

In the perfusion boiler (100) in which the water separator is equipped with a water separator (124) is connected to the steam chamber 118 to generate dry steam,

Support plate 119 for supporting the perfusion boiler 100 in which the water separator is embedded,

Located in the receiving plate 119 and the water chamber 111 is open to the center through the upper portion,

Heat-resistant plate 120 to block the downward through the hole of the water chamber 111 to protect the support plate 119 from heat,

A plurality of water pipes 116 fixed to communicate perpendicularly to the water chamber 111 so that the water is heated;

A burner mounting hole 115 provided at the boiler body 113 to enable heating in a direction perpendicular to the water pipe;

A water pipe protection plate 127 positioned in front of the water pipe 116 to protect the water pipes 116 positioned on the opposite side of the burner mounting hole 115;

The water pipe 116 includes a heat guide plate 121 configured to come out between water pipes 116 in a spiral shape in contact with a radially outer wall of the water pipe 116 as a heat retention means,

The heat induction plate 121 is fixed to the top of the heat reflecting downward, the hole is inserted into the water pipe 116 is formed can be fixed to the water pipe 116, and up and down along the rim for the upper discharge of the exhaust gas A heat shield plate 122 having a groove-shaped opening 123 therethrough,

A vapor chamber 118 having the same shape as the water chamber 111 for fixing wet steam to be connected to an upper end of the plurality of water pipes 116 penetrating the heat shield plate 122, and collecting wet steam;

Water separator (124) to be inserted into the through hole of the steam chamber 118,

A water separator tube 126 which communicates with the separator 124 and the vapor chamber 118,

The flue 117 penetrates the center of the radiator 124 and communicates with the combustion chamber 112 to discharge the exhaust gas. Thus, the flue gas can be installed in a narrow place, and high efficiency is possible in the high oil price era.

Perfusion Boiler, Water Separator, Wet Steam, Dry Steam, Castable

Description

Perfusion boiler with a separator of water {The tube type flow boiler having the steam separator}

 1 is a perspective view showing a perfusion boiler to which the prior art is applied

 FIG. 2 is a cross-sectional view taken along the line AA ′ of FIG. 1.

 3 is a cross-sectional view taken along the line B-B 'of FIG.

 Figure 4 is a perspective view showing a once-through boiler with a separator separator applied to the technology of the present invention

 5 is a cross-sectional view taken along the line CC 'of FIG.

 6 is a cross-sectional view taken along the line D-D 'of FIG.

 7 is a cross-sectional view taken along the line E-E 'of FIG.

 Figure 8 is a cross-sectional perspective view showing the bottom of the heat shield plate in the once-through boiler with the separator of the present invention is applied.

 9 is a cross-sectional perspective view showing the upper part of the heat shield plate in the once-through boiler with the radiator separated by the technology of the present invention.

* Description of the symbols used in the main parts of the drawings *

111: water chamber 112: combustion chamber

113: boiler body 115: burner mounting hole

116: water pipe 117: year

118: steam chamber 119: support plate

120: heat-resistant plate 121: heat induction plate

122: heat shield 123: opening

124: water separator 127: water pipe shield

The present invention relates to a perfusion boiler in which a water separator is embedded, and more particularly, to provide a perfusion boiler capable of generating high temperature dry steam, having high thermal efficiency, and having a small installation area.

 In general, the perfusion boiler 10 is a device that generates steam by heating water 30 to be used as thermal energy to heat a room, or used as mechanical energy to operate a turbine.

1 is a perspective view showing a perfusion boiler to which the prior art is applied, FIG. 2 is a cross-sectional view taken along the line AA ′ of FIG. 1, and FIG. 3 is a cross-sectional view taken along the line B-B ′ of FIG. 2. The perfusion boiler 10 will be described with the drawings.

Conventional once-through boiler 10 is provided with a pair of horizontally on both sides of the water chamber 11 having the same shape as the donuts formed in the through-hole at a constant interval, and the outer side of the water chamber 11 is sealed to the combustion chamber ( 15, a boiler body 12 is formed.

A burner mounting hole 13 for mounting a burner 14 for generating a heat source is formed in front of the water chamber 11 located at the front side constituting the boiler body 12, and charged between the water chambers 11. A plurality of water pipes 15 are cylindrically installed in multiple stages so as to communicate with the water chambers 11 so as to heat the water 30 more quickly.

