KR200314756Y1 - catalyst burner device for diffusion - absorption refrigerator - Google Patents

Abstract

The present invention relates to a heating device for a diffusion absorption refrigerator, such a heating device is a fuel container in which the fuel is stored, a holder tube connected to the other end of the fuel supply pipe connected to one end of the fuel pipe, and mounted on top of the holder tube Burner, a combustion catalyst installed in the longitudinal direction on the burner, a heating pipe wrapped in the longitudinal direction by wrapping the burner and the combustion catalyst on the side of the nutrient solution pipe of the refrigerator, and a predetermined portion of the fuel supply pipe. It includes a solenoid valve mounted. In addition, the diffusion absorption heating device for a refrigerator includes a fuel container in which the fuel is stored, a burner having one end connected to the other end of the fuel supply pipe connected from the fuel container, and a hollow in which the burner is installed at the bottom and wrapped around the nutrient solution pipe of the refrigerator. A cylindrical casing, and a fibrous combustion catalyst positioned on the top of the burner and filled in the center of the casing. According to the configuration as described above of the present invention can be completely burned as well as complete combustion.

Description

Catalytic burner device for diffusion-absorption refrigerator

The present invention relates to an absorption refrigerator, and more specifically, a tube for a heater holder on the side of a nutrient solution pipe constituting the generator for driving a bubble pump applied to a generator portion of a diffusion absorption refrigerator. The present invention relates to a diffusion type absorption refrigerator heating apparatus capable of stably combusting as well as complete combustion by installing and operating a catalytic combustion burner.

In general, the heating device of the diffusion absorption refrigerator is equipped with a direct burner that uses alternating current and direct current power, or a flame such as butane gas or LP gas, directly heats the nutrient solution tube of the generator.

In particular, the heating apparatus using a direct burner such as gas can be easily extinguished when used in a place where the wind is strong, such as outdoors, the operation of the refrigerator is stopped accordingly. In addition, as the heat from the burner, which is a heating device, passes through the heating pipe, the heating pipe acts as a chimney, so that a large amount of useful heat with the exhaust gas is released to the outside, resulting in a large heat loss and an increase in the loss due to incomplete combustion of the fuel. There is a problem.

In addition, flammable flames in direct-burning burners pose a fire hazard when contacted with flammable materials.

Therefore, the present invention was devised to solve the above problems, and an object of the present invention is to provide a suitable temperature from the initial ignition to the normal operation time when heat combusted through the catalytic combustor is transferred through the nutrient solution tube of the generator. By maintaining the temperature (140 ℃-180 ℃), the ignition device which is not affected by the wind without lowering the bubble pump efficiency in the generator and the heating device for the diffusion absorption refrigerator where the supplied fuel can be completely burned through the combustion catalyst. To provide.

1 is a schematic perspective view of a combustion heating apparatus for a diffusion type absorption refrigerator according to one embodiment of the present invention;

Figure 2 is a schematic configuration diagram of a combustion heating apparatus for diffusion absorption type refrigerator according to another embodiment of the present invention.

3 is an electrical circuit diagram of a combustion catalyst heating apparatus according to the present invention.

4 is a flow chart for explaining the combustion catalyst heating apparatus according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: heating device, 12: combustion catalyst,

14 catalyst burner, 16 holder tube,

20: heating pipe, 32: nutrient solution tube,

34: cylindrical casing, 36: fuel supply pipe,

38: solenoid valve, 40: fuel container,

50: drive switch, 52: temperature sensor,

56,60: relay, 58: spark ignition device

This object is achieved by the present invention, and according to one aspect of the present invention, the diffusion type absorption refrigerator heating apparatus, and a holder tube which is connected to the other end of the fuel supply pipe and the fuel supply pipe is connected to one end of the fuel container and the fuel container; A burner mounted on an upper portion of the holder tube, a combustion catalyst installed in a longitudinal direction on the upper portion of the burner, and a heating pipe wrapped in the longitudinal direction by wrapping the burner and the combustion catalyst on the side of the nutrient solution pipe of the refrigerator; And a solenoid valve mounted to a predetermined portion of the fuel supply pipe.

According to another aspect of the present invention, a diffusion type absorption refrigerator heating apparatus includes a fuel container in which fuel is stored, a burner having one end connected to the other end of a fuel supply pipe connected to the fuel container, and the burner installed at a lower portion of the refrigerator; It includes a hollow cylindrical casing is wrapped around the nutrient solution pipe of the, and a fibrous combustion catalyst located on the top of the burner and filled in the center of the casing.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, and the same reference numerals will be used for the same parts throughout the drawings.

1 is a schematic perspective view of a combustion heater for diffusion absorption type refrigerator according to an embodiment of the present invention, Figure 2 is a schematic configuration diagram of a combustion heating device for diffusion absorption type refrigerator according to another embodiment of the present invention. .

