JP3199037U - Air conditioning - Google Patents

Abstract

An air conditioning apparatus that can be installed at an arbitrary place is provided. The cooling device includes a refrigerant circulation system 10, a cooling water circulation system 20, a cooling fin 30, a heat exchanger 40, an air cooling means 50, and air outside the casing after being cooled through the cooling fin. And a second fan means 60 for taking air from outside the casing and taking heat from the cooling water through the air cooling means and then exhausting it outside the casing. [Selection] Figure 1

Description

  The present invention relates to a cold (warm) chamber apparatus that can be temporarily installed or moved easily.

  In general, an air conditioner is composed of an indoor unit installed in a living room and an outdoor unit installed outdoors or on a veranda. The two are connected by a conduit through which the refrigerant passes. In the outdoor unit, the refrigerant is pressurized by a built-in compressor. At the time of cooling, the above-described refrigerant gas having a high temperature and a high pressure is sent to the heat exchanger of the outdoor unit and condensed using the outside air to generate a low-temperature and low-pressure refrigerant liquid. This is sent to the heat exchanger of the indoor unit, which takes heat from the indoor air and evaporates and vaporizes. The generated refrigerant gas is sent again to the compressor of the outdoor unit, and this circulation is repeated. During heating, the above refrigerant gas, which has been heated to high temperature and high pressure by the compressor, is sent to the indoor unit heat exchanger, cooled to the indoor air to become a low pressure and low temperature liquid, sent to the outdoor unit heat exchanger, By evaporating using the air, heat is taken from the outdoor air, the temperature is raised, the air is sucked into the compressor, and this circulation is repeated.

  However, since the indoor unit and the outdoor unit are separated as described above, the installation of the air conditioner is extremely restricted. Specifically, as the name suggests, indoor units are installed indoors, outdoor units are installed outdoors, and both are connected by pipes, so the position of indoor units is generally fixed, and the space for installing outdoor units is also large. I need it. There are devices that integrate a compressor, etc., but great efficiency is not expected and the cost is high. In addition, drain water is generated in the outdoor unit during cooling, but this treatment is also a restriction on the installation location.

  An object of the present invention is to provide a cooling (warming) cooling device that can relax installation conditions such as movement with sufficient cooling (warming) cooling efficiency at a relatively low cost.

In order to achieve this object, the present invention provides the following cold (warm) cell apparatus.
[1] Refrigerant circulation system, cooling water circulation system, cooling fin, heat exchanger, air cooling means, first fan means for taking air from outside the casing and cooling it through the cooling fins and then blowing it out of the casing, and , Having second fan means for taking air from outside the casing and taking heat from the cooling water through the air cooling means and then discharging it outside the casing;
The refrigerant circulation system includes a compressor capable of pressurizing the refrigerant, a refrigerant having a temperature increased by passing through the compressor, a conduit in a heat exchanger for passing the refrigerant, and a refrigerant A cooling fin inner pipe for cooling the air with the refrigerant, a pipe connecting the circulation between them and a refrigerant pump means for circulating the refrigerant,
The cooling water circulation system is provided in parallel or coaxially with the refrigerant heat exchanger pipe in the heat exchanger, and makes the refrigerant and the cooling water come into thermal contact with each other. Inner pipe line, the air cooling means for air cooling the cooling water that has taken heat from the refrigerant through the heat exchanger, the pipe line that circulates between them, and the cooling water pump means for circulating the cooling water Including
A blowout opening to the outside of the housing by the first fan means is provided on the side of the housing,
A discharge port to the outside of the housing by the second fan means is provided on the side surface of the housing or the top of the housing at a position separated from the air outlet,
A cooling device in which the flow of air in the casing by the first fan means and the flow of air in the casing by the second fan means are substantially separated.
[2] The cooling apparatus according to [1], wherein the air cooling means includes a multilayer body of a wood material having a large specific surface area.
[3] The cooling apparatus according to [2], wherein the wooden material includes a thin wooden sheet that is continuously bent or bent in a wave shape or a sawtooth shape.
[4] The water storage means for storing at least a part of condensed water on the surface of the cooling fin, and the valve means for allowing water from the water storage means to flow into the cooling water circulation system. Air conditioner.
[5] In the cooling device according to any one of [1] to [4], the air exhausted from the second fan unit is used as hot air, or further provided with a heater unit to heat the air heated thereby. Air-conditioning and heating equipment that has the function of blowing out as wind.