In the case of the once-through boiler 10, heat retention means are provided between the water pipe 16 and the combustion chamber 15 in order to retain the heat heated by the burner 14 to increase the thermal efficiency. A heat induction cylinder 17 is formed in a position close to the burner 14 in the water pipe 16, and a heat induction cylinder 17-1 is formed in a position far from the burner 14 in the outer water pipe 16. It is possible to pass through the entire water pipe 16 in a zigzag manner.

In addition, a steam chamber 19 is connected to the upper portion of the water chamber 11, and a water separator (not shown) is connected to the steam chamber 19 by a pipe (not shown) to be installed externally. Discharge.

In the conventional invention as described above, after filling the water chamber 11 with water 30, the burner 14 is operated to heat the combustion chamber 15, wherein the flame is a heat-inducing cylinder (17, 17). -1) and the water pipe 16 are heated in a direction parallel to the water pipe 16.

At this time, some of the flame and heat is induced to move upward toward the opposite side of the burner 14 by the heat induction cylinder 17 to block the water pipe 16 located inside, the flame and heat moved upward After being guided to the heat induction cylinder 17-1 opposite to the heat induction cylinder 17-1, which is blocked again by the heat induction cylinder 17-1 blocking the outer water pipe 16, the water pipe 16 is located above the outer water pipe 16. Is discharged through the year (18).

In addition, the water 30 inside the water pipe 11 heated by the heat and exhaust gas rises as the wet steam in the steam chamber 19 and is discharged to the steam outlet.

However, in the case of the perfusion boiler 10 to which the conventional technique is applied, the wet steam containing moisture is concentrated and discharged in the steam chamber 19 so that when the wet steam passes the equipment at a high speed, a wire cutting phenomenon occurs due to moisture in the steam. This generation shortens the lifespan of the equipment and, due to the moisture content, reduces the heat exchange rate, resulting in poor thermal efficiency.

Therefore, the above problem can be solved by communicating a water separator (not shown) to the steam chamber 19 through a pipe (not shown) to discharge dry steam. While passing through the heat-sensitive, and the heat-sensitive in the water separator once again, the low temperature dry steam is discharged there is a problem that the thermal efficiency worsens.

In addition, the vapor chamber 19 is attached to and fixed on the upper portion of the perfusion boiler 10, thereby increasing its volume, forming horizontally, and occupying a lot of installation area, and inducing heat cylinders 17, 17- Since the structure of 1) is simple, there is a problem that the retention effect of the heat and the exhaust gas is low, and the residual heat of the exhaust gas discharged through the flue 18 cannot be recycled.

And it is a situation that there is a problem in generating steam quickly by heating horizontally without heating in the perpendicular direction to the water pipe 16 and heating the water pipe 16 across the water chamber 11.

In addition, the water pipes 16 are fixed to only the water chambers 11 provided at both ends thereof, so that the water pipes 16 are not fixed to each other so that the water pipes 16 are bent by high heat or easily separated from the water chambers 11 by external impact.

Therefore, the present invention is invented to solve the above problems, it is possible to generate a high temperature dry steam, to recycle the residual heat discharged to the year, the installation area is small, the heat retention effect is configured to be high It is an object of the present invention to enable the construction of a rigid water pipe, and to realize a more efficient perfusion boiler.

Hereinafter, with reference to the accompanying drawings will be described the configuration, embodiments and effects of the present invention for achieving the above object.

Figure 4 is a perspective view showing a perfusion boiler in which the water separator of the present invention is applied, Figure 5 is a cross-sectional view taken along the line C-C 'of Figure 4, Figure 6 is a line along the line D-D' of FIG. FIG. 7 is a cross-sectional view taken along the line E-E 'of FIG. 5, FIG. 8 is a cross-sectional perspective view showing a lower part of the thermal barrier plate in a once-through boiler with a radiator to which the technique of the present invention is applied. It demonstrates together as a cross-sectional perspective view which shows the upper part of a heat shield plate in the perfusion boiler in which the water separator with which the technique of this invention was applied was integrated.

In general, the perfusion boiler 100 has a shape such as a donut by forming a through-hole in the center thereof, and is provided on both sides of the horizontal to fill the water chamber 111 filled with water and the water chamber 111 outside to seal the combustion chamber 112. A burner mounting hole 115 to which a boiler body 113 to be formed, and a burner 114 for generating a heat source are installed in front of the water chamber 111 located at the front side of the boiler body 113, and the water chamber 111 A plurality of water pipes 116 communicated with the water chambers 111 to heat water between phases, heat retention means provided in the combustion chamber 112 to maintain high efficiency by retaining heat and exhaust gas, and the boiler. The upper portion of the body 113 is connected to the flue 117 configured for exhaust gas discharge, the steam chamber 118 connected to the upper portion of the water chamber 111, and the steam chamber 118 to discharge the dry steam It consists of a separator 124.

