JPH01200122A - Local cooling heating device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] (Industrial application field) The present invention relates to a local heating and cooling system.

(Conventional technology) To heat and cool large spaces, a large air conditioner is installed in the mechanical room of a building, hot or cold air is blown out from outlets throughout the room through ceiling ducts, returned to the air conditioner through the inlet, and heated. The indoor environment is maintained by circulating wind or cold air.

Indoor heating and cooling temperatures can be determined by attaching a temperature setting device to the air conditioner, or by installing a temperature setting and temperature sensing device in the room in which it is used, and heating and cooling the entire room while controlling the air conditioner. There is.

(Problems to be Solved by the Invention) In the conventional method, the indoor temperature during heating and cooling is set at a constant temperature, and the air is blown downward from the air outlet in the ceiling. It is not constant and has the following problems.

i) During heating, warm air stagnates in the upper part of the room,
The area near the floor is at a low temperature, and your feet are cold.

ii) During cooling, cold air stagnates in the lower layers of the room and may cause physical damage.

iii) Since the indoor temperature is constant, it is not possible to adjust the temperature depending on individual differences.

iv) Unable to respond to requests for heating and cooling due to individual differences other than when heating and cooling is activated or outside of the heating and cooling season.

The present invention has been proposed in view of the problems of the prior art described above, and its purpose is to create an environment that meets the preferences of the occupants in the room, and at the same time to reduce the temperature of the top and bottom of the room during heating and cooling. The object of the present invention is to provide a local heating and cooling device that eliminates distribution.

(Means for Solving the Problem) In order to achieve the above-mentioned object, the local heating and cooling device according to the present invention is provided with heat dissipation fins and heat absorption fins respectively disposed on the upper and lower surfaces of a thermal element having a Peltier effect. Upper and lower hoods each having a built-in blower facing the fins are arranged opposite to the radiation fins and the heat absorption fins.

(Function) In the local heating and cooling device according to the present invention, when power is supplied to a thermal element having a Peltier effect such as a thermoelectric conversion element or an electronic cooling element, the upper endothermic side of the thermal element becomes low temperature, thereby cooling the endothermic fins. Then, air from the upper part of the room is sucked into the upper hood by the upper blower installed opposite to the same heat-absorbing fin.
Cool air cooled by heat absorbing fins is blown out from the upper hood.

On the other hand, the lower heat radiation side of the thermal element becomes high temperature, which heats the radiation fins, and the air from the lower part of the room is sucked into the lower hood by the lower blower installed opposite to the radiation fins. Air is blown out from the lower hood.

When the flow of Ti flow in the thermal element is reversed, heat is dissipated.

The endothermic interactions are reversed, with hot air blowing out of the upper hood and cold air blowing out of the lower hood.

(Example) The present invention will be described below with reference to the illustrated embodiments.

In the embodiment shown in Figs. 1 and 2, (1) is a workbench top plate supported on a support stand (2) erected on the indoor floor, with a thermoelectric conversion element on the edge and an electronic cooling device. A thermal element (3) having a Peltier effect, such as an element, is arranged.

In the figure, (4) is a DC power supply connected to the isothermal element (3).

A heat absorption fin (5) and a heat radiation fin (6) are attached to the heat absorption side upper surface and the heat radiation side lower surface of the thermal element (3), respectively,
Further, an upper blower (7) and a lower blower (8) installed opposite to the heat absorbing fins (5) and the heat dissipating fins (6) are built in, and an upper hood (9) and a lower hood 0ω that can adjust the wind direction are installed. It is attached to the top plate (]).

In the figure, (9a) and (10a) are the air outlets of the upper hood (9) and lower hood 0 (I), respectively.

The thermal element (3) is made by, for example, joining a P-type semiconductor and an N-type semiconductor through electrodes, attaching the fins (5) and (6) for heat exchange to the electrodes, and connecting a DC power source to the electrodes. However, the semiconductor junction portion is configured to be cooled or heated by passing a current through the electrode.

Since the illustrated embodiment is configured as described above, when a current is passed through the thermal element (3), the heat absorption side of the isothermal element (3) on the top plate (1) becomes low temperature, and the heat absorption fin ( 5), and the top plate (
1) Insert the upper air into the upper hood (9) as shown by arrow A.
The cold air is sucked in and cooled by the heat absorbing fins (5) and then blown out from the air outlet (9a) of the upper hood (9).

On the other hand, the heat radiation side of the thermal element (3) at the bottom of the top plate (1) becomes high temperature, which heats the radiation fins (6) and blows the air at the bottom of the top plate (1) by the arrow B As shown in the figure, the warm air is sucked into the lower hood 0(1) and heated by the heat radiation fins (6) through the outlet (1) of the lower hood 0ω.
Blows out from 0a).

When a current is passed through the thermal element (3) in the opposite direction, the interaction between heat radiation and heat absorption becomes opposite, and hot air is blown from the upper part of the top plate (+) and cold air is blown from the lower part.

Figures 3 and 4 show an embodiment in which the local heating and cooling system of the present invention is applied to a desk, where (11) is the top plate of the desk, 02) is the suction port, and surface ' is the power source for the thermal element (3). and an electric box containing a power source for the drive motor f14 of the upper and lower blowers (7) and (8), and other parts in the figure that are equivalent to those in the previous embodiment are given the same reference numerals.

Note that the present invention is also applicable to local heating and cooling of large spaces.

(Effects of the Invention) As described above, the local heating and cooling device according to the present invention has heat radiation fins and heat absorption fins disposed on both upper and lower surfaces of a thermal element having a Peltier effect, and upper and lower air blowers facing each fin. Built-in upper and lower hoods are installed opposite to the heat dissipation and heat absorption fins, and by passing a current through the heat elements, cool or warm air is blown from the upper hood, and hot or cold air is blown from the lower hood. By doing so, it is possible to freely control heating and cooling depending on individual differences, and it is also possible to obtain an environment that matches the preferences of the occupants even during heating and cooling periods or when the air conditioner is not operating.

Further, according to the present invention, an environment where the head is cold and the feet are warm can be obtained using the top plate of a desk, workbench, etc. as a boundary.

Furthermore, since the structure is configured to blow cold and hot air to the upper and lower parts of the room through the upper and lower hoods, the temperature difference throughout the room is reduced, and a comfortable environment can be created.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal cross-sectional view showing one embodiment of the local heating and cooling device according to the present invention, FIG. 2 is a longitudinal cross-sectional view showing air flow in the same device, and FIG. 3 is a longitudinal cross-sectional view showing another embodiment of the present invention. A vertical side view, and FIG. 4 is a perspective view thereof. (1) - Top plate, (3) - Thermal element with Peltier effect (5) - One heat absorption fin, (6) - Heat radiation fin,
(7) - Upper air blower m (8) - Lower air blower, (9) - Upper hood 0■ - - Lower hood shoulder 2 causes

Claims (1)

[Claims] Heat radiation fins and heat absorption fins are respectively disposed on the upper and lower surfaces of a thermal element having a Peltier effect, and upper and lower hoods each having a built-in blower facing each fin are provided opposite to the heat radiation fins and heat absorption fins. A local heating and cooling device characterized by: