KR101304095B1 - Water Tube Steam Boiler Using Wood Pellet - Google Patents

Abstract

The present invention relates to a water pipe steam boiler using wood pellets, and more particularly, a plurality of water pipes are heated through heat energy generated by burning wood pellets, and boiler water flowing in the water pipe as steam ( The present invention relates to a water pipe steam boiler using wood pellets having a structure which is supplied to the outside by changing.
According to the present invention, the front water pipe block, the front surface of the bent plurality of front water pipes connected to the top and the bottom connected to the pair of water pipe headers located at the top and bottom in a horizontally spaced interval spaced horizontally without a space by the sealing plate, the front A pair of side water pipe blocks are installed on both sides of the water pipe block while being kept airtight, and a plurality of straight water pipes connected at the top and bottom to a pair of water pipe headers located at the top and the bottom thereof without space by a sealing plate, A main body configured of a rear water pipe block installed in a state of maintaining airtightness at a rear side of the front water pipe block and a rear end of the side water pipe block; A grate installed horizontally in a lower portion of the main body to form a plurality of through holes for partitioning the combustion chamber; A pellet injection device installed through the upper portion of the main body; A reloading device installed at a lower portion of the main body; An air injection device installed under the grate and under the combustion chamber; A water tube steam boiler is provided using wood pellets consisting of an ignition device installed at the bottom of the combustion chamber.

Description

Water Tube Steam Boiler Using Wood Pellet}

The present invention relates to a water pipe steam boiler using wood pellets, and more particularly, a plurality of water pipes are heated through heat energy generated by burning wood pellets, and boiler water flowing in the water pipe as steam ( The present invention relates to a water pipe steam boiler using wood pellets having a structure which is supplied to the outside by changing.

Generally, wood pellets are clean wood-based biofuels produced in a certain size by crushing wood products from forests or wood by-products from sawmills and then compressing them with high temperature and pressure.

In particular, it can be used for various purposes such as home heating, public buildings, industrial facilities, cogeneration, etc. to supply economical clean energy to consumers.

Wood pellet boilers using such wood pellets as fuels are widely used because they can produce high calories and low fuel costs.

Wherein the wood pellet boiler is a combustion chamber is formed by a grate installed horizontally therein, the main body is provided with a water tank filled with boiler water along the wall surface of the combustion chamber; A fuel inlet communicating with the combustion chamber through an outer side of the main body; A ignition device installed inside the main body; An air injection device installed through the outside from the outside of the main body; It is installed in the lower part of the main body and consists of a reloading device communicating with the combustion chamber through the grate. Conventional wood pellet boilers are shown in Korean Patent Registration No. 10-0975098 (2010.08.04) and Korean Patent Registration No. 10-1014767 (2011.02.08).

However, the conventional pellet boiler has a structure in which the boiler water filled in the water tank is heated by the heat energy generated in the combustion chamber, so that it takes a long time to heat the boiler water and the temperature at which the boiler water phase changes into steam. There was a problem that cannot be formed in a short time.

In other words, the heat energy generated through the combustion of the wood pellets was insufficient to generate steam corresponding to the total quantity of boiler water filled in the water tank.

In order to solve this problem, when steam is produced by increasing the capacity of the boiler, not only excessive consumption of fuel is generated for steam generation, but also a problem that the facility cost and manufacturing time of the boiler are simultaneously increased.

In addition, as the water tank has a structure in which a certain amount of water is stored, the overall change of the boiler is made when the capacity is changed according to the customer's request, and thus the design of the boiler was not easy.

In addition, when the wood pellets are introduced into the combustion chamber through the fuel inlet, the wood pellets are not expanded to correspond to the width of the grate, but the surface area of the wood pellets is reduced as they are stacked at a predetermined height, so that the air is easily injected into the combustion chamber. There was a problem that can not react efficiently because of the failure to react.

Therefore, the present invention can effectively and quickly generate steam, to solve the above-mentioned conventional problems, can easily perform the design and change of design, effectively induce the combustion of wood pellets, It is an object of the present invention to provide a water pipe steam boiler using wood pellets which enables efficient operation of thermal energy generated during combustion.

The present invention has been invented to solve the above problems, a plurality of curved front water pipes are connected to the top and bottom of the pair of water pipe headers located at the top and bottom in a state spaced horizontally spaced apart in a closed plate The front water pipe block is installed side by side without space by the airtight block and the air pipe block is installed in a state of maintaining airtightness. A main body consisting of a pair of side water pipe blocks installed side by side without a rear side of the front water pipe block and a rear water pipe block installed in a state of maintaining airtightness at the rear end of the front water pipe block; A grate installed horizontally in a lower portion of the main body to form a plurality of through holes for partitioning the combustion chamber; A pellet injection device installed through the upper portion of the main body; A reloading device installed at a lower portion of the main body; An air injection device installed under the grate and under the combustion chamber; Provided is a water pipe steam boiler using wood pellets composed of an ignition device installed at the bottom of the combustion chamber.

The present invention can not only produce the steam quickly but also facilitate the waste heat recovery through the structure that increases the residual time of the combustion gas, the thermal efficiency is increased, it is easy to change the design and design, the production time is shortened Productivity is increased, the combustion process of wood pellets is effectively induced, and there is an effect of simplifying the manufacturing and airtight test.

1 is a side cross-sectional view showing an embodiment of the present invention.
2 is a front view showing an embodiment of the present invention.
3 is a top plan view showing an embodiment of the present invention.
Figure 4 is a perspective view showing a front water pipe block constituting an embodiment of the present invention.
Figure 5 is a perspective view showing a side water pipe block constituting an embodiment of the present invention.
Figure 6 is a perspective view showing a rear water pipe block constituting an embodiment of the present invention.
Figure 7 is a front view showing the separation state of the front water pipe block and side water pipe block and grate and the receiving device constituting an embodiment of the present invention.
Figure 8 is a side view showing the separation state of the front water pipe block and rear water pipe block and grate and the receiving device constituting an embodiment of the present invention.
9 is an enlarged view showing a pellet injection device constituting an embodiment of the present invention.
Figure 10 is a side cross-sectional view of the side water pipe block and back water pipe block constituting an embodiment of the present invention.
Figure 11 is a side view showing another structure of the rear water pipe block constituting an embodiment of the present invention.
12 is a perspective view showing a vibrator and grate constituting an embodiment of the present invention.
FIG. 13 is a perspective view illustrating a state in which the transmission and the grate of FIG. 12 are extended.
14 is a perspective view showing a reloading device constituting an embodiment of the present invention.
FIG. 15 is a perspective view illustrating a state in which the receiving device of FIG. 14 is extended; FIG.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Water pipe steam boiler 100 using the wood pellet of the present invention, as shown in Figures 1 to 3, a pair of water pipe header (1) (1) located at the top and bottom spaced apart horizontally spaced intervals (1) A plurality of curved front water pipes (2) having upper and lower ends connected to the `) are hermetically maintained at both sides of the front water pipe block 4 and the front water pipe block 4 installed side by side without a space by the sealing plate 3. A pair of straight water pipes 5 installed in a state and connected to a pair of water pipe headers 1 and 1 ′ which are positioned at an upper side and a lower side thereof with a top and a bottom connected to each other without space by a sealing plate 3 are provided. A main body consisting of a side water pipe block 6, a rear water pipe block installed in a state of maintaining airtightness at a rear side of the front water pipe block 4 and a rear end of the side water pipe block 6; A grate 8 horizontally installed at a lower portion of the main body to form a plurality of through holes for partitioning the combustion chamber 7; A pellet injection device 9 penetrating the upper portion of the main body; A receiving device 10 installed at a lower portion of the main body; An air injection device installed in the lower part of the grate 8 and the lower part of the combustion chamber 7; It consists of the ignition apparatus 11 installed in the lower part of the combustion chamber 7.

Body materials openings 36 which are opened and closed by caps are respectively installed at both sides of the main body so as to correspond to positions corresponding to the ends of the rear water pipe blocks.

