JPH0443210A - Dust processing device - Google Patents

Abstract

PURPOSE:To prevent corrosion of a furnace frame caused by discharged gas, eliminate odor adhesion of discharging gas to a furnace material and provide a long life and improve a convenience in use of a dust processing device by a method wherein a spacing is provided between an inner wall surface of the furnace frame and an outer wall surface of the furnace material. CONSTITUTION:As dusts 16 are deposited into a processing container 10, liquid contained in the dusts partially drops from an opening 12 formed at a projection 11 of a processing container 10 and sinters into a furnace material 2 at an air supplying port 13. Moisture content once formed into water vapor under a heat energy of a furnace heater 9 is also partially absorbed into the furnace material 2 by the time the moisture is discharged out through a discharging port 7. The furnace material 2 has a high water absorbing characteristic and a water holding characteristic so that the water does not drip at all. In addition, since there is a spacing 6 by a spacer 5 between the furnace material 2 and the furnace frame 3, the water content does not contact the furnace frame 3 and the furnace frame is not corroded. Then, all the water evaporate by a heat energy of a furnace heater 9 together with odor in a combustion furnace 4, the water is discharged out through a purifying device 8.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a waste treatment device that heats and incinerates waste.

2. Description of the Related Art In recent years, there has been an increasing demand for an easy-to-use garbage disposal device that can easily incinerate household garbage.

A conventional garbage disposal device of this type will be explained with reference to FIG. Lid 1 that can be opened and closed at the top as shown in the figure
A combustion furnace 104 has a heat insulating furnace material 103 attached to the inner surface of a metal furnace frame 102 in contact with the inner surface of the combustion furnace 104. An exhaust port 105 communicating with the outside is provided on the side wall surface of the combustion furnace 104. A purification device 106 is connected to the downstream side of 105.

A furnace heater 107 is fixed to the inner bottom of the combustion furnace 104 so that its tip protrudes inward, and a terminal portion of the furnace heater 107 protrudes to the outside of the combustion furnace 104.

Furthermore, a metal processing container 1 is provided inside the combustion furnace 104.
08 on the furnace heater 107, and the processing container 108
A cylindrical portion 109 that encloses the furnace heater 107 is formed at the bottom of the cylindrical portion 109, and an opening 11O is provided in the wall surface of the cylindrical portion 109. An air supply port 111 that allows air to flow into the processing container 108 from this opening 110 is provided on the bottom surface of the combustion furnace 104, and the air supply blower 1 is connected to the air supply port 111.
12 and is housed in the main body 113 of the waste disposal device.

In the above configuration, when the lid 101 is opened, the waste 114 is thrown in, and the lid 101 is closed, the furnace heater 107 is energized.
The waste 114 is heated and incinerated by the thermal energy of the furnace heater 107, and the generated exhaust gas is made smokeless and odorless by the purification device 106 and then discharged.

Problems to be Solved by the Invention In such a conventional configuration, when liquid or waste containing a large amount of moisture is thrown in, the protrusion 109 of the processing container 108
The liquid flows down from the opening 110 made in the furnace material 1.
03. This seeped liquid caused corrosion between the furnace material 103 and the furnace frame 102. The same applies when the liquid turns into water vapor due to heating by the furnace heater 107, and the furnace material 103
absorbed into. Then, by the end of the treatment, the furnace material 10
If all of the liquid contained in No. 3 remains without evaporating, there is a problem that if left as is, corrosion will progress and a bad odor will be generated.

In addition, although the boundary between the furnace body frame 102 and the furnace material 103 of the combustion furnace is in contact, that part may be soft and cotton-like, or due to the molding process of the furnace material 103, it is difficult to obtain the dimensions like metal. For this reason, there is a problem in that exhaust gas generated during processing flows from the vicinity of the exhaust port 105 and the air supply port 111 into this boundary, causing corrosion and causing foul odors.

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a long-life, easy-to-use garbage disposal device in which the furnace body frame is not corroded or odor-free.