 In the present invention, it is possible to generate a high-temperature dry steam by improving the configuration, and to recycle the residual heat discharged to the flue 117, the installation area is small, and the heat retention effect is configured to be high, the rigid water pipe 116 By enabling the configuration of), it is characterized in that the realization of a more efficient perfusion boiler (100).

 To this end, the present invention is to form the boiler body 113 and the water pipe 116 vertically. Therefore, the water is filled on the support plate 119 supporting the present invention and the donut-type water chamber 111 having a through-hole formed in the center is configured so that the through-hole faces upward, and the water pipe 111 is heated with water passing through the water chamber 111. Fix 116 vertically in plural communication. And the lower end of the through-hole of the water chamber 111 constitutes the heat-resistant plate 120 to prevent damage to the support plate 119 due to high heat.

In addition, the water pipe 116 constitutes a heat guide plate 121 in a shape of returning between the water pipes 116 in a spiral shape in contact with a radially outer wall as a heat retention means, by welding to the upper surface of the water chamber 111. The outer end portion 121-1 of the heat induction plate 121 is bent so that the heated exhaust gas passing through the heat induction plate 121 flows backward so as not to heat the combustion chamber 112. ) To make contact with
On the top of the heat induction plate 121 is formed a hole through which the water pipes 116 are fitted to attach the heat shield plate 122 through which the water pipes 116 pass. The heat shield plate 122 has a groove-shaped opening 123 communicating vertically to discharge the rising exhaust gas along a predetermined edge. In the burner mounting hole 115, the exhaust gas is a heat induction plate. In the direction of exiting the 121, the gas is formed between the points at which the heat guide plate 121 ends, so that the exhaust gas exits the heat guide plate 121 and is discharged upward.
After fixing the vapor chamber 118 having the same shape as the water chamber 111 on the top of the water pipe 116 passing through the heat shield plate 122, the water chamber 111 and the steam chamber 118 and the phase are sealed. The combustion chamber 112 is formed between the water chamber 111 and the steam chamber 118 by configuring the boiler body 113.

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The through-hole formed in the middle of the steam chamber 118 separates the wet steam into dry steam and water, and the water separator 124 having the through-hole formed therein is mounted therein, and the flue 117 is provided in the through-hole of the water separator 124. In communication with 112, it is fixed. The water separator 124 and the steam chamber 118 communicate with the water separator tube 126, and the water separator 124 is provided with a steam outlet 125 through which dry steam is discharged.

The boiler body 113 is provided with a burner mounting hole 115 for mounting the burner 114, and a water pipe protection plate 127 for protecting the water pipe 116 located on the opposite side of the burner mounting hole 115 from high heat. This water pipe 116 is provided in the front side.

The heat shield plate 122, the heat induction plate 121, the heat-resistant plate 120, the water pipe protection plate 127 is provided with a heat-resistant material such as castable to prevent damage due to high heat.

According to the present invention, the water chamber 111 is filled with water so that the water is filled up to the upper portion of the water pipe 116, and then the burner 114 is operated to heat the combustion chamber 112. At this time, the flame of the burner 114 directly heats the water pipe 116 at a right angle so that the heat of the flame is conducted to the water flowing inside the water pipe 116.

And the water pipe protection plate 127 is formed on the front side of the water pipe 116 located on the opposite side of the burner mounting hole 115 can prevent damage of the water pipe 116 due to high heat.

Thus, the heat and exhaust gas generated by heating the combustion chamber 112 by the burner 114 are raised to the upper side and then reflected downward by the heat shield plate 122 formed at the upper side. Ascending while passing through the plate 121 is first discharged to the upper portion of the heat shield plate 122 through the opening 123 of the heat shield plate 122, it is completely discharged through the year 117.

At this time, the heat to be discharged and the residual heat of the exhaust gas are almost absorbed by the water pipe 116 by heat retention means composed of the heat shield plate 122 and the heat guide plate 121.

The high-temperature wet steam formed by this heating method is collected into the steam chamber 118, and the dry steam from which water is separated by the water separation pipe 126 is supplied into the water separator 124. And after absorbing all the residual heat of the exhaust gas discharged through the flue 117, it is discharged as a complete dry steam of high heat through the steam outlet (125).