The rear water pipe block, as shown in Figure 1 or 6 or 8, is installed in the airtight state in the rear side of the front water pipe block 4 and the rear end of the side water pipe block (6), and A plurality of straight water pipes 5 having upper and lower ends connected to a pair of water pipe headers 1 and 1 ′ disposed at the lower side thereof are installed side by side without space by a sealing plate 3, and a sealing plate 3 at the top thereof. A first rear block 13 having a first through hole 12 formed therethrough; It is installed on the rear side of the first rear block 13 in a state of airtight to form a first combustion gas chamber 14, the top and bottom in a pair of water pipe header (1) (1`) located at the top and bottom The second plurality of straight water pipes 5 connected to each other are installed side by side without a space by the sealing plate 3, and a second rear block 16 having a second through hole 15 penetrating the sealing plate 3 at the bottom thereof. ; It is installed on the rear side of the second rear block 16 in a state of airtight to form a second combustion gas chamber 17, the top and bottom in a pair of water pipe header (1) (1`) located at the top and bottom The plurality of straight water pipes 5 connected to each other are installed side by side without space by the sealing plate 3, and the third rear block 19 having the third through hole 18 penetrating the sealing plate 3 formed thereon. A plurality of heat transfer fins 20 are zigzag on an inner surface between the first rear block 13, the second rear block 16, and the third rear block 19.

The rear water pipe block, as shown in Figure 11, is installed in the airtight state in the rear side and the rear end of the front water pipe block 4 of the front water pipe block 4, a pair of upper and lower A plurality of straight water pipes 5 having upper and lower ends connected to the water pipe headers 1 and 1` are installed side by side without a space by the sealing plate 3, and the inlet 21 penetrating the sealing plate 3 at the top thereof. The first rear block 13 is formed; A plurality of straight water pipes 5 installed at a rear side of the first rear block 13 while being kept airtight and having upper and lower ends connected to a pair of water pipe headers 1 and 1 ′ positioned at the upper and lower portions thereof. A second rear block 16 and a third rear block 19 disposed side by side; A plurality of straight water pipes 5 installed at the rear side of the third rear block 19 while being kept airtight and having upper and lower ends connected to a pair of water pipe headers 1 and 1 ′ positioned at upper and lower ends thereof. A fourth rear block 23 installed side by side without space by the sealing plate 3 and having an outlet 22 penetrating the sealing plate 3 at a lower portion thereof; The inner surface of the first rear block 13 and the fourth rear block 23 is formed with a plurality of guide plates 24 zigzag horizontally by a predetermined length.

The flow rate promoting tube 25 having a predetermined diameter and length is inserted into the straight water pipe 5.

Water pipe headers 26 are formed in the water pipe headers 1 and 1, respectively, which are opened and closed by a cap corresponding to the installation positions of the front water pipe 2 and the straight water pipe 5, respectively. On one side of (1`), the header material opening 27 which is opened and closed by a cap is formed.

The vibration device includes a plurality of vibration springs 29 having an upper end installed at a lower portion of the main body, and having a plurality of fixing protrusions 28 protruding horizontally around the grate 8 inserted into the center thereof; Located between the fixing projections 28 is composed of a vibration motor 30 is installed around the grate (8).

The pellet input device 9 is installed to vertically penetrate the front water pipe block 4 constituting the upper surface of the main body, a plurality of inclined projections (9a) on the inner peripheral surface of the inlet pipe 9b is arranged at a predetermined interval Wow; It is inserted perpendicularly to the inner center of the input pipe 9b, and has a plurality of conical protrusions 9c and conical dispersion protrusions 9e or square cone-shaped dispersion protrusions 9e` formed at the middle and the end of the outer peripheral surface, respectively. It consists of the axis | shaft 9d.

In this case, the cone-shaped dispersion protrusion 9e and the quadrangular-shaped dispersion protrusion 9e 'may be selectively applied according to the shape and capacity of the boiler 100. The cone-shaped dispersion protrusion 9e may have a relatively small cylindrical shape. Applied to the boiler 100, the square pyramid-shaped dispersion protrusion (9e ') is applied to a relatively large rectangular cylinder-shaped boiler 100.

