KR101135886B1 - Burner of solid fuel having cooling apparatus - Google Patents

Abstract

PURPOSE: A combustion apparatus for solid fuel having a cooler is provided to protect a grate from high-temperature through a spiral cooling line. CONSTITUTION: A combustion apparatus for solid fuel having a cooler comprises a combustion chamber(110), an air chamber(30), a grate, a cooling line(10), a rotary shaft(50), a heat insulating layer(20), and discharge holes(80). A heat-resistant layer is formed on the inner wall of the combustion chamber. An oxygen supply unit(60) of the air chamber supplies oxygen for combustion to the combustion chamber. The grate is used as a housing of the air chamber. The cooling line is connected to a cooling water supply line(11) and a cooling water tank(70). The rotary shaft accepts the cooling water supply line. An oxygen inlet path(31) of the rotary shaft transfers oxygen to the oxygen supply unit. The rotary shaft rotates the grate. The heat insulating layer touches the cooling line and the top of the air chamber. The discharge holes discharge ash from the combustion chamber to the outside.

Description

Burner of solid fuel having cooling apparatus

The present invention relates to a solid fuel combustion device having a cooling device. Specifically, the solid fuel combustion device includes a spiral cooling line in a circular grate, and supplies coolant to the cooling line to provide a circular grate from high temperature during combustion. The present invention relates to a solid fuel combustion device having a cooling device that prevents expansion and contraction.

Products made of synthetic resins such as tires, vinyl, and plastics, which are frequently used in various industrial fields and everyday life, are recycled only after use, and most of them are classified as waste and landfilled or incinerated. In case of landfill, not only the landfill site but also the secondary problem of groundwater pollution is caused by the landfilled waste.Incineration process causes the secondary problem of air pollution by generating toxic gas and smoke that are fatal to the human body. Many technologies, such as a combustion apparatus for treating easily incorruptible wastes, such as waste synthetic resins, have been developed and applied for patents or utility models.

However, these conventional combustion devices are produced by casting the great, and various cooling methods are applied to it, but due to the high calorific value of the solid fuel and the continuous operation of the combustion furnace, the great is high temperature, volatile gas and high temperature pyrolysis There was a problem in that high temperature corrosion occurs such that the life of the grate is very short.

In addition, when a part of the upper surface is to be corroded, there was a big problem that the entire grate should be replaced.

The present invention has been invented to solve the above problems, its purpose is to provide a cooling line on the surface of the Great stretch does not occur even if used several times, the cooling water heated through the cooling line can be used as boiler water It is an object of the present invention to provide a solid fuel combustion device having a cooling device.

According to an aspect of the present invention, there is provided a combustion chamber including an inner wall of the heat resistant material layer, an air chamber provided inside the combustion chamber, and an oxygen supply unit supplying combustion oxygen to the combustion chamber, and the air. It serves as a housing of the chamber, is formed in a circular dome shape, the rotating grate, and provided on the upper surface of the grate, connected to the cooling water supply line to be connected to the external cooling water tank, spirally formed cooling line And a rotation shaft accommodating the cooling water supply line therein and having an oxygen inflow path, which is a space for delivering oxygen to the oxygen supply unit, connected to the grate to rotate the grate, and an upper portion of the cooling line and the air chamber. It includes a heat insulating layer provided in contact with the discharge port for discharging the ashes burned in the combustion chamber.

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In one embodiment, the cooling line is provided on the bottom and side of the grate, characterized in that in communication with the supply line.

In one embodiment, the oxygen supply unit is provided with one or more, the shape is formed in a cylindrical shape, a cylindrical oxygen supply hole is formed in the center so as to communicate with the air chamber, and communicates with the upper side of the oxygen supply hole And at least one oxygen injection hole is formed to inject air into the combustion chamber.

In one embodiment, the cooling water supply line further includes a discharge line connected to a point where the cooling line ends at the center thereof, the discharge line for discharging the high-temperature cooling water cooling the combustion chamber.

According to the solid fuel combustion device provided with the cooling device of the present invention, first, there is an effect of protecting the Great from high temperature by the spiral cooling line and preventing heat shrinkage deformation.

Second, since the round grate is made of general steel and steel instead of the commonly used heat-resistant cast steel casting, it can be manufactured at a lower cost than the heat-resistant cast steel casting, thereby increasing economic efficiency.

Third, since the cooling water supply pipe and the discharge line are disposed on one line, the withdrawal of the cooling water is easy, and there is an effect of preventing the air from filling inside the line.

Fourth, the oxygen supply part is made of refractory material made of ceramic material, so it has excellent heat resistance and is installed at the top of the grate so that it can be disassembled and assembled. There is a big effect that can be.

