KR101932682B1 - Steam boiler of multi-pipe type - Google Patents

Abstract

The present invention relates to a multi-tubular steam boiler for connecting high quality steam and a steam temperature by connecting a consistent water tube to upper and lower headers in a symmetrical manner by forming a combustion chamber by opening a part of the water tube in a circular shape, A lower header 110 having a plurality of connection holes 111 formed in two rows; The water tube 120 is connected to the lower header 110 at one side and connected to the upper header 130. The water tube 120 is connected at the other side to the upper header 130, ; An upper header 130 connected to the other side of the water pipe 120 and having a plurality of connection holes 131 formed in two rows and having a steam outlet 132; A first rectilinear section 141 and a combustion chamber 151 are formed from the bottom by the arrangement of the water pipe 120. The first rectilinear section 141 and the combustion chamber 151 are formed A case portion 140 divided into a curved portion 142 and a second rectilinear portion 143; A burner 150 installed at one side of the curved portion 142 of the case part 140 and emitting a flame into the combustion chamber 151; A refractor 160 connected to a rear end of the case part 140 to suck high temperature exhaust gas generated in the combustion chamber 151 to heat the charged water into the lower header 110; And a feed pump 170 for injecting and supplying water into the cutlery 160.

Description

 STEAM BOILER OF MULTI-PIPE TYPE "

The present invention relates to a multi-tubular steam boiler, and more particularly, to a multi-tubular steam boiler, and more particularly, to a multi-tubular steam boiler, and more particularly to a multi-tubular steam boiler wherein a coherent water tube is horizontally symmetrically connected to upper and lower headers, a part of the water tube is circularly opened to form a combustion chamber, It relates to a multi-tubular steam boiler.

Steam boilers such as the well-known steam boiler are a superheated steam boiler that generates ideal gas (steam) with high heat without water by raising the temperature only by using reheating or superheater at a certain pressure, There is a saturated steam boiler in which the temperature is raised.

Here, saturated steam refers to steam containing moisture and moisture.

First, in the case of the superheated steam boiler, a superheater or a reheater using radiant heat or exhaust heat is installed, which causes problems such as installation cost, piping loss, installation area, and efficiency.

Recently, a heating medium boiler has been introduced as a substitute for the superheated steam boiler, which is to heat the boiler to a heating medium and raise the temperature by 300 ° C or more. However, there is a problem that the above-mentioned heating medium boiler has a burden of installation cost and a risk of fire when leaking heat medium.

In the meantime, the saturated steam boiler is mostly a multi-tubular type boiler. It is characterized in that steam is absorbed in the vertical tube to generate steam independently from each water tube.

However, since the saturated steam boiler does not have a sufficient heat absorption time due to the limitation of the height, the steam generates a steam containing a considerable amount of water, which is not suitable for a high-quality steam using place.

Patent Document 10-2000-0080238, Patent Document 10-2009-0105155

SUMMARY OF THE INVENTION The present invention has been made under the above-mentioned circumstances, and an object of the present invention is to provide a method and apparatus for connecting a water tube, which is consistent in the vertical and vertical directions, symmetrically to each other, A steam boiler is provided.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided a portable terminal comprising: a lower header connected to one side of a water pipe; A water pipe connected to the lower header, one end connected to the lower header, and the other end connected to the upper header; An upper header to which the other side of the water tube is connected and in which a plurality of connection holes are formed in two rows and a steam outlet is formed; A case portion which is installed to surround a water pipe between the lower header and the upper header and is divided into a curved portion and a second straight portion in which a first linear portion, a combustion chamber, and a curved portion are formed from below according to the arrangement of the water pipes; A burner mounted on one side of the curved portion of the case portion to emit a flame into the combustion chamber; A sucker for sucking high-temperature exhaust gas generated in the combustion chamber connected to a rear end of the case portion to supply heated water to the lower header; And a water supply pump for injecting and supplying water to the inside of the rubber cutter.

According to the present invention, the water pipe is formed with wings on both sides.

According to another aspect of the present invention, there is provided a portable terminal comprising: a lower header connected to one side of a water pipe and having a plurality of connection holes formed in two rows; A water pipe connected to the lower header and connected to the upper header, the lower and upper parts forming a first combustion chamber and a second combustion chamber being circular; An upper header to which the other side of the water tube is connected and in which a plurality of connection holes are formed in two rows and a steam outlet is formed; A first curved portion, a second straight line portion, and a second combustion chamber are formed from below to form a first straight line portion and a first combustion chamber from the bottom depending on the arrangement shape of the water tube A second curved portion, and a third straight portion; A first burner mounted on one side of the first curved portion of the case portion to emit a flame into the first combustion chamber; A second burner mounted on one side of the second curved portion of the case portion to emit a flame into the second combustion chamber; A first burner connected to a rear end of the case part to suck high temperature exhaust gas generated in the first combustion chamber to heat the water filled therein to supply the heated water to the lower header; A second burner connected to a rear end of the case part to suck high-temperature exhaust gas generated in the second combustion chamber to heat the charged water therein and supply the heated water to the first burner; And a water feed pump for injecting and supplying water into the first foraminous barrel.