  According to the present invention, it is possible to install an air conditioner at an arbitrary place.

The schematic diagram which shows an example of a structure of the air conditioner of this invention

  In the present invention, “cooling” and “heating” usually include functions that can be achieved with a commercially available air conditioner, and the specific air conditioning performance is not limited. For example, warehouses, factories, gymnasiums, construction sites, outdoors and the like.

  As shown in FIG. 1, in the present invention, the cooling device takes in air from the outside of the casing into the casing 1 through the refrigerant circulation system 10, the cooling water circulation system 20, the cooling fins 30, the heat exchanger 40, the air cooling means 50, and the like. First fan means (not shown) for blowing out the casing after cooling through the cooling fins, and for taking air from outside the casing and taking heat from the cooling water through the air cooling means and then discharging it out of the casing The second fan means 60 is provided.

  The shape of the housing is not particularly limited, but typically has a substantially vertically long rectangular parallelepiped shape, and has a plurality of openings on the side surface and the upper surface thereof. These openings are for taking air into and out of the housing.

  The refrigerant circulation system includes a compressor capable of pressurizing the refrigerant, a refrigerant in the heat exchanger for passing the refrigerant, which cools the refrigerant whose temperature is increased by passing through the compressor, and the cooled refrigerant The cooling fin inner pipe for cooling the air by the above, the pipe connecting the circulation between them, and the refrigerant pump means for circulating the refrigerant.

  The compressor is the same as that used in an outdoor unit or the like of a conventional air conditioner, and compresses the refrigerant. The refrigerant may be the same as that used in the prior art air conditioner. As shown, the refrigerant enters the heat exchanger after being compressed. The heat exchanger is typically a refrigerant heat exchanger inner line and a cooling water heat exchanger inner line provided in parallel or coaxially (in the figure, drawn coaxially). And cooling water are brought into thermal contact. A general heat exchanger configuration can also be used as the configuration of the heat exchanger.

  The refrigerant cooled through the heat exchanger is sent to a pipe line in a cooling fin provided at another part in the casing. Air taken from outside the casing is blown to the cooling fins. The cooling fin and the refrigerant pipe are composed of a good heat conductor, and the cooling fin is cooled by the cooled refrigerant flowing in the refrigerant pipe, and the air passing through the cooling fin is cooled and blown to the outside. Gets heat and is sent back to the compressor. Such cooling fins and air intake / blowout means can also have a general configuration.

  The cooling water circulation system is heated by being brought into thermal contact with the refrigerant in the heat exchanger and then sent to the upper part of the air cooling means. The air cooling means is made of a material having a large specific surface area, and cools the cooling water by bringing the air taken in from the outside of the housing into contact with the cooling water. The material having a large specific surface area may be a material filled with particles such as resin beads or a honeycomb structure having pores on the wall surface, but is preferably a wood material multilayer. In particular, it is preferable to include a thin wood sheet that is continuously bent or bent in a wave shape or a sawtooth shape as shown in the figure.

  Here, the wood material is a material formed by cutting wood or compression-molding / adhering a piece of wood or wood powder, or an equivalent material, and the wood sheet is a wood material formed into a sheet shape. is there. Here, the “equivalent material” includes, for example, a material such as cardboard obtained by compression-molding a pulp taken out by pulverizing wood or binding it with an adhesive or a resin.

  By being woody, the cooling water can be allowed to flow down for a certain period of time while being held between its surfaces or constituent fibers.

  The wood sheet is particularly preferably in the form of a thin sheet that is continuously bent or bent into a wavy or serrated shape. As shown in the figure, “curving continuously in a wavy shape” indicates a shape in which the cross section of the sheet swells in the horizontal direction when the sheet is set up vertically, that is, the shape swings in the horizontal direction. As a result, the specific surface area per unit volume can be increased, and the cooling water can flow for a certain time or longer. The period and amplitude of these waves are determined by the required cooling water flow time. Instead of “curving continuously in a wave shape”, it may be bent continuously in a sawtooth shape. Air is blown from the bottom to the top or from one side to the other side.