1 is a schematic view showing a schematic view of a solid fuel combustion device with a cooling device of the present invention.
FIG. 2 is a partially enlarged view for showing the state of the grate of FIG. 1 in detail.
3 is a plan view illustrating a state of the cooling line of FIG. 1.
FIG. 4 is a plan view illustrating a state of the oxygen supply unit of FIG. 1. FIG.
5 is a partially enlarged cross-sectional view for showing the appearance of the oxygen supply in detail.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Embodiment of the present invention may be modified in various forms, the scope of the invention should not be construed as limited to the embodiments described in detail below. This embodiment is provided to more completely explain the present invention to those skilled in the art. Therefore, the shape of the elements in the drawings and the like may be exaggerated to emphasize a more clear description. It should be noted that the same members in each drawing are sometimes shown with the same reference numerals. In addition, detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention are omitted.

Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment of the present invention, a solid fuel combustion device equipped with a cooling device of the present invention will be described in detail.

1 is a schematic view showing a schematic view of a solid fuel combustion device with a cooling device of the present invention, Figure 2 is a partially enlarged view for showing the detail of the Great of Figure 1, Figure 3 is the cooling of Figure 1 4 is a plan view for showing the state of the line, Figure 4 is a plan view for showing the state of the oxygen supply of Figure 1, Figure 5 is a partially enlarged cross-sectional view for showing the state of the oxygen supply in detail.

1 to 5, the solid fuel combustion device including the cooling device of the present invention includes a combustion chamber 110 having an inner wall 90 as a heat resistant material layer and an inside of the combustion chamber 100. The air chamber 30 is provided with an oxygen supply unit 60 for supplying combustion oxygen to the combustion chamber 110, and serves as a housing of the air chamber 30, and is formed in a circular dome shape and rotated. The great 100 and the upper surface of the great 100 is provided, the cooling line 10 is connected to the cooling water supply line 11 to be connected to the external cooling water tank 70 and the cooling water supply inside The rotary shaft 50 accommodates the line 10 and has an oxygen inflow path 31 which is a space for delivering oxygen to the oxygen supply unit 60, and is connected to the great 100 to rotate the great 100. And, the insulating layer 20 provided to contact the upper portion of the cooling line 10 and the air chamber 30 and It is composed of a discharge port 80 for discharging the ashes burned in the combustion chamber (100).

The cooling line 10 is formed in a helical shape, the cross-section is formed in a 'c' shape is formed so that the opening is joined to the surface of the great 100, the cooling water flows into the inner space. . In addition, the cooling line 10 may be further provided on the side and the bottom of the great 100, it is preferably configured to communicate with the cooling water supply line (11). This is to minimize the Great 100 deformation due to the high temperature.

The cooling water supply line 11 is connected to an external cooling water tank 70, and a pump 12 is provided to smoothly supply the cooling water supplied to the cooling line 10.

The rotary shaft 50, the sprocket 51 is coupled to the outer peripheral surface, the sprocket 51 and another sprocket 52 coupled to the external motor 54 is rotated by the chain 53 to each other. . In addition, it may be further provided with a plurality of bearings 55 on the surface in contact with the rotation shaft 50 for smooth rotation.

The discharge port 80 is formed to penetrate through one side of the inner wall 90 and is discharged through the discharge pipe 83. The discharge pipe 80 is provided with a screw 82 so as to be rotated in connection with the external motor 81, the ash discharged through the discharge pipe 80 is discharged to the outside through the screw 82.

The heat insulation layer 20 is to protect the cooling line by blocking the heat transmitted directly to the cooling line (10).

Meanwhile, as illustrated in FIGS. 5A and 5B, the oxygen supply unit 60 is provided with at least one, and is formed in a cylindrical shape, and has a cylindrical oxygen supply hole in the center so as to communicate with the air chamber 30. 61 is formed, one or more oxygen injection hole 62 is formed in communication with the upper side of the oxygen supply hole 61 to inject air into the combustion chamber (100). The oxygen supply unit 60 is provided between the spiral cooling line 10, the material is preferably formed of a ceramic material. In addition, although not specifically shown in the figure, the oxygen supply unit 60, it is preferable to facilitate the removal by screwing or the like. The oxygen supply unit 60 is intended to facilitate replacement when the oxygen supply unit 60 is ruptured by the high temperature inside the combustion chamber 110 as a ceramic material. In addition, the oxygen injection hole 62 is formed in the upper end of the oxygen supply hole 61, as shown in the cross-sectional view AA line of Figure 5a is formed at intervals of 90 °, more depending on the convenience of the manufacturer It can be formed smaller.