According to another aspect of the present invention, there is further provided a heat insulating material inside the second linear portion between the first combustion chamber and the second combustion chamber.

As described above, according to the present invention, a consistent water tube is connected symmetrically to upper and lower headers, and a part of the water tube is circularly opened to form a combustion chamber, thereby providing a high quality steam supply and a steam temperature.

1 is a schematic front view of a multi-tubular steam boiler according to a first embodiment of the present invention;
FIG. 2 is a schematic side view of a multi-tubular steam boiler according to a first embodiment of the present invention;
FIG. 3 is an external configuration diagram of the multi-tubular steam boiler according to the first embodiment of the present invention,
FIG. 4 is a structural view of an internal water pipe and upper and lower headers of the multi-tubular steam boiler according to the first embodiment of the present invention,
FIG. 5 is a schematic front view of a multi-tubular steam boiler according to a second embodiment of the present invention. FIG.
FIG. 6 is a schematic side view of a multi-tubular steam boiler according to a second embodiment of the present invention. FIG.
FIG. 7 is an external configuration diagram of a multi-tubular steam boiler according to a second embodiment of the present invention;
8 is a structural view of the inner water pipe and the upper and lower headers of the multi-tubular steam boiler according to the third embodiment of the present invention,
FIG. 9 is a schematic front view of a multi-tubular steam boiler according to a third embodiment of the present invention. FIG.
10 is a cross-sectional view of a water tube according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

FIG. 1 is a schematic front view of a multi-tubular steam boiler according to a first embodiment of the present invention, FIG. 2 is a schematic side view, and FIG. 3 is an external view.

As shown in the figure, the multi-tubular steam boiler 100 according to the first embodiment of the present invention includes:

And includes a lower header 110, a water pipe 120, an upper header 130, a case 140, a burner 150, a cutlery 160, a feed pump 170, and a base 180.

3, the lower header 110 is connected to one side of the water tube 120. The lower header 110 has a plurality of connection holes 111 formed in two rows, To supply the water.

The water tubes 120 are symmetrically arranged in two rows. The water tubes 120 are formed in a circular shape in a lower part where the combustion chamber 151 is formed, one side is connected to the lower header 110, the other side is connected to the upper header 130 .

The water tube 120 is heated in the combustion chamber 151 to generate steam, and the generated steam is sent to the upper header 130.

10, a water pipe 120 and a water pipe 120 are welded and fixed to each other by a connection plate 121 so that the heat does not escape to the outside, and the water pipe 120 3-4 (122) is mounted on only one of the blade pieces (122) to discharge the combustion gas into the space between the blade pieces (122).

As shown in FIG. 3, the upper header 130 is connected to the other side of the water pipe 120. The upper header 130 has a plurality of connection holes 131 formed in two rows, and a steam outlet 132 is formed upward.

The upper header 130 collects steam supplied from a plurality of water pipes 120 connected to the upper header 130 and discharges the steam to the outside through the steam outlet 132.

The case 140 is installed to enclose the water pipe 120 between the lower header 110 and the upper header 130 and performs a gas shutoff function. Depending on the arrangement of the water pipe 120, The first rectilinear section 141 and the second rectilinear section 143 in which the combustion chamber 151 is formed.

The burner 150 is mounted on one side of the curved portion 142 of the case 140 to radiate flame into the combustion chamber 151 to heat the water filled in the water tube 120.

The cutlery 160 is connected to the rear end of the case part 140 to absorb the high temperature exhaust gas generated in the combustion chamber 151 to heat the water charged therein, To the outside.

The water pump 170 absorbs external water through a water supply pipe 171 and injects the water into the waterproofing unit 160 through a connection pipe 172. The waterproofing unit 160 absorbs water To the lower header (110) through a connector (173).

The operation of the multi-tubular steam boiler according to the first embodiment of the present invention will be described below.

First, when the water supply pump 170 is driven, water is supplied through the water supply pipe 171, and the water is supplied to the waterproofing unit 160 through the connection pipe 172.

The water supplied to the cutlery 160 is supplied to the lower header 110 through the connection pipe 173 and the water supplied to the lower header 110 is supplied to the water pipe 120 by water pressure, The water supplied to the water pipe reaches the water level position L1 as shown in FIG. 1 by the pressure control of the water level meter 110.

When the boiler is ready to be operated, the burner 150 is driven.

When the combustion chamber 151 is heated by the driving of the burner 150, the water in the water tube 120 located in the combustion chamber 151 starts to be heated.

