KR0112816Y1 - Compact regenerator of absorptive type cooling heating machine - Google Patents

Abstract

The present invention transforms the shape of the main body into a coil shape to increase the heat transfer area to increase the thermal efficiency, increase the thermal efficiency between the steel solution and the chemical solution, and make it compact and at the same time install the combustion chamber inside. The present invention relates to a compact regenerator of an absorption type cold and heater designed to simplify the structure by forming a small volume. The exhaust gas is exhausted through an exhaust pipe 12 installed at an upper part by installing a burner 13 under the combustion chamber 11. Coil-shaped to be built in the combustion section 10 so that the refrigerant flows into the lower portion by flowing the refrigerant (aqueous solution containing NH3) from the lower portion through the combustion section 10 and the steel solution pipe 20 connected to the absorber. It is connected to the discharge end of the main body 30 and the main body 30 to separate the liquid and steam and the liquid and vapor separated from the gas-liquid separation unit 40 and supplied separately It is composed of approximately solution tube 50 and the rectifying organ (60).

Description

Compact regenerator with absorption air conditioner

1 is a structural diagram of a conventional regenerator

2 is a structural diagram of the gas-liquid separator of the present invention

3 is a plan sectional view of the present invention gas-liquid separator

4 is a structural diagram showing another embodiment of the subject innovation combustion unit

* Explanation of symbols for main parts of the drawings

10: combustion section 11: combustion chamber

12: exhaust pipe 13: burner

20: steel solution pipe 30: main body

40: gas-liquid separator 41: separator

42: separator 43: support

50: medicinal solution tube 60: rectifier

The present invention relates to a regenerator of an absorption type air conditioner, and in particular, the shape of the main body is transformed into a coil shape, thereby increasing the heat transfer area to increase the thermal efficiency, and to increase the thermal efficiency between the steel solution and the chemical solution. The present invention relates to a compact regenerator for absorption type cold / heater, which is designed to simplify the structure by providing a smaller combustion volume than the thermal efficiency by installing inside.

The structure of the regenerator of the conventional absorption type air conditioner is, as shown in FIG. 1, the main body 1 into which the coolant (aqueous solution containing many NH 3) of the strong solution flows through the steel solution pipe 2 connected to the absorber, and the outside of the main body 1. Installed in a zigzag at intervals set in the heat exchange fins 4 and the inner circumferential surface of the main body 1 and heated by the burner 3 to promote heat transfer of the heat exchange fins 4 to uniformize the temperature distribution therein. A plurality of baffles (5) are separated into refrigerants of steel and chemical solution, and coils are installed at the center of the main body (1) and flow into the main body (1) to absorb the refrigerant (aqueous solution with less NH3) of the chemical solution to the absorber. It consists of the chemical liquid pipe 6 which is sent out.

The regenerator configured in this way flows into the main body 1 through the steel solution pipe 2 the refrigerant of the steel solution (NH 3 -rich aqueous solution) fed by the absorber, and the refrigerant of the steel solution introduced into the main body 1 is a burner ( It is connected through a heat exchange fin (4) is heated by 3), in this case, in order to equalize the temperature distribution in the main body 1, the heat source transmitted to the main body 1 is transferred to a plurality of baffles (5) installed in a zigzag, The heat source delivered to the buckle promotes heat transfer to equalize the temperature distribution inside and evaporates the refrigerant, thereby changing to a refrigerant (aqueous solution with little NH 3).

At this time, the pressure generated within the main body 1 (about 20 atm for single use) is increased to send a vapor refrigerant to the liquid / steam separator 7, and the steam refrigerant introduced from the main body 1 is liquid / While passing through the steam separator (7) the speed drops and separates the water passed along with the refrigerant, and sends only the steam refrigerant to the light current.

Therefore, the refrigerant of the medicinal solution separated and submerged into the refrigerant of the steel and the medicinal solution by non-distillation enters the lower inlet of the good solution pipe 6 and is fed to the absorber on the low pressure side.

By the way, the following problems exist conventionally.

First, the main body 1 has a pin shape so that there is a difficulty in manufacturing,

Second, the burner 3 for heating the main body 1 is installed on one side of the main body 1 so that the heating direction is inferior in thermal efficiency in one direction.

Third, the burner 3 for heating the main body 1 is to heat the outside of the main body 1, there is a problem that the combustion volume must be large,

Fourth, there was a problem in that the structure is complicated due to the above-described reason, and the specification has to be made larger than necessary compared to the thermal efficiency.

The present invention aims to solve such a conventional problem, by increasing the heat transfer area by transforming the formation of the main body into a coil shape, increasing the thermal efficiency, increasing the thermal efficiency between the steel solution and the chemical solution, and compacting the combustion chamber. By installing it inside, the combustion volume can be made smaller than the thermal efficiency. The purpose is to provide a compact regenerator of the heater.