The reloading device (10) comprises a cylindrical drum (10a) of the upper opening; A back plate 10b horizontally installed in the middle of the drum 10a and stacked with combustion residues falling from the grate 8; A collecting space 10c formed by recessing one side of the back plate 10b to a predetermined width and a predetermined depth; Combustion residues stacked on the backing plate 10b in the collecting space 10c while being laid down by a length corresponding to the radius of the drum 10a at the center of the upper surface of the backing plate 10b are rotated by the motor M. A rotating blade 10d to be introduced; It consists of a conveying conveyor (10f) penetrating the outside of the drum (10a) and is inserted into the collecting space (10c) and discharges the combustion residues stacked in the collecting space (10c) to the outside through a screw (10e) installed therein. .

The air injection device is installed in the lower portion of the grate 8, a plurality of injection holes 31 are provided in the direction in which the combustion chamber 7 is located on the outer circumferential surface, one end is connected to the first blowing fan 32 is located outside A first injection device 33; It is installed vertically below the inner circumferential surface of the main body, a plurality of injection holes 31 are installed in the combustion chamber 7 direction, and composed of a second injection device 35 connected to a second blowing fan 34 having one end located outside. do.

The present invention configured as described above is an apparatus for generating steam by burning wood pellets.

In particular, the present invention can facilitate the design and change of the boiler 100, can effectively produce steam through the boiler 100, increase the residual time of the combustion gas to enable efficient use of thermal energy as well as wood Wood pellets are introduced in the form of granules so that the combustion of the pellets can be effected effectively.

This will be described in detail through the steam production process of the boiler 100 as follows.

First, wood pellets of a predetermined size are introduced into the combustion chamber 7 through the pellet input device 9 shown in FIG. 9. The wood pellets then fall freely toward the combustion chamber 7 from the top of the input pipe 9b by their own weight.

At this time, the wood pellets include a plurality of inclined protrusions 9a formed on the inner surface of the input pipe 9b, a plurality of conical protrusions 9c formed in the middle of the fuel dispersing shaft 9d, and finally a lower end of the fuel dispersing shaft 9d. While being hit by the cone-shaped dispersion protrusion 9e or the square cone-shaped dispersion protrusion 9e 'formed at the inside, it is injected in a state dispersed evenly in all directions inside the combustion chamber 7.

Therefore, the wood pellets introduced into the combustion chamber 7 are evenly stacked on the upper surface of the grate 8 in a dispersed state corresponding to the area of the grate 8 as shown in FIG. 1, so that the contact surface with air introduced into the combustion chamber 7 is conventional. Is further increased.

The combustion chamber 7 includes a front water pipe block 4 shown in FIG. 4, a pair of side water pipe blocks 6 shown in FIG. 5, a first rear block 13 shown in FIG. 6, and FIG. Composed of a grate (8) shown in 12, the front water pipe block (4), the pair of side water pipe blocks (6) and the first rear block (13) has a flame or heat generated from the combustion chamber (7) It is securely connected and kept tight to prevent leakage.

Next, when a predetermined amount of wood pellets is introduced into the combustion chamber (7), the air is injected into the combustion chamber (7) through an air injection device.

The air injection device includes a first injection device 33 installed below the grate 8 and a second injection device 35 installed below the inner circumferential surface of the main body, the first injection device 33 and the second injection The device 35 sucks a certain amount of air through the first blower fan 32 and the second blower fan 34, which is installed outside, and collects the air sucked through the plurality of injection holes 31 installed in the combustion chamber 7. Discharge.

Here, as the air injected through the air injection device is injected from all sides of the wood pellets stacked on the upper surface of the grate 8, the environment in which the wood pellets can easily contact the air is configured in the combustion chamber 7.

As described above, when air is injected into the combustion chamber 7, the ignition device 11 is operated to proceed with the combustion of the wood pellets. At this time, the ignition device 11 may be configured to transfer heat or flame generated by electricity or gas to wood pellets.

