JPS61149109A - electronic cooling pillow - 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 The present invention relates to an electronic cooling pillow mat using a thermoelectric cooling device.

To relieve fever-related illnesses, or when it is difficult to sleep during a nap on a tropical night or midsummer, a water pillow is used, or a mat backed with a material with a high specific heat is cooled in the refrigerator.
In both cases, the cooling power does not last.

If you use them at the same time for a certain period of time, you will have to replace them.In some cases, ice is used to maintain the cooling power, but it is not only impossible to control the temperature, but it can also get so cold that you get a headache immediately after use. , ice or water moves and makes noise, and water vapor in the air condenses on the surface of the pillow, making your head and bed wet and making it uncomfortable to use. This is a big problem for patients with unstable mental states. be.

The present invention has been made to improve the above-mentioned drawbacks, and is directed to an electronic cooling pillow using a thermoelectric cooling device.

The electronic cooling pillow is characterized in that a discharge port for discharging heat from the device is provided on one end surface perpendicular to the longitudinal direction of the pillow body.

The present invention will be explained below with reference to embodiments shown in FIGS. 1 to 5. 1 is the main body of the electronic cooling pillow according to the present invention.

2 is an air intake port provided on both sides of the pillow body.

3 is an air discharge port, which is provided on one end surface perpendicular to the longitudinal direction of the frame body, and is connected to the suction port 2 and the heat radiation duct [
2 is a thermo-element 66, which is connected to a DC power supply (not shown) via the power cord 4. By passing a DC current through the thermo-element 6, the upper surface absorbs heat and the lower surface generates heat. A phenomenon occurs. The upper surface of the thermoelement 6 and the cooler 5 are in close contact, and the cooler 5 is cooled by the heat absorption phenomenon of the thermoelement 6 to lower its temperature, and the mat 8 is further cooled.6 The mat 8 has thermal conductivity. It is made of two layers: an elastic body 8b and an elastic body 8c having heat insulating properties. Even when the heat conductive elastic body 8b is cooled, the heat transfer is inhibited by the heat insulating elastic body 8c, and the mat Almost no temperature drop occurs on the surface 8a. Further, a heat insulating material 9 is provided around the mat 8 to prevent heat from entering from the upper surface of the frame body around the mat. Therefore, the problem caused by condensation of water vapor in the air does not occur, and if a soft urethane foam or the like is used as the elastic body 8c having heat insulating properties, the load of the head 13 will be applied to the mat surface 8a.

The soft urethane foam is compressed, the bubbles are collapsed and the thermal conductivity changes, and the heat of the head 13 is transferred to the elastic body 8 having thermal conductivity.
It will be transmitted to b. At this time.

The thermally conductive elastic body 8b is also compressed by the head 13, increasing the contact with the head and the heat transfer coefficient, thereby promoting the cooling effect. Furthermore, if the portion of the elastic body 8c having heat insulating properties is replaced with a gas such as air or fluorocarbon gas, the head 13
By applying this load, the mat surface 8a comes into close contact with the thermally conductive elastic body 8b, so that heat transfer only at the contact portion with the head 13 is promoted, and the head I3 is effectively cooled. The thermally conductive elastic body 8b is formed by incorporating a liquid such as water or ethylene glycol into the mat. Furthermore, since the temperature of the thermally conductive elastic body 8b is determined by the cooling capacity of the thermoelement 6 and the amount of heat transferred to the thermally conductive elastic body 8b, it is desirable to prevent heat from entering from sources other than the head 13. According to the embodiment of the present invention shown in FIG. 2, as explained above, it is possible to prevent heat intrusion from the mat surface 8a other than the contact surface with the single head weight 3, and heat intrusion from the periphery of the mat. However, since there is heat that penetrates from inside the heat dissipation duct 12 through the heat insulating material 9 to the elastic body 8b having thermal conductivity, as in the embodiment shown in FIG. The periphery of the cooling surface and the periphery of the lower surface of the elastic body 8b having thermal conductivity are aligned,
By surrounding it with the elastic body 8c having heat insulating properties, it is possible to minimize the heat that enters the elastic body 8b having thermal conductivity from sources other than Class 13. this is.

This is to reduce the cooling capacity of the thermoelement 6,
Furthermore, since the cooling capacity of the thermoelement 6 is determined by the supplied electrical input, power consumption can be reduced. On the other hand, the lower surface of the thermoelement 6 is in close contact with the heat radiator 7, and the temperature of the heat radiator II 7 rises, but since the radiator 7 protrudes into the heat radiator duct 12, heat is transferred to the air inside the heat radiator duct 12. . The air in the heat radiation duct 12 that has received heat from the heat radiator 7 rises in temperature, becomes lighter, and is discharged to the outside from the discharge port 3, and is replenished with low-temperature air from the suction port 2. In this way, the radiator 7 maintains a constant temperature, and the cooler 5 and the radiator 7 continue their cooling action while maintaining a certain temperature difference through the thermoelement 6.

The electronic cooling pillow according to the present invention is 111. - 1゛'- ” Since the pile body has a heat dissipation outlet on one end face perpendicular to the longitudinal direction, the heat from the radiator will not be discharged from the side of the head. Since air whose temperature has increased to the face is not discharged from the sides of the head while the head is being cooled, the cooling capacity of the thermoelement can be effectively utilized without damaging the cooler.

[Brief explanation of the drawing]

FIG. 1 is an external perspective view of an electronic cooling pillow according to the present invention. Figure 2 is a sectional view taken along line A-A in Figure 1, and Figure 3 is a cross-sectional view taken along line B-- in Figure 1.
B sectional view and FIG. 4 show another embodiment of the present invention. Fig. 5 is a cross-sectional view of the main part of the electronic cooling pillow according to the present invention, showing the usage state of the electronic cooling pillow according to the present invention. l...Main body of electronic cooling pillow, 2...Suction port, 3...
Discharge port, 4...power cord, 5...cooler, 6...
- Thermoelement, 7... Heat sink, 8... Mat, 8a... Mat surface, 8b... Elastic body with thermal conductivity, 8c... Elastic body with heat insulation, 9...・Insulation material, 10...legs. 11... Bottom plate, 12... Heat radiation duct, 13... Head.

Claims (1)

[Claims] 1. An electronic cooling pillow using a thermoelectric cooling device, characterized in that a discharge port for discharging heat from the device is provided on one end surface perpendicular to the longitudinal direction of the pillow body.