As shown in the figure, the heating device for the diffusion type absorption refrigerator according to the present invention shown by the reference numeral 10 is a holder tube 16 and the holder is connected to the other end of the fuel supply pipe is connected to one end of the fuel container in which the fuel is stored A catalyst burner 14 mounted on the upper portion of the tube 16, a combustion catalyst 12 installed in the longitudinal direction on the burner 14, and the burner 14 and a combustion catalyst on the side of the nutrient solution pipe ( 12 is composed of a heating pipe 20 wrapped in the longitudinal direction.

As shown in FIG. 2, the diffusion type absorption refrigerator heating apparatus according to another embodiment of the present invention includes a fuel container 40 in which fuel is stored, and one end of a fuel supply pipe 36 connected to one end of the fuel container 40. A burner 14 connected to the end, a hollow cylindrical casing 34 in which the burner 14 is installed at the bottom and wrapped around the nutrient solution pipe 32 of the refrigerator, and located at the top of the burner 14. And a fibrous combustion catalyst 12 filled in the center of the casing 34.

At this time, the fuel canister 40 is detachably installed so that the user can easily exchange the fuel canister 40.

3 is an electrical circuit diagram of a combustion catalyst heating apparatus according to the present invention.

As shown in the figure, a drive switch 50, a temperature sensor 54 of a combustion catalyst stage, and a heater temperature sensor 52 of a diffusion absorption refrigerator are respectively provided at an input terminal of a controller having a microcomputer type with a built-in control program. A spark ignition device 58 and a solenoid valve 38 are connected to the output terminal via a first relay 60 and a second relay 56. Here, R1 and R5 are resistors and IC2 is a diode.

With this configuration, the controller is ignited by the combustion catalyst temperature sensor 54 via the first relay 60, and then the solenoid valve 38 is operated by the combustion relay to switch to the catalytic combustion burner 14 in the second relay. The switch is controlled through the 56 and controlled through the second relay 56 to continuously control the appropriate temperature (140 ° C.-180 ° C.) in the heater temperature sensor 52. By forming a pumping cycle, it becomes possible to form a combustion catalyst heating device in which complete combustion is achieved.

4 is a flowchart illustrating a combustion catalyst heating apparatus according to the present invention.

As shown in the drawing, when the signal of the drive switch 50 is detected by the controller, the gas flow path is opened at the solenoid valve 38 (S10) to form an initial flame ignition (S20). If the temperature detected by the internal temperature sensor 54 is lower than the preset value T1 (S30), the gas flow path is cut off (S40), and the flame burner is ignited (58), and if the detected value is higher than the value T1. If the gas flow path is opened for several seconds (S50) to switch from flame burner ignition to combustion catalyst burner 14, the gas flow path is blocked for several seconds (S60), and the gas flow path is opened again (S70) to burn catalyst burner 14 It is switched to ignition and a continuous pumping cycle is formed while maintaining the proper temperature.

Then, when the target value is detected by the heater system temperature sensor above the T2 value (S80), the gas flow path is blocked by the solenoid valve 38 (S90) to stop the operation. Temporarily opened at a set pressure (0.25kg / ㎠) (S70) to provide a high efficiency heating device in the diffusion type absorption refrigerator.

According to the configuration and control method as described above of the present invention, the heating device of the diffusion type absorption refrigerator is completely burned by the combustion catalyst except for the preheating of the combustion catalyst for several seconds during the initial ignition, in this case butane gas and Compared with the LP type fuel burner, even one third of the fuel consumed can produce the heat of the burner, and the operation of the bubble pump is more effective. In addition, the combustion is more than 99.9% of the complete combustion, the generation of NOx and CO2 due to incomplete combustion is almost zero, so the problem of long-term combustion in the limited space, such as indoors, is not only a problem, but also in the place affected by the wind When operating, there is no fear of the flames shaking or extinguishing like in a direct-burning burner, resulting in a stable refrigerator operation.

It is apparent to those skilled in the art that the present invention is not limited to the embodiments described, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or modifications will have to belong to the utility model registration claims of the present invention.

Claims (3)

In the diffusion type absorption refrigerator heating apparatus, A fuel container in which fuel is stored; A holder tube having one end connected to the other end of the fuel supply pipe connected from the fuel container; A burner mounted on an upper portion of the holder tube; A combustion catalyst installed in the longitudinal direction on the burner; A heating pipe which is mounted in a longitudinal direction by wrapping the burner and the combustion catalyst on the side of the nutrient solution tube of the refrigerator; And And a solenoid valve mounted on a predetermined portion of the fuel supply pipe. The apparatus of claim 1, wherein the fuel container is detachable. In the diffusion type absorption refrigerator heating apparatus, A fuel container in which fuel is stored; A burner having one end connected to the other end of the fuel supply pipe connected to the fuel container; A hollow cylindrical casing installed at the bottom of the burner and surrounding the nutrient solution pipe of the refrigerator; And And a fibrous combustion catalyst positioned on the top of the burner and filled in the center of the casing.