Meanwhile, the cooling water supply line 11 may be further provided with a discharge line 40 connected to a point where the cooling line 10 ends at the center thereof to discharge the high temperature cooling water cooling the combustion chamber 100. have. The discharge line 40 is connected to the outside, it is connected to the hot water tank 41 to collect the high-temperature cooling water. Cooling water collected in the hot water tank 41 is for reuse as boiler water.

On the other hand, the cooling water supply line 11 surrounding the discharge line 40 is accommodated inside the rotating shaft 50, the intake fan provided on the outside through the space between the cooling water supply line 11 and the rotating shaft 50 Connected to (32) is to serve to receive the external oxygen to enter the combustion furnace (110). In addition, the intake fan 32 is coupled to the motor 33 is rotated by the driving force of the motor 33.

Hereinafter, the operating state of the solid fuel combustion field is provided with a cooling device of the present invention configured as described above.

After the solid fuel is introduced into the combustion chamber 110 by a transfer conveyor (not shown), the solid fuel is ignited through a combustion device (not shown). When the internal temperature rises after a predetermined time has elapsed, the pump 12 is operated to introduce the coolant into the cooling line 10 (see the dotted arrow). The hot water tank 41 is introduced into the hot water tank 41 through the discharge line 40 (see the dashed-dotted arrow), and the high-temperature cooling water introduced into the hot water tank 41 is provided in a separate discharge line (not shown) provided outside for use in a boiler. Is discharged through. During this process, the solid fuel of the combustion chamber 110 is continuously burned, and oxygen necessary for the combustion is externally oxygend through the intake fan 32 through the oxygen injection port 62 of the oxygen supply unit 60. Inflow to 110 (see solid arrow). Solid fuel that has been completely burned and ashed through the oxygen is discharged through the outlet 80 and disposed of. Solid fuel continues to burn while continuously performing such a series of operations, the coolant flows into the hot water tank via the cooling line, and the ash of the solid fuel is discharged to the outside through the outlet.

The embodiment of the solid fuel combustion apparatus provided with the cooling apparatus of the present invention described above is merely exemplary, and those skilled in the art to which the present invention pertains various modifications and other equivalent embodiments therefrom. You can see that it is possible. Therefore, it will be understood that the present invention is not limited to the forms mentioned in the above detailed description. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents, and substitutes within the spirit and scope of the invention as defined by the appended claims.

10: cooling line 11: cooling water supply pipe
12 pump 20 heat insulation layer
30: air chamber 31: oxygen inlet
32: intake fan 33: motor
40: discharge line 41: hot water tank
50: rotation shaft 51, 52: sprocket
53: chain 54: motor
60: oxygen supply 61: oxygen supply hole
62: oxygen injection hole 70: coolant tank
80: outlet 81: motor
82: screw 83: discharge pipe
90: inner wall 100: great
110: combustion chamber

Claims (5)

A combustion chamber 110 having an inner wall 90 as a heat resistant material layer;
An air chamber 30 provided inside the combustion chamber 100 and having an oxygen supply unit 60 for supplying combustion oxygen to the combustion chamber 110;
A great (100) serving as a housing of the air chamber (30), formed in a circular dome shape, and rotating;
A cooling line 10 provided on an upper surface of the great 100 and connected to a cooling water supply line 11 so as to be connected to an external cooling water tank 70 and formed in a spiral shape;
The coolant supply line 11 is accommodated therein, and has an oxygen inflow path 31, which is a space for delivering oxygen to the oxygen supply unit 60, and is connected to the great 100 to rotate the great 100. Rotating shaft 50 to make;
A heat insulation layer 20 provided in contact with the upper portion of the cooling line 10 and the air chamber 30;
Solid fuel combustion device having a cooling device, characterized in that it comprises a discharge port (80) for discharging the ashes burned in the combustion chamber (100). delete The method according to claim 1,
The cooling line 10,
Solid fuel combustion device is provided with a cooling device, characterized in that provided in the lower portion and the side of the Great 100, and in communication with the supply line (11). The method according to claim 1,
The oxygen supply unit 60,
It is provided with at least one, the shape is formed in a cylindrical shape, a cylindrical oxygen supply hole 61 is formed in the center so as to communicate with the air chamber 30, and is in communication with the upper side of the oxygen supply hole 61 Solid fuel combustion device having a cooling device characterized in that at least one oxygen injection hole 62 is formed to inject air into the combustion chamber (100). The method according to claim 1,
The cooling water supply line 11,
Solid fuel combustion is provided with a cooling device further comprises a discharge line 40 connected to the end of the cooling line 10 at the center of the high temperature cooling water cooling the combustion chamber 100 is discharged Device.

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