Means for Solving the Problems In order to achieve the above objects, the first means of the present invention is to provide a processing container into which waste is thrown, and a combustion furnace that is capable of housing the processing container and has an air supply port and an exhaust port. This combustion furnace has a structure in which the furnace material is covered with a furnace body frame, and a space is provided between the furnace material and the furnace body frame.

Further, the second means includes an air supply port sealing material and an exhaust port sealing material surrounding the space between the furnace material and the furnace frame around the air supply port and the exhaust port of the first means without any gaps. The structure includes a sealing material.

Effect: Due to the configuration of the first means, when waste containing a large amount of liquid or water is put into the processing container, the liquid may flow down from the protrusion opening of the processing container and seep into the furnace material, or cause damage to the furnace heater. The water vapor generated by heating and absorbed into the furnace material penetrates deep into the furnace material. Since the water that seeped into the furnace material has high water absorption and water retention properties, the space provided between the furnace material and the furnace frame prevents the water from coming into contact with the furnace material, so the moisture does not adhere to the furnace frame. It is what it is.

Further, according to the configuration of the second means, by providing an air supply sealing material at the intake port and an exhaust sealing material at the exhaust port in the space between the furnace material and the furnace body frame, the exhaust gas generated during the incineration process can be removed. This will prevent it from entering between the furnace material and the furnace frame.

EXAMPLE A first example of the present invention will be described below with reference to FIGS. 1 and 2. As shown in the figure, a combustion furnace 4 has a cover 1 that can be opened and closed at the top, and a furnace material 2 having heat insulation and water retention properties is covered with a metal furnace frame 3. A space 6 is provided by providing a spacer 5 between the inner wall surface of the furnace material 2 and the outer wall surface of the furnace material 2. Note that this spacer 5 is
It is made of materials such as ceramic and heat-resistant glass that are heat resistant, non-water absorbing, and corrosion resistant. Further, an exhaust lower that communicates with the outside is provided on the side wall surface of the combustion furnace 4, and a purification device 8 consisting of a purification heater and a catalyst is connected to the downstream side of this exhaust lower.

A rod-shaped furnace heater 9 is fixed to the inner bottom of the combustion furnace 4 so that its tip projects inward, and a terminal portion of the furnace heater 9 projects to the outside of the combustion furnace 4. A metal processing container 10 is provided inside the combustion furnace 4, and a cylindrical portion 11 that encloses the furnace heater 9 is formed at the inner bottom of the processing container 7, and a large number of openings are formed on the outer periphery of the cylindrical portion 11. A section 12 is provided. An air supply port 13 for flowing into the processing container 10 from this opening 12 is provided on the inner bottom surface of the combustion furnace 4, and a supply air supply port 13 for supplying air to the downstream side for clogging is provided! 14, and is housed in the main body 15 of the waste disposal device.

In the above configuration, if there is a large amount of liquid or moisture (contained dust 16
When the liquid is poured into the processing container 10, a part of the liquid flows down from the opening 12 provided in the protrusion 11 of the processing container 10 and soaks into the furnace material 2 at the air supply port 13, and also due to the heat of the furnace heater 9. The same goes for moisture that has once turned into steam due to energy, and some of it is absorbed into the furnace material 2 before it exits from the exhaust lower. Since the water that has seeped into the furnace material 2 has high water absorption and water retention properties, it does not drip down, and a space 6 is provided between the furnace material 2 and the furnace frame 3 by a spacer 5. This prevents moisture from coming into contact with the furnace body frame 3 and corroding it. By the end of the process, all the moisture is evaporated along with the odor inside the combustion furnace 4 by the thermal energy of the furnace heater 9, and purification is achieved. It is discharged to the outside through the device 8.

In the second embodiment of the present invention, as shown in FIG. 2, a furnace material 2' provided corresponding to a furnace frame 3 is brought into contact with the furnace frame 3 in the upper half thereof, and in the lower half thereof. The structure is such that a space 6 is formed.