As described above, as the combustion of the wood pellets proceeds, heat energy is generated, and the heat energy is transferred to the main body. The main body is composed of a front water pipe block 4, a side water pipe block 6 and a back water pipe block, and a certain amount of boiler water flows.

That is, when water is supplied to the water pipe header 1` located in the lower portion by using a pump or the like, a predetermined amount of water is stored in the water pipe header 1`, and the stored water is connected to the water pipe header 1`. (2) or along the straight water pipe (5) is moved to the water pipe header (1) located at the top.

Therefore, the heat energy transmitted to the main body heats the boiler water moving along the front water pipe 2 or the straight water pipe 5, and the heated boiler water is stored in the water pipe header 1 located at the upper part while becoming steam.

In the conventional case, the water tank configured in the main body is directly heated to generate steam, and the mass of the boiler water stored in the water tank is the front water pipe block 4, the front water pipe block 6, and the front water pipe constituting the back water pipe block. It was not possible to generate steam efficiently because it was much larger than the mass of boiler water filled in (2) or the straight water pipe (5).

However, by constructing the main body of the front water pipe block 4, the side water pipe block 6 and the back water pipe block composed of a plurality of front water pipe (2) or straight water pipe (5) as in the present invention, the boiler water with an effective mass for steam generation According to the present invention, heat energy can be efficiently used unlike conventional, and steam can be generated in a short time.

As shown in FIG. 10, when the straight water pipe 5 is partitioned into a predetermined section as the flow rate promoting tube 25 is inserted into the straight water pipe 5, the mass of boiler water flowing in the partitioned section is shown. Since the flow rate promotion tube 25 is smaller than before it is inserted, the boiler water can be boiled quickly, so that the production of steam is effective, and the flow rate of the boiler water is increased in order to flow the flow path narrowed by the Bernoulli equation at the same flow rate. Steam can be generated at the same flow rate as when the flow rate promoting tube 25 is not inserted.

On the other hand, when the wood pellets are burned, a high temperature combustion gas is generated in the combustion chamber 7, and the combustion gas is the first rear block 13 (13 ′), as shown in FIG. 1 or 11. It is discharged through the first through hole 12 or the inlet 21 formed in the.

Here, in order to further use the thermal energy of the combustion gas, the rear water pipe block is composed of two layers.

That is, by forming the rear water pipe block in multiple layers to form a gas flow path for the combustion gas to stay for a certain time. The gas flow path may be configured in various ways depending on the shape of the rear water pipe block is applied according to the capacity of the boiler (100).

The first method of the gas flow path is to pass the combustion gas in a "U" shape as shown in FIG. 1 so that it flows in the same direction as the flow of boiler water and then flows in the opposite direction. The method is applied to (100).

As shown in FIG. 6 or 8, the combustion gas introduced into the first combustion gas chamber 14 formed between the first rear block 13 and the second rear block 16 is formed by the second through-hole 15. The combustion gas introduced into the second combustion gas chamber 17 formed between the second rear block 16 and the third rear block 19 through the second through hole 15 is transferred downward. 18) is achieved by a structure that is transported upwards where it is located and then completely discharged to the outside.

Accordingly, heat transfer between the first rear block 13, the second rear block 16, the third rear block 19 and the combustion gas is effectively performed by increasing the transfer distance of the combustion gas.

And a plurality of heat transfer fins 20 are provided in a zigzag on the inner surface between the first rear block 13, the second rear block 16, and the third rear block 19 to increase the remaining time of the combustion gas. Together, the heat exchange area was increased to allow more efficient heat exchange.

In addition, the second method of the gas flow passage is such that the combustion gas passes in a zigzag form from side to side as shown in FIG. 11 so as to flow in a direction orthogonal to the boiler water, which is applied to a large capacity boiler 100.

This is achieved by a zigzag structure of a plurality of guide plates 24 protruding horizontally on the inner surface between the first rear block 13 and the fourth rear block 23.