  Since the cooling water is in direct contact with the air, a part of the cooling water is vaporized and discharged out of the casing by the air. Therefore, the present invention preferably further includes water storage means for storing at least a part of condensed water on the surface of the cooling fin, and valve means for allowing water from the water storage means to flow into the cooling water circulation system. For example, a pan having a water collection hole is provided under the cooling fin, and condensed water is collected in a tank through the water collection hole and stored. The valve means, for example, feeds condensed water into the cooling water circulation system when the water level in the tank becomes a certain level or when the amount of water in the cooling water circulation system falls below a certain level. For example, according to the water level in the tank A water level follower member that moves up and down (specifically, floats by the buoyancy of water) is provided, and is constituted by a balance-type valve means having this at one end and a valve body at the other end. When the water level exceeds a predetermined height, the valve body leaves the valve seat, water flows into the cooling water circulation system, and when the water level drops to the predetermined height, the valve body sits on the valve seat and water flows into the cooling water circulation system. Stop. However, these may be composed of a sensor that electrically senses the water level and an electromagnetic valve that opens and closes according to the result, or when the water level is sensed electrically and drops below a certain level, the cooling water is circulated by a pump. It may be sent to the system. Alternatively, the amount of water in the cooling water circulation system may be physically or electrically sensed, and when it becomes below a certain level, the valve may be opened or the pump may be operated to feed water into the cooling water circulation system.

  As a result of this configuration, the present invention does not require a drain for discharging condensed water on the surface of the cooling fin to the outside, and can be installed regardless of location as long as power can be supplied. In addition, the cooling water circulation system may be replenished with cooling water from the outside of the housing as necessary. However, the above configuration makes it unnecessary to minimize such replenishment. The limit is lower.

  Further, a partition for avoiding physical mixing of the air flow on the air cooling means side and the air flow on the cooling fin side is provided in the housing to substantially separate them, but the partition avoids thermal contact. For this reason, at least a part thereof may be a heat insulating wall.

  In addition, the fan used for the pump of each of a refrigerant | coolant and cooling water, and air intake and blowing may be used. Further, a water storage tank may be provided for the cooling water circulation system, or the water storage tank for condensed water itself may be used as a water storage tank for the cooling water circulation system. Further, the power source may be supplied from the outside through a power supply line, or a power source such as a rechargeable battery may be provided inside the housing.

  Furthermore, in the above, a cooling / heating apparatus incorporating a heating function by blowing out air from the fan means on the air-cooling means side as hot air, or further providing heater means and blowing out the heated air as warm air. Is also possible. In some cases, a pipe for discharging the warm air discharged from the inside of the housing to the outside of the target installation area may be provided, and a pipe fixing means for that purpose may be provided.

  The cooling (warming) cooling device of the present invention can be installed in any place, but is particularly useful for cooling in factories, warehouses, outdoors, and the like.

Claims (5)

Refrigerant circulation system, cooling water circulation system, cooling fins, heat exchanger, air cooling means, first fan means for taking air from outside the casing and cooling it through the cooling fins, and then blowing outside the casing, and outside the casing Having a second fan means for taking air from and taking heat from the cooling water through the air cooling means and then discharging it out of the housing;
The refrigerant circulation system includes a compressor capable of pressurizing the refrigerant, a refrigerant having a temperature increased by passing through the compressor, a conduit in a heat exchanger for passing the refrigerant, and a refrigerant A cooling fin inner pipe for cooling the air with the refrigerant, a pipe connecting the circulation between them and a refrigerant pump means for circulating the refrigerant,
The cooling water circulation system is provided in parallel or coaxially with the refrigerant heat exchanger pipe in the heat exchanger, and makes the refrigerant and the cooling water come into thermal contact with each other. Inner pipe line, the air cooling means for air cooling the cooling water that has taken heat from the refrigerant through the heat exchanger, the pipe line that circulates between them, and the cooling water pump means for circulating the cooling water Including
A blowout opening to the outside of the housing by the first fan means is provided on the side of the housing,
A discharge port to the outside of the housing by the second fan means is provided on the side surface of the housing or the top of the housing at a position separated from the air outlet,
A cooling device in which the flow of air in the casing by the first fan means and the flow of air in the casing by the second fan means are substantially separated. The cooling apparatus according to claim 1, wherein the air cooling means includes a multilayer body of a wood material having a large specific surface area. The cooling device according to claim 1 or 2, wherein the wood material includes a thin wood sheet that is continuously bent or bent in a wave shape or a sawtooth shape. The cooling device according to any one of claims 1 to 3, further comprising a water storage means for storing at least a part of condensed water on the surface of the cooling fin and a valve means for allowing water from the water storage means to flow into the cooling water circulation system. The cooling device according to any one of claims 1 to 4, wherein the exhaust air from the second fan means is used as hot air, or further has a heater means and blows out the air heated thereby as hot air. Air conditioner with

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