In the above structure, the moisture that has seeped into the furnace material 2' moves to the lower part of the furnace material 2' due to gravity over time, so that the same effect as in the first embodiment is brought about.

Next, a third embodiment of the present invention will be described based on FIG. The main configuration is the same as that of the first embodiment, so the same parts are given the same numbers and detailed explanation thereof will be omitted.

As shown in the figure, a combustion furnace 4 has a lid 1 that can be opened and closed at the top and covers a furnace material 2, and an air supply port 13° and an exhaust lower are connected between the furnace material 2 and the furnace body frame 3. 17. The air supply seal material, which also serves as a spacer, surrounds each other without any gaps. An exhaust gas seal material 18 is provided. The air supply port sealing material 17 and the exhaust port sealing material 18 are made of materials such as ceramics and heat-resistant glass that have heat resistance, non-water absorption, and corrosion resistance properties.

In the above configuration, when the waste 16 is put into the processing container 10 and processed, exhaust gas is generated in the furnace. The generated exhaust gas mainly passes through the exhaust lower, is purified in the purifier 8, and is discharged to the outside. At this time, the exhaust gas flows from the air supply port 13 and the exhaust lower into the space 6 through the air supply lower sealing material 17. Since this can be prevented by the exhaust gas sealing material 18, corrosion of the furnace body frame 3 and the permeation of the odor peculiar to the exhaust gas to the furnace material 2 are eliminated. In addition, the above-mentioned air supply seal material 17
．． Although the exhaust loss seal material 18 is made non-water absorbing, if it is configured so that it evaporates during the treatment, the effect will be the same even if it is made of the same material as the furnace material 2.

Effects of the Invention As is clear from the above embodiments, according to the present invention, when boiling liquid from garbage containing a large amount of moisture, liquid that has been accidentally added, or moisture that has once evaporated is absorbed into the furnace material,
Since there is a space between the furnace material and the furnace frame, the furnace material and the furnace frame are in a non-contact state, and since the furnace material has high water absorption and water retention properties, moisture does not enter the furnace frame. No adhesion (
As a result, corrosion of the furnace frame can be prevented, and the moisture contained in the furnace material is evaporated by the thermal energy of the furnace heater until the treatment is finished, and released along with the odor to the outside through the purification device. In addition, the gap between the air supply port and the exhaust port between the furnace material and the furnace body frame is provided with an air supply port sealing material and an exhaust port sealing material to eliminate the gap between the furnace material and the furnace body frame. This prevents the exhaust gas from entering the furnace frame, prevents the exhaust gas from corroding the furnace frame, eliminates the smell peculiar to the exhaust gas from sticking to the furnace material, and provides a long-life, easy-to-use garbage disposal device.

[Brief explanation of drawings]

Fig. 1 is a vertical sectional view of a garbage disposal device according to a first embodiment of the present invention, Fig. 2 is a longitudinal sectional view of a garbage disposal device according to a second embodiment of the invention, and Fig. 3 is a longitudinal sectional view of a garbage disposal device according to a third embodiment of the invention. FIG. 4 is a longitudinal sectional view of a conventional garbage disposal apparatus. 2.2°...furnace material, 3...furnace frame, 4
... Combustion furnace, 6... Space, 7...
...Exhaust port, 10...Processing container, 13...
... Air supply port, 17 ... Air supply port sealing material, 1
8...Exhaust port sealing material. Name of agent Patent attorney Shigetaka Awano One idiot Figure 2- Revised ff-1-Suh'-Scoo--11Mr.

Claims (2)

[Claims] (1) A processing container into which waste is input, a combustion furnace in which the processing container is housed, an air supply port and an exhaust port are provided, and the furnace material is covered with a furnace frame, and the furnace material and the furnace frame are connected to each other. Garbage disposal equipment with space in between. (2) The waste disposal device according to claim 1, further comprising an air supply hole sealing material and an exhaust hole sealing material provided in the space around the air supply hole and the exhaust hole, respectively, in the space between the furnace material and the furnace body frame.