That is, the combustion gas flowing in between the first rear block 13 and the fourth rear block 23 through the inlet 21 formed on the upper portion of the first rear block 13 is horizontal by the guide plate 24. Heat exchange with the linear water pipe (5) of the second rear block 16 and the third rear block 19 while moving to the combustion gas flows downward to guide plate (24) protruding in the fourth rear block (23) ) And the heat exchange with the straight water pipe (5) of the second rear block 16 and the third rear block 19 while moving horizontally in the direction in which the first rear block 13 is located, and repeating the heat exchange process Combustion gas is to be discharged through the outlet 22 formed in the lower portion of the lower block (23).

Therefore, as shown in FIG. 1, the heat transfer distance between the first rear block 13 and the second rear block 16, the third rear block 19 and the fourth rear block 23 is increased by increasing the transfer distance of the combustion gas. Effectively done

Here, one end of the guide plate 24 protruding from the first rear block 13 and the fourth rear block 23 is spaced at a predetermined interval without contacting the first rear block 13 or the fourth rear block 23. Is rushing to the state.

And the guide plate 24 is installed in a state orthogonal to the second rear block 16 and the third rear block 19, the straight water pipe 5 of the second rear block 16 and the third rear block 19. It also acts to increase the surface area of heat exchange effectively.

In addition, when the wood pellets are burned, a combustion residue is produced, which passes through the through holes formed in the grate 8 and falls to the reloading device 10.

Here, in order to prevent the plurality of through holes formed in the grate 8 from being blocked by the combustion residue, the grate 8 is horizontally installed in the lower part of the main body through a vibration device.

That is, as shown in Figure 12, the vibration spring 29 is connected to the upper end of the water pipe header (1) located at the bottom of the front water pipe block (4) or the water pipe header (1) located at the bottom of the first rear block (13). The fixing projections 28 are inserted into and fixed to the center of the grate 8 to be installed horizontally.

Accordingly, when the vibration motor 30 installed on the grate 8 operates to vibrate the grate 8, the fixing projection 28 inserted and fixed in the center of the vibration spring 29 moves up and down, and the fixing protrusion 28 By virtue of the movement of the vibration spring 29, the restoring force is generated and the vibration is generated on the horizontal grate 8, which is attached to the through hole of the grate 8 or laminated on the upper surface of the grate 8 Combustion residue in the state is moved downward through the recirculation device 10 is located.

In other words, the opening of the grate 8 is blocked by the combustion residue, thereby completely eliminating the blockage of the air flow injected through the air injection device.

Accordingly, the combustion process of the wood pellets is effectively induced, thereby increasing the thermal efficiency of the boiler 100.

And the combustion residues delivered to the drum (10a) of the receiving device 10 shown in Figure 14 through the through hole of the grate 8, the upper surface of the receiving plate (10b) horizontally installed inside the drum (10a) Falling in, and the rotary blade (10d) rotated by the motor (M) in a state in close contact with the upper surface of the back plate (10b) sweeps, collecting space formed on one side of the back plate (10b) ( The combustion residue is introduced into 10c), and the combustion residue is automatically discharged through the transfer conveyor 10f installed in the collecting space 10c.

In addition, the transfer conveyor 10f discharges the combustion residue introduced into the collection space 10c to the outside through the rotation of the screw 10e.

On the other hand, since the front water pipe (2) and the straight water pipe (5), the water pipe header (1) (1`) is where the boiler water and steam is moved, the water pipe header (1) so that it can be easily removed as the scale is attached. A plurality of water pipe material spheres 26 and header material spheres 27 are formed in the square 1 '.

Therefore, the water pipe material opening 26 or the header material opening 27 can be opened to insert a cleaning tool with a brush to effectively remove scales, thereby simplifying maintenance and repair.

In addition, since the body material openings 36 are installed at both sides of the main body, the residues such as soot, soot, dust, etc. of the combustion gas accumulated at the bottom of the front water pipe 4, the side rear pipe 6, and the rear water pipe block can be easily. Can be cleaned.

