KR940005317Y1 - Ventilator inleting air in assembled-heat - Google Patents

Abstract

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Description

Regenerative External Intake Ventilator

1 is a view for explaining the overall system of the air conditioner according to the present invention.

2 is a partial cutaway perspective view of a heat storage type external air suction device according to the present invention.

3 is a side cross-sectional view of a heat storage external air suction device according to the present invention.

* Explanation of symbols for main parts of the drawings

A: Indoor C: Boiler

1: housing 2: heating tube

3: heat exchange means 4: cooling coil

5,6: Doc

The present invention relates to a heat storage type external air intake ventilator, and more specifically, to accumulate heat of a heat transfer heater or a heating boiler using a midnight electricity, so that the heat can be supplied to the room at a constant temperature of intake air at all times. It relates to a regenerative external air intake ventilation device.

An air conditioner equipped with a means for inhaling outside air for indoor ventilation, etc., requires a constant temperature maintaining device for reducing the temperature difference between the indoor temperature and the outside air.

However, the air conditioner proposed so far has a problem that the heating effect is lowered because the low temperature outside air flows in the winter season when the heating is performed because the thermostat is not installed, and the cooling effect is low because the hot air flows in the summer season. There is a problem falling.

The present invention is devised to solve the problems of the prior art as described above, the object of the present invention is to provide a regenerative air intake ventilation device that can improve the effect of heating or cooling by appropriately adjusting the temperature of the incoming air. It is.

In order to realize the above object of the present invention, a heat exchange means for installing a heating coil pipe on the lower side of the housing, retaining the cooling coil on the upper outer side of the housing, and installing a duct on the upper side of the cylinder for suction and supply of outside air. By installing the heat is introduced to the outside air is made.

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

FIG. 1 is a view for explaining an example of an air conditioner in which an outside air intake ventilator according to the present invention is installed. The heating tube 2 installed on the floor of the interior A of the building is, for example, a boiler C. It is connected to the water supply pipe (D) to be supplied with hot water, the heating pipe (2) is connected to the housing (1) of the heat exchanger device according to the present invention through the room.

The heating tube 2 is installed in the housing 1 in a state of being drawn out again to the outside of the housing while being wound in a coil multiple times as shown in FIG. 2, as shown in FIG. 1. Similarly, it is connected to the return pipe (G) of the boiler (C).

In such a configuration, the hot water coming from the boiler C through the water pipe D flows along the heating tube 2, enters the housing 1, and then returns back into the boiler C through the return pipe G. .

The housing 1 is installed at one place in the room A (a surrounding in which the boiler is installed), and water is contained in the housing 1 and heat exchange means 3 is fixedly installed at one side of the housing.

The heat exchange means (3) has a tub with a volume smaller than the interior volume of the housing (1), in which a cooling coil (4) is located, the upper part of which passes through the housing (1). The lower part is configured to communicate with the lower side of the housing 1. (See Figure 3)

And the upper part of this cylinder is blocked by the partition wall (H), the left and right sides of the cylinder, respectively, the duct (5) which can suck the outside air, and the duct (6) for introducing the sucked outside air into the room (A) ) Is installed in a state of communicating.

As shown in FIG. 1, the duct 6 is provided with a conventional blower K that can suck outside air and blow it into the room.

When the blower K is driven in the above-described configuration, the outside air flows into the cylinder of the heat exchange means 3 through the duct 5 and flows into the duct 6 via the cooling coil 4.

In the outside air intake ventilator of the present invention, the hot water supplied from the boiler C flows in the housing 1 while flowing along the heating tube 2, so that the water in the housing 1 gradually increases in temperature. Will rise.

At this time, the water in the housing (1) can be changed according to the temperature of the hot water flowing along the heating tube (2), the water in the housing (1) affected by the temperature of the heating tube (2) is hot due to the difference in density Losing water rises upwards, while cold water above it flows downward.

Therefore, the temperature distribution of the water in the housing 1 always maintains a high temperature at the upper side. Since this temperature distribution has a similar distribution in the heat exchange means 3, when the blower K is driven in this state, the outside air duct As it enters into the cylinder of the heat exchange means 3 through (5), it starts to warm gradually.

That is, the outside air introduced through the duct 5 may be considerably low in winter, and the outside air of the low temperature becomes warm as it is introduced into the heat exchange means 3.

At this time, the outside air warmed in the heat exchange means (3) is supplied to the room (A) through the duct (6) by the suction force of the blower (K), the low-temperature air in the heat exchange means (3) cooling coil (4) By passing through the cooling coil is reduced in temperature as the heat exchange is made, the water in the high temperature housing (1) is a difference in specific gravity with the water here.

In this case, since the water in the low temperature state has a specific gravity greater than that in the high temperature state, the water in the low temperature state is lowered, so that the low temperature water flows into the housing 1 through the lower side of the cooling coil 4, and the upper portion of the housing 1 The hot water in the circulation goes into the upper side of the cooling coil (4).

Therefore, the heat exchange means 3 is able to maintain a constant temperature at all times, it is possible to install a thermostatic valve (not shown) in the cooling coil 4 to control the water circulation reference point to open and close the pipeline.

This technique is generally able to use the temperature control means used in conventional boilers, and does not relate to the main technical features of the present invention, detailed description thereof will be omitted.

In the above description, in the case of the winter season, only the case where the outdoor air is low temperature is described, but since the boiler is not operated in the summer, the temperature of the water in the housing 1 may be lower than that of the outside air, thereby slightly lowering the temperature of the incoming air.

As described above, since the outside air intake ventilation device according to the present invention can be supplied to the room by controlling the temperature at a constant temperature while inflowing the outside air, it is possible to prevent a sudden drop in the room temperature caused by the inflow of cold air in the winter season. On the contrary, the summer can be supplied to the room by lowering the hot air slightly in summer, so that the cooling can be prevented from being drastically lowered.

Claims (1)

A heating tube 2 connected to the boiler C is located inside the housing 1, and a heat exchange means 3 having a cooling coil 4 is installed outside the upper part of the housing 1. Means (3) is a regenerative air intake ventilation device, characterized in that the duct (5, 6) capable of inhaling the outside air by the blower and introduced into the room are installed on the left and right around the cooling coil (4), respectively.