In order to achieve the object of the present invention, the burner is installed in the lower part of the combustion chamber to exhaust the exhaust gas through the exhaust pipe installed in the upper portion, and the steel liquid refrigerant (NH3-rich aqueous solution through the steel solution pipe connected to the absorber) ) Is a coil-shaped main body which is embedded in the combustion unit so as to be discharged upward from the lower part, a gas-liquid separator connected to the discharge end of the main body to separate liquid and steam, and a liquid and vapor separated from the gas-liquid separator, respectively. It is a basic feature of the present invention that a compact regenerator of absorption type cold and heater is composed of a medicinal solution pipe and a light flow engine that allow separate supply.

The combustion unit is installed in the lower part of the main body or inserted into the main body to be heated as a whole. The gas-liquid separator is connected to the discharging end of the main body and separates and supplies liquid and vapor to the medicinal liquid pipe and the rectifying engine, respectively, and is separated from the liquid and vapor by the vapor refrigerant being discharged located above the discharging end of the main body. And a support plate for fixing the separator plate as much as possible and fixing the separator plate to the separator.

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

2 and 3, the burner 13 is installed in the lower part of the combustion chamber 11 so that the exhaust gas is exhausted through the exhaust pipe 12 installed in the upper part, and the steel solution connected to the absorber. Coil-shaped main body 30 embedded in the combustion section 10 so that the refrigerant (aqueous solution containing many NH3) of the steel solution flows in from the lower portion through the pipe 20 and discharges upward, and at the discharge end of the main body 30. Connected to the liquid-liquid separator 40 to separate the liquid and steam, and the liquid and steam separated by the liquid-liquid separated in the gas-liquid separator 40, 50 and the rectification pipe (60) absorption cold, The compact regenerator of the heater is a basic feature of the present invention.

The combustion unit 10 is installed to the burner 13 in the lower portion of the main body 30 or inserted into the main body 30 as shown in FIG.

The gas-liquid separator 40 is connected to the discharge end 31 of the main body 30 to separate and supply the liquid and steam to the medicinal solution pipe 50 and the rectifying pipe 60, respectively, and Located above the discharge end 31 of the main body 30, the separating plate 42 to be built so that the discharged liquid and vapor hit and separated, and the support 43 for fixing the separating plate 42 to the separating cylinder 41 It is composed of

According to the present invention configured as described above, the refrigerant (aqueous solution containing many NH3) of the steel solution, which is pumped from the absorber, is introduced into the main body 30 through the steel solution pipe 20 and flows into the main body 30 as in the conventional operating principle. The refrigerant in the solution rises while rotating in a spiral direction along the coil shape, and the rising refrigerant is heated by the burner 13.

At this time, since the main body 30 is installed in the combustion chamber 11 in the combustion unit 10 and heated by the burner 13 installed in the lower part of the combustion chamber 11, the combustion heat is uniformly uniform throughout the coil-shaped main body 30. Is heated.

Since the refrigerant that is heated and discharged while circulating in the main body 30 is uniformly evaporated, it reaches the upper end 31 of the main body 30 to change into a refrigerant (aqueous solution with little NH 3) of the chemical solution.

At this time, while the phase change of the refrigerant occurs due to the heating is discharged to the gas-liquid separator 40.

The discharged steam refrigerant hits the separator plate 42 and the thermal driving force is generated by the non-evaporation of the liquid / vapor, so that the liquid is submerged and the vapor is raised, so the liquid is a chemical liquid tube 50 tube, and the gas is a rectifying engine ( 60) respectively, the refrigerant of the chemical solution discharged to the chemical solution tube 50 is pumped to the absorber on the low pressure side, the steam discharged to the rectifier engine 60 is sent to the rectifier.

In this way, the present invention can increase the heat transfer area and increase the thermal efficiency between the steel solution and the chemical solution by increasing the heat transfer area by transforming the shape of the main body into a coil shape, and can reduce the size of the regenerator per unit thermal efficiency. By installing the combustion chamber inside, the combustion volume can be made smaller than the thermal efficiency, thereby simplifying the structure.

Claims (3)

A burner installed at a lower portion of the combustion chamber to allow exhaust gas to be exhausted through a vessel installed at an upper portion thereof; A coil-shaped body embedded in the combustion unit so that the refrigerant of the steel solution flows in from the lower portion and discharges upward through the steel solution pipe connected to the absorber; A separation tube connected to the discharging end of the main body for separating and supplying liquid and steam, and a separation tube which is installed above the discharging end of the main body to impinge on and discharged from the refrigerant to be separated into liquid and steam; A gas-liquid separator consisting of a support fixed to the separator; Compact regenerator of the absorption air-conditioner, characterized in that it consists of a medicinal liquid tube and a rectifying engine to separate and supply the liquid and vapor separated from the gas-liquid separator. The compact regenerator of an absorption type air conditioner according to claim 1, wherein the burner is provided with a burner under the main body. The compact regenerator of an absorption type air conditioner according to claim 1, wherein the combustion section is provided with a burner inserted into the main body.