7 to 8 or 11 as well, the main body is configured in the form of the front water pipe block 4, the side water pipe block 6, the back water pipe block is connected, the front water pipe block (4) If standardizing the side water pipe block (6) and the back water pipe block to a certain capacity, remove the front water pipe (2) or straight water pipe (5) or the front water pipe block (4), side water pipe block (6), It is possible to efficiently design and change the design of the boiler 100 only by increasing or decreasing the number of installation.

That is, it is also possible to increase the solution of the boiler 100 by extending the front water pipe block (4) according to the capacity required by the client when designing the boiler (100).

In addition, when designing the boiler 100 by removing the front water pipe (2) or straight water pipe (5), or increase or decrease the number of installation of the front water pipe block (4), the side water pipe block (6), the back water pipe block, The grate 8 and the back receiving device 10 shown in FIG. 12 or 14 may also be efficiently designed to meet the capacity of the boiler 100 as shown in FIG. 13 or 15 by standardizing to a predetermined capacity.

In addition, the sealing plate 3 completely fills the space formed between the front water pipe 2 or the straight water pipe 5, which are arranged side by side at a predetermined interval so that the flame or heat generated during the combustion process of the wood pellets is externally filled. To prevent leakage.

As described above, the water pipe steam boiler 100 using the wood pellets of the present invention can not only produce steam quickly but also facilitate waste heat recovery through a structure that increases the residual time of combustion gas, thereby increasing thermal efficiency, and The design can be easily changed, and the production time is shortened, thereby increasing productivity.

In addition, wood pellets are dispersed into granules of a certain size and stacked on the grate 8 so that the surface area is increased to effectively induce the combustion process, and the main body is independent of the front water pipe block 4, the side water pipe block 6, and the back water pipe block. By having a structure assembled in a state, it is possible to simplify the manufacturing and airtight test.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and in the technical field to which the present invention pertains that substitutions, modifications, and conversions can be made without departing from the spirit of the present invention. It will be evident to those who have knowledge of.

1, 1`: water pipe header 2: front water pipe
3: sealing plate 4: front water pipe block
5: straight water pipe 6: side water pipe block
7: combustion chamber 8: grate
9: pellet injection device 9a: inclined protrusion
9b: input tube 9c: conical protrusion
9e: Dispersion protrusion 9e ': Dispersion protrusion
9d: fuel dispersion shaft 10: reloading device
10a: drum 10b: back plate
10c: collecting space 10d: rotating blade
10e: Screw 10f: Transfer Conveyor
11 ignition device 12 first opening
13, 13`: 1st rear block 14: 1st combustion gas chamber
15: 2nd hole 16, 16`: 2nd rear block
17: second combustion gas chamber 18: third through-hole
19, 19`: third rear block 20: heating fin
21: inlet 22: outlet
23: fourth rear block 24: guide plate
25: velocity promotion tube 26: water pipe material zone
27: header material zone 28: fixing protrusion
29: vibration spring 30: vibration motor
31: injection hole 32: the first blowing fan
33: first injection device 34: second blowing fan
35: second injection device 36: main body material
100: boiler M: motor

Claims (6)