At the same time, the high-temperature combustion gas generated in the combustion chamber 151 slowly escapes through the gap between the blades 122 of the water tube 120 formed at one side, so that the heating efficiency is raised. The water is introduced into the absorbent unit 160 through the first rectilinear section 141 and the second rectilinear section 143 where the water pipe 120 is located and discharged through the flue 145 to the outside.

The cutlery 160 heats the water conveyed to the lower header 173 by being heated while passing through the high-temperature combustion gas.

Accordingly, the temperature of the water supplied to the water pipe 120 through the lower header 110 is increased, so that water in the water pipe 120 can be vaporized more quickly in the combustion chamber 151.

The water in the water pipe 120 is heated and converted into steam, and the converted steam is supplied to the outside through the steam outlet 132 after proceeding to the upper header 130.

FIG. 5 is a schematic front view of a multi-tubular steam boiler according to a second embodiment of the present invention, FIG. 6 is a schematic side view of a multi-tubular steam boiler according to a second embodiment of the present invention, FIG. 2 is an external configuration diagram of a multi-tubular steam boiler according to a second embodiment of the present invention.

As shown in the figure, the multi-tubular steam boiler 200 according to the second embodiment of the present invention includes:

The lower header 210, the water pipe 220, the upper header 230, the case 240, the first burner 251, the second burner 252, the first extruder 261, 262, a water supply pump 270, and a base unit 280.

8, the lower header 210 is connected to one side of the water tube 220. The lower header 210 has a plurality of connection holes 211 formed in two rows, To supply the water.

The water tubes 220 are symmetrically arranged in two lines. The lower and upper portions of the first and second combustion chambers 251a and 252a are circular, And the other side is connected to the upper header 230.

In addition, the water tube 220 is heated in the first combustion chamber 251a to generate steam. In the second combustion chamber 252a, the introduced steam is heated to raise the temperature and sent to the upper header 230.

10, the water pipe 220 and the water pipe 220 are welded and fixed to each other by a connecting plate 221 so that the heat does not escape to the outside, and the water pipe 220 3-4 And the combustion gas is discharged into the space between the blades 222 by mounting the blades 222 on only the blades 222.

8, the upper header 230 is connected to the other side of the water pipe 220. The upper header 230 has a plurality of connection holes 231 formed in two rows and a steam outlet 232 formed upward.

The upper header 230 collects high-temperature steam supplied from a plurality of water pipes 220 connected to the upper header 230 and discharges the steam to the outside through the steam outlet 232.

The case part 240 is installed to enclose the water pipe 220 between the lower header 210 and the upper header 230 and performs a gas shutoff function. Depending on the arrangement shape of the water pipe 220, A first curved portion 242 in which the first combustion chamber 251a is formed, a second rectilinear portion 243, a second curved portion 244 in which the second combustion chamber 252a is formed, 3 rectilinear section 245 as shown in Fig.

The first burner 251 is attached to one side of the first curved portion 242 of the case part 240 and emits a flame into the first combustion chamber 151a to heat the water filled in the water pipe 220.

The second burner 252 is mounted on one side of the second curved portion 244 of the case portion 240 to radiate a flame into the second combustion chamber 152a to further heat the steam charged in the water tube 220 .

A heat insulating material 247 is installed in the second linear portion 243 between the first combustion chamber 151a and the second combustion chamber 152a so that the first combustion chamber 151a and the second combustion chamber 152a are independent of each other In function.

The first extruder 161 is connected to the rear end of the case part 240 to suck the high temperature exhaust gas generated in the first combustion chamber 251a to heat the charged water therein, (246).

The second extruder 162 is connected to the rear end of the case part 240 to suck the high temperature exhaust gas generated in the second combustion chamber 252a to heat the charged water therein, (246).

The water pump 270 absorbs the external water through the water supply pipe 271 and injects the water into the second absorbent unit 162 through the connection pipe 272. The second absorbent unit 162 And the charged water is injected into the first waste ister 161 through the connection pipe 273. The first waste isolator 161 is connected to the lower header 210 through the connection pipe 274. [ .

The operation of the multi-tubular steam boiler according to the second embodiment of the present invention will be described below.

First, when the water supply pump 270 is driven, water is supplied through the water supply pipe 271, and the water is supplied to the second absorbent unit 262 through the connection pipe 272.

The water supplied to the second extruder 162 is supplied to the first extruder 161 through the connection pipe 273 and the water supplied to the first extruder 161 is supplied to the connection pipe 274, The water supplied to the lower header 210 is supplied to the water pipe 220 by water pressure and the water supplied to the water pipe 220 is supplied to the lower header 210 via the water level meter 210 To reach the water level position L2, i.e., the second rectilinear section 24 as shown in Fig.

When the boiler is ready to be operated, the first burner 251 and the second burner 262 are driven.

