JPS6146339Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to an air conditioner equipped with a steam heater.

Conventionally, an air conditioner installed on a ship, for example, is composed of a steam supply source 1 and a deck unit 2, as shown in FIG. A refrigeration system 3 for heating, a steam heater 4 for heating the air that operates during heating operation, a spray 5 for humidifying air that operates during heating operation, and fans 6, 6 are installed.

The steam S from the steam supply source 1 circulates through a circulation circuit L consisting of a strainer 7, a temperature control valve 8 controlled by the outlet air temperature of the fan 6, a steam heater 4, and a steam trap 9. The water is supplied to the spray 5 through a connecting pipe 10 branched from between the temperature control valve 7 and the temperature control valve 8 . Reference numeral 11 is a service valve.

In this air conditioner, saturated steam of 4 kg/cm ² G is mainly used as the supplied steam S. Steam containing condensate is supplied due to heat dissipation in the duct) and the connecting pipe 10, and condensate is discharged from the spray 5 along with the steam, causing problems such as water droplets falling from the duct.

The purpose of the present invention is to provide an air conditioner having a structure that can prevent the above-mentioned problem of condensate being discharged from the sprayer. In addition to installing a header for gas-liquid separation in the middle of the piping,
A connecting pipe to an air humidifying spray is connected to a position a predetermined distance above the bottom of the header, a liquid reservoir is formed at the inner bottom of the header, and the liquid reservoir is connected to the air humidifier through a steam trap. It is characterized by being connected to the outlet side of the steam heater.

DESCRIPTION OF THE PREFERRED EMBODIMENTS An air conditioner according to an embodiment of the present invention will be described below with reference to FIGS. 2 to 4.

2 and 3 show the first and second embodiments of the present invention, respectively, and the main components in each of these embodiments are the same as those of the conventional example shown in FIG. A detailed explanation thereof will be omitted.

In the first embodiment shown in FIG. 2, a steam supply source 1,
In a steam circulation circuit L consisting of a strainer 7, a temperature control valve 8, a steam heater 4, and a steam trap 9, a header 12 for separating gas and liquid is interposed between the strainer 7 and the temperature control valve 8.

The header 12 is a cylinder (for example, the outer diameter is 38 mm) that is thicker than the pipes 13 and 14 (for example, the outer diameter is 38 mm).
50.8 mm and a height of 550 mm), and has the function of reducing the flow rate of the supplied steam S from the steam supply source 1 and separating the drain from the steam S due to heat dissipation in the middle of the pipe.

Therefore, the pipe 13 from the strainer 7 and the pipe 14 to the temperature control valve 8 are both connected to the upper end of the header 12.

Furthermore, a communication pipe 10 to the spray 5 is connected to the header 12 at a position above the bottom by a predetermined distance h (for example, 75 mm), thereby connecting the inner bottom of the header 12 (i.e., the base of the communication pipe 10). A liquid reservoir 15 is formed below the end.

The liquid reservoir 15 is connected via a steam trap 16 to the outlet side of the steam heater 4 and to the downstream side of the steam trap 9. That is, the drain d accumulated in the liquid reservoir 15 is returned to the outlet side of the steam heater 4 via the steam trap 9.

Furthermore, the refrigeration system 3 in the deck unit 2 includes a compressor 17, a condenser 18, an expansion valve 19, and an evaporator 20.
It consists of sequentially connected.

Next, the operation of the air conditioner shown in FIG. 2 will be explained.

During heating operation, 4Kg/
The saturated steam S of cm ² G passes through the strainer 7 and reaches the header 12, but as a result of the flow rate being reduced in the header 12, the drain d generated by heat radiation in the piping 13 leading to this point flows to the inner bottom of the header 12. The liquid is separated and stored in the liquid storage section 15. Then drain d
Most of the separated saturated steam is supplied to the steam heater 4 via the temperature control valve 8, and after being liquefied by heat exchange with the air, it is returned to the steam supply source 1 via the steam trap 9. A part of the saturated steam is transferred to the connecting pipe 10.
through the sprayer 5, where it humidifies the air heated by the steam heater 4. This humidified heated air is force-fed by fans 6, 6 through a duct to a location where heating is required.