A plurality of curved front water pipes 2 having a top and a bottom connected to a pair of water pipe headers 1 and 1 ′ positioned at an upper portion and a lower portion in a horizontally spaced space are spaced by a sealing plate 3. The front and bottom water pipe blocks (4) installed side by side without being installed in a state of maintaining airtightness on both sides of the front water pipe block (4) and the top and bottom are connected to a pair of water pipe headers (1) (1`) located at the top and bottom A plurality of straight water pipes (5) are airtight at the rear end of the pair of side water pipe blocks (6), the front water pipe blocks (4) and the rear water pipe blocks (6), which are arranged side by side without space by the sealing plate (3). A main body consisting of a rear water pipe block installed in a state of maintaining; A grate 8 horizontally installed at a lower portion of the main body to form a plurality of through holes for partitioning the combustion chamber 7; A pellet injection device 9 penetrating the upper portion of the main body; A receiving device 10 installed at a lower portion of the main body; An air injection device installed in the lower part of the grate 8 and the lower part of the combustion chamber 7; A water pipe steam boiler using wood pellets composed of an ignition device (11) installed under the combustion chamber (7). According to claim 1, wherein the rear water pipe block is installed in the airtight state at the rear end of the front water pipe block (4) and the rear end of the side water pipe block (6), a pair of water pipe header (top and bottom) ( 1) A plurality of straight water pipes 5 having upper and lower ends connected to (1`) are installed side by side without a space by the sealing plate 3, and the first through hole 12 penetrates the sealing plate 3 at the top. A first rear block 13 formed thereon; It is installed on the rear side of the first rear block 13 in a state of airtight to form a first combustion gas chamber 14, the top and bottom in a pair of water pipe header (1) (1`) located at the top and bottom The second plurality of straight water pipes 5 connected to each other are installed side by side without a space by the sealing plate 3, and a second rear block 16 having a second through hole 15 penetrating the sealing plate 3 at the bottom thereof. ; It is installed on the rear side of the second rear block 16 in a state of airtight to form a second combustion gas chamber 17, the top and bottom in a pair of water pipe header (1) (1`) located at the top and bottom The plurality of straight water pipes 5 connected to each other are installed side by side without space by the sealing plate 3, and the third rear block 19 having the third through hole 18 penetrating the sealing plate 3 formed thereon. A water pipe type steam boiler comprising wood pellets including a plurality of heating fins 20 zigzag formed on an inner surface between the first rear block 13, the second rear block 16, and the third rear block 19. .
According to claim 1, wherein the rear water pipe block is installed in the airtight state at the rear end of the front water pipe block (4) and the rear end of the side water pipe block (6), a pair of water pipe header (top and bottom) ( 1) A plurality of straight water pipes 5 having upper and lower ends connected to (1`) are installed side by side without a space by the sealing plate 3, and the first through hole 12 penetrates the sealing plate 3 at the top. A first rear block 13 formed thereon; It is installed on the rear side of the first rear block 13 in a state of airtight to form a first combustion gas chamber 14, the top and bottom in a pair of water pipe header (1) (1`) located at the top and bottom The second plurality of straight water pipes 5 connected to each other are installed side by side without a space by the sealing plate 3, and a second rear block 16 having a second through hole 15 penetrating the sealing plate 3 at the bottom thereof. ; It is installed on the rear side of the second rear block 16 in a state of airtight to form a second combustion gas chamber 17, the top and bottom in a pair of water pipe header (1) (1`) located at the top and bottom The plurality of straight water pipes 5 connected to each other are installed side by side without space by the sealing plate 3, and the third rear block 19 having the third through hole 18 penetrating the sealing plate 3 formed thereon. A water pipe type steam boiler comprising wood pellets including a plurality of heating fins 20 zigzag formed on an inner surface between the first rear block 13, the second rear block 16, and the third rear block 19. .
The water pipe type steam boiler according to claim 1, 2, or 3, wherein the linear water pipe (5) is provided with a wood pellet having a flow rate promotion tube (25) having a predetermined diameter and length inserted therein.
According to claim 1, wherein the upper end of the vibrating device is provided with a plurality of vibration springs 29, the upper end is installed, the plurality of fixing projections 28 protruding horizontally around the grate 8 is inserted in the center; ; Water pipe steam boiler using a wood pellet consisting of a vibration motor 30 is located between the fixing projections 28 and installed around the grate (8).
According to claim 1, wherein the pellet input device 9 is installed to vertically penetrate the front water pipe block 4 constituting the upper surface of the main body, a plurality of inclined projections (9a) on the inner circumferential surface is provided with a predetermined interval An input pipe 9b; It is inserted perpendicular to the inner center of the input pipe (9b), the fuel dispersion shaft formed with a plurality of conical projections (9c) and conical dispersion projections (9e) or quadrangular cone-shaped dispersion projections (9e ') in the middle and the end of the outer peripheral surface, respectively Water-pipe steam boiler using wood pellets consisting of (9d).

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