Since the water separator 124 is installed in the through-hole of the steam chamber 118, the heat of the steam chamber 118 is always conducted so that a high temperature state is always maintained, and thus, high temperature dry steam can be generated, resulting in high efficiency. It is possible.

After the vapor chamber 118 is formed to be spaced apart from the upper part of the water chamber 111, the volume is reduced by the configuration communicating with the water pipe 116, and the installation area is reduced by vertically forming the vapor chamber 118.

In addition, the heat retention means by the heat shield plate 122 and the spiral heat induction plate 121 is complicated to enable a long heat retention effect, and the flame of the burner 114 can directly heat the water pipe 116. The heat of the flame can be conducted to the water pipe 116 intact.

In addition, since the flue 117 is mounted in the through hole formed in the center of the water separator 124, the waste heat of the exhaust gas can be completely absorbed, thereby enabling high efficiency.

And even after the burner 114 is stopped, the heat shield plate 122, the heat guide plate 121, the heat resistant plate 120, and the water pipe protecting plate 127 operate the burner 114 again by retaining heat as it is in the nature of the heat resistant material. In this case, the water can be heated quickly.

In addition, the water pipes 116 are fitted to the heat shield plate 122 to be supported, so that the water pipes 116 may be separated from the external shock or bent at high temperatures.

 The present invention as described above requires less installation space by vertically forming as a whole, and it is possible to completely absorb heat of residual heat by retaining heat for a long time by the heat shield plate and the heat induction plate, and the rigid fixing of each water pipe is possible by the heat shield plate. It is possible to generate a high temperature dry steam by the water separator is introduced into the through-hole of the steam chamber, the flue is also configured to be able to absorb the residual heat through the exhaust gas discharged by communicating with the combustion chamber through the inside of the water separator. By realizing a small volume of high efficiency, there is an effect to save energy in the high oil price era.

Claims (3)

Donut-shaped water chamber 111 is filled with water and a through-hole formed in the center, A plurality of water pipes 116 communicating with the water chamber 111 to warm water; A boiler body 113 sealed to allow the combustion chamber 112 inside the water chamber 111; Burner mounting hole 115 is configured in the boiler body 113, the burner 114 is mounted, Heat retention means formed between the water pipes 116 to retain heat; A vapor chamber 118 in communication with the water chamber 111; In the perfusion boiler (100) in which the water separator in which the water separator 124 is connected to the steam chamber 118 and generates dry steam is mounted. Support plate 119 for supporting the perfusion boiler 100 in which the water separator is embedded, Located in the receiving plate 119 and the water chamber 111 is open to the center through the upper portion, Heat-resistant plate 120 to block the downward through the hole of the water chamber 111 to protect the support plate 119 from heat, A plurality of water pipes 116 fixed to communicate perpendicularly to the water chamber 111 and in which water flows; A burner mounting hole 115 provided at the boiler body 113 to enable heating in a direction perpendicular to the water pipe 116; A water pipe protection plate 127 positioned in front of the water pipe 116 to protect the water pipes 116 positioned on the opposite side of the burner mounting hole 115; The water pipe 116 includes a heat guide plate 121 configured to come out between water pipes 116 in a spiral shape in contact with a radially outer wall of the water pipe 116 as a heat retention means, As the heat retention means, the heat guide plate 121 is fixed to an upper end to reflect heat downward, and a hole into which the water pipe 116 is inserted is formed to fix the water pipe 116, and to discharge the upper portion of the exhaust gas. In the burner mounting hole 115 along the rim , the exhaust gas is formed between the end points of the heat induction plate 121 in a direction exiting the heat induction plate 121 and communicates up and down, and has an opening 123 having a groove shape. ) Is formed with a heat shield plate 122, The steam chamber 118 is provided in the same shape as the water chamber 111 to secure the wet steam to communicate with the upper end of the plurality of water pipes 116 through the heat shield plate 122, and Water separator (124) to be inserted into the through hole of the steam chamber 118, A water separator tube 126 which communicates with the separator 124 and the vapor chamber 118, A water flow boiler incorporating a water separator, comprising a flue 117 penetrating the center of the water separator 124 and communicating with the combustion chamber 112 to discharge the exhaust gas.       The method of claim 1, The heat shield plate 122, the heat induction plate 121, the water pipe protection plate 127, the heat-resistant plate 120 is a perfusion boiler in which the separator is embedded, characterized in that configured as a cast. The method of claim 1, The outflow end (121-1) of the heat induction plate 121 is bent in order to block the back flow of the exhaust gas to the boiler body 113, characterized in that configured to contact the boiler body flow through the boiler.

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