When the first burner 251 is driven to heat the first combustion chamber 251a, water in the water pipe 220 located in the first combustion chamber 251a starts to be heated.

At the same time, the high-temperature combustion gas generated in the first combustion chamber 251a slowly escapes through the gap between the blades 222 of the water tube 220 formed at one side, so that the heating efficiency is raised, The first rectilinear section 161 is introduced into the first rectilinear section 161 through the first rectilinear section 241 and the second rectilinear section 243 where the water pipe 220 is located.

The first extruder 261 is heated while passing through the high-temperature combustion gas to heat the water conveyed to the lower header 210.

In the first combustion chamber 251a, water inside the water tube 220 is heated and converted into steam, and the converted steam enters the second combustion chamber 252a by riding on the water tube 220.

When the second burner 252 is driven to heat the second combustion chamber 252a, the steam inside the water pipe 220 located in the second combustion chamber 252a starts to be heated.

At the same time, the high-temperature combustion gas generated in the second combustion chamber 252a slowly escapes through the gap between the blades 222 of the water tube 220 formed on one side, so that the heating efficiency is raised, The water is introduced into the second economizer 162 through the third rectilinear section 243 and the fifth rectilinear section 245 where the water pipe 220 is located as shown in FIG.

The second extruder 262 is heated while passing through the high-temperature combustion gas to heat the water conveyed to the first extruder 261.

The first and second extruders 261 and 262 increase the temperature of the water supplied to the water pipe 220 through the lower header 210 to increase the temperature of the water pipe 220 in the first combustion chamber 251, Allowing the internal water to be vaporized more quickly.

Accordingly, the steam generated in the water pipe 220 of the second combustion chamber 252a is supplied to the outside through the steam outlet 232 after proceeding to the upper header 230.

The first combustion chamber 251a controls on and off the first burner 251 according to the set pressure and the second combustion chamber 252a controls the second burner 252 to be turned on and off Respectively.

9 is a schematic front view of a multi-tubular steam boiler according to a third embodiment of the present invention.

As shown in the figure, the multi-tubular steam boiler 300 according to the third embodiment of the present invention includes:

The fifth straight line portion 335 is extended upward and the position of the water level meter 312 constituted by the lower header 310 through the connection pipe 311 is And reaches the position L3 of the water pipe 320 at the fifth linear portion 335 of the case portion 340 so that the first combustion chamber 351a and the second combustion chamber 352a are selectively controlled when the steam is generated, So that the load can be adjusted.

Load control of 25%, 50%, 75%, and 100% is possible by controlling the two-contact burner of the first combustion chamber 351a and the second combustion chamber 352a.

100, 200, 300: Steam boiler 110, 210, 310: Lower header
120,220,330: Water tube 130,230,330: Top header
140, 240, 340: case part 150: burner
251,351: First burner 252,352: Second burner
260: Buddhist scripture 261,361:
262,362: Section 2: Entrainment 170,270,370: Feed pump

Claims (5)

delete delete A lower header 210 to which one side of the water tube 220 is connected and in which a plurality of connection holes 211 are formed in two lines;
The lower and upper portions of the first combustion chamber 251a and the second combustion chamber 252a are formed to have a circular shape, one side is connected to the lower header 210, the other side is connected to the upper side A water pipe 220 connected to the header 230;
An upper header 230 connected to the other side of the water pipe 220 and having a plurality of connection holes 231 formed in two rows and having a steam outlet 232;
A first linear portion 241 and a first combustion chamber 251a are formed from the bottom depending on the arrangement of the water pipe 220. The first linear portion 241, A second curved portion 244 and a third rectilinear portion 245 formed by the first curved portion 242, the second rectilinear portion 243, the second combustion chamber 252a, 240);
A first burner 251 mounted on one side of the first curved portion 242 of the case 240 to emit a flame into the first combustion chamber 251a;
A second burner 252 attached to one side of the second curved portion 244 of the case part 240 and emitting a flame into the second combustion chamber 252a;
A first absorber 261 which is connected to the rear end of the case part 240 and sucks a high temperature exhaust gas generated in the first combustion chamber 251a to supply the heated water to the lower header 210, ;
A second absorber (not shown) connected to the rear end of the case part 240 for sucking the high-temperature exhaust gas generated in the second combustion chamber 252a to heat the water filled therein and supplying the heated water to the first absorber 261 262);
And a water supply pump (270) for injecting and supplying water into the second extruder (262)
The water pipe 220 and the water pipe 220 are welded and fixed by a connecting plate 221 so that the heat is not seized to the outside, but the blade piece 222 is attached to only three to four water pipes 220 And the combustion gas is discharged into a space between the blade pieces (222).
delete The method of claim 3,
Wherein a heat insulating material (247) is further formed in the second linear portion (243) between the first combustion chamber (251a) and the second combustion chamber (252a).

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