The drain d stored in the liquid reservoir 15 of the header 12 joins the reflux liquid downstream of the steam trap 9 on the outlet side of the steam heater 4 via the steam trap 16.

Therefore, the spray 5 is supplied with saturated steam after gas-liquid separation in the header 12,
Not only can drain discharge from the spray 5 be prevented, but also saturated steam or superheated steam after gas-liquid separation is supplied to the steam heater 4, and the heater performance is improved.

Note that during cooling operation, only the refrigeration device 3 is operated to cool the air.

In the second embodiment shown in FIG. 3, a heat exchanger 21 is interposed in the pipe 14 between the header 12 and the temperature control valve 8, and the communication pipe 10 to the sprayer 5 is connected via a pressure reducing valve 22. Penetrating into the heat exchanger 21,
Heat is exchanged between the two.

In this case, 4Kg/
0.35Kg/ ^cm2・G saturated steam and pressure reducing valve 22
By exchanging heat with steam reduced to ^cm2・G,
The degree of superheating of the steam supplied to the spray 5 is increased to prevent the generation of drainage due to a temperature drop within the communication pipe 10.

To explain the change in the state of the steam supplied to the spray 5 at this time with reference to the Mollier diagram in Figure 5, the saturated steam in the state of symbol a (4 kg/cm ² G, /50°C) flows into the pressure reducing valve. 22, the pressure is reduced to the state shown by code b (0.35Kg/cm ² G, /35°C), and then heated in the heat exchanger 21, resulting in the state shown by code c (0.35
kg/cm ² G, 147°C) and is supplied to the spray 5. That is, compared to the case where the pressure is simply reduced (symbol b), overheating of about 12° C. or more can be obtained.

In addition, as shown in FIG. 4, inside the header 12 in the first and second embodiments, there is a slight gap on both upper and lower sides, and the baffle plate 23 is arranged so as to face the opening of the pipe 13 from the steam supply source 1. By providing this, when steam flows into the header 12, it collides with the baffle plate 23, thereby further promoting gas-liquid separation.

Next, the effects of the air conditioner of the present invention will be listed below.

That is, according to the present invention, (1) the header 12 for gas-liquid separation is interposed in the middle of the pipes 13 and 14 that connect the steam supply source 1 and the steam heater 4 for heating the air; A communication pipe 10 to the spray 5 for air humidification is connected to a position a predetermined distance h above the bottom of the header 12 to form a liquid reservoir 15 at the inner bottom of the header 12.
(2) The liquid reservoir section 15 is connected to the outlet side of the steam heater 4 via the steam trap 16, there are practical effects such as easy drainage reflux.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram of a conventional air conditioner, FIGS. 2 and 3 are circuit diagrams of an air conditioner according to the first and second embodiments of the present invention, and FIG. 4 is a modification of the header. The cross-sectional view and FIG. 5 are Mollier diagrams for explaining changes in the state of the vapor supplied to the spray in the second embodiment of the present invention. 1... Steam supply source, 4... Steam heater, 5...
Spray, 10...connection pipe, 12...header,
13, 14...Piping, 15...Liquid reservoir, 16...
Steam trap.

Claims (1)

[Scope of utility model registration request] A header 12 for gas-liquid separation is interposed in the middle of the pipes 13 and 14 connecting the steam supply source 1 and the steam heater 4 for air heating, and the header 12
A communication pipe 10 to the air humidifying spray 5 is connected to a position a predetermined distance h above the bottom of the header 12 to form a liquid reservoir 15 at the inner bottom of the header 12, and the liquid reservoir 15 is connected to a steam trap 16. An air conditioner characterized in that the air conditioner is connected to the outlet side of the steam heater 4 via.