KR960009443Y1 - Feeding apparatus for pulverulent fuel - Google Patents

Abstract

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Description

Pulverized coal feeder

1 is a view showing the operating state of the conventional pulverized coal supply device.

2 is a cross-sectional view showing a pulverized coal supply device according to the present invention.

* Explanation of symbols for main parts of the drawings

2: rotating shaft 4: supply tank

6: internal rotating body 8: bearing

10: external rotor 12: injection space wall

14: air inlet 16: air outlet

The present invention relates to a pulverized coal supply apparatus for injecting a pulverized coal into a combustor using air flow to burn pulverized coal, and more specifically, the amount of heat generated when burning coal by limiting the amount of pulverized coal to 10 kg or less per hour. The present invention relates to a pulverized coal supply device for a small combustor capable of generating heat of less than ㎉.

In general, a pulverized coal supply device transports fine pulverized coal powder by an air flow method, and then burns an appropriate amount of pulverized coal per hour by using a conventional valve or a rotary valve in a fluidized bed or using a flow control mechanism using a screw or a chain. In order to supply pulverized coal to a large pulverized coal combustor.

On the other hand, in the prior art, the pulverized coal supply device is introduced into the inside of the sealed hopper 32 having a funnel shape by opening and closing the valve, as shown in FIG. Sufficient air pressure is maintained inside the hopper 32 by the air supplied from the air compressor 40. Since the air pressure P _{1 in} the hopper 32 is higher than the air pressure P ₂ in the pulverized coal transport pipe 34, the pulverized coal 38 flows through the pulverized coal transport pipe 34 through the air flow 36. To reach the required place by the air flow of the air flow pipe (36).

In the conventional pulverized coal supply device having the above structure, when the air pressure P ₂ in the pulverized coal transport pipe 34 is greater than the pressure P ₁ in the hopper 32, the pulverized coal does not fall smoothly to supply uniform pulverized coal. There is no problem.

In addition, when referring to other examples in the prior art, in order to supply pulverized coal from the hopper, the pulverized coal powder has been inefficiently supplied to the hopper by vibrating shock by a vibrator.

Since the pulverized coal is not subjected to sufficient load due to the vibration impact in the storage tank, it is known that it is difficult to drop the pulverized coal supply device even when the pulverized coal supply apparatus is miniaturized because the pulverized coal powder is easily leaked due to the vibration impact.

Therefore, pulverized coal is mostly used in a large combustor and is a problem that is rarely used in a small pulverized coal combustor.

An object of the present invention is to provide a pulverized coal supply apparatus that can be used in a small pulverized coal combustor by making it possible to uniformly supply a small amount of pulverized coal as solved to solve the above problems.

In order to achieve the above object, the present invention protrudes a rotating shaft having a screw from the inside of the feed tank to the center and reduces the contact area between the screw of the rotating shaft and the feed tank, and the outer diameter of the inner rotating body is formed in the middle of the rotating shaft. The inner diameter of the injection space wall maintains a constant narrow gap in the radial direction to form a rapid air flow passage provided from the air compressor. The air injection wall has an air inlet for injection at the lower part of the upper part of the inner rotor. Injection air outlets are formed respectively, and the bearing is fixed to the injection space wall below the inner rotor, and is configured to rotate the outer rotor is configured to rotate the rotary shaft below the bearing. By providing a pulverized coal supply device characterized in that.

Hereinafter, the present invention will be described in detail with reference to the drawings.

As shown in FIG. 2, the center of the rotating shaft 2 having the screw 2a has a circular shape coinciding with the center of the feeding tank so that the center of the rotating shaft 2 comes out from the inside of the feeding tank. In order to reduce the driving friction between the screw 2a and the feed tank 4 as much as possible, the contact area via the pulverized coal 20, which is contacted along the circumference between the feed tank and the screw 2a of the rotary shaft, is reduced. . In addition, in order to prevent the pulverized coal from falling below the construction space, the outer diameter of the inner rotating body 6 and the inner diameter of the injection space wall 12 maintain a constant narrow gap in the radial direction in the middle of the rotating shaft, thereby providing a rapid air flow passage. To form. In addition, the air injecting wall is provided with a spraying air inlet 14 at the lower portion of the inner rotor body and a spraying air outlet 16 at the upper portion thereof, and below the inner rotor 6. The bearing 8 fixed to the space wall is mounted, and the outer rotating body 10 is configured to be able to rotate the rotating shaft 2 below the bearing.

Reference numeral 18 here is an air compressor.

Hereinafter, the operation and effects of the present invention will be described.

As shown in FIG. 2, in uniformly supplying the pulverized coal 20 to the combustion furnace, the rotary shaft 2 having a screw in the feed tank 4 is brought out to the center of the feed tank so that when the pulverized coal is fed ( 2) It is easy to fall of the pulverized coal 20 by shaking due to the rotational movement, and the area of the contact area between the rotating shaft 2 and the supply tank 4 through the pulverized coal is reduced, and the rotational power of frictional power is reduced. At the same time, a small amount of pulverized coal 20 per hour is discharged out of the supply tank as the rotation shaft rotates.

In the lower part of the supply tank, the inner rotating body 6 is mounted on the rotating shaft 2 and is supported by the bearing 8.

Pulverized coal falling from the supply tank 4 using the air flow which increased the flow velocity while passing air from the inlet 14 for pulverized coal transport and passing through a narrow portion between the inner rotor and the injection space wall 12 Discharge to the air outlet (16).

On the other hand, the inner rotor 6 is inside the injection space wall 12 and the outer rotor 1 is supported by the bearing 8 outside the pulverized coal injection space, rotates by an external driving force and adjusts the number of revolutions per hour Pulverized coal 20 is discharged and the injection air passes through the narrow space between the injection space wall 12 and the internal rotating body 6 to increase the flow rate so that the pulverized coal does not fall below the injection space, but has a certain amount of coal dust. This supply and further, the rotating shaft shakes the pulverized coal inside the pulverized coal supply tank, so that the pulverized coal does not accumulate in the feed tank and facilitates the discharge.

As described above, the pulverized coal filled in the small pulverized coal supply tank according to the present invention does not accumulate and does not leak, and continuously discharges to the pulverized coal injection space by a predetermined amount, and can be supplied to the pulverized coal combustor without delay by the flow of fast injection air. In addition, by controlling the rotational speed of the external rotor has an effect that can facilitate the automatic control of the pulverized coal combustion by adjusting the fuel supply amount.

Claims (1)

The rotating shaft 2 having the screw 2a protrudes from the inside of the feed tank to the center, and the contact area between the screw 2a of the rotating shaft and the feed tank is made small, and the inner rotating body ( The outer diameter of 6) and the inner diameter of the injection space wall 12 maintain a constant narrow gap in the radial direction to form a fast air flow passage provided from the air compression 18, and the air injection wall is centered on the inner rotor. In the lower part, the injection air inlet 14 is formed in the upper part, and the injection air outlet 16 is formed in the upper part, while the bearing 8 which is fixed to the injection space wall below the inner rotor 6 is mounted. Pulverized coal supply apparatus, characterized in that the outer rotating body (10) rotates the rotating shaft (2) below the bearing.