JPH0610574B2 - Portable box - Google Patents

Description

The present invention relates to a box that is portable and that keeps its inside cold or warm.

(Prior Art and Problems of the Invention) The motivation for the inventor to develop the portable box of the present invention is as follows.
We would like to provide a box that allows diabetics to keep insulin cool and carry it with them easily.
Insulin must be stored at a low temperature and used daily. And it's common for diabetic patients to store it in their home refrigerators,
In this case, the range of action is narrowed, making long-term travel and business trips impossible.

Therefore, it is necessary to have a portable box that accommodates insulin and can be carried around freely, and has a cooling capacity, but the present invention makes it possible to provide a portable box that is compact and durable. The purpose is to provide.

By the way, Japanese Utility Model Publication No. 35-27181 discloses a thermos bottle having a thermoelectric conversion means attached to a lid. In this conventional example, although the battery for supplying the electric current to the thermoelectric conversion means is not mentioned, it is presumed that the battery is held at a proper position on the outer surface of the thermos body. As a result, the battery and its holding portion are bulky, which makes it inconvenient to carry.

Further, in the above-mentioned conventional example, since the thermoelectric conversion means is arranged so as to vertically penetrate the central portion of the lid, heat transfer occurs due to heat conduction, the heat insulation efficiency inside the thermos bottle is poor, and the battery consumption is high. There is a problem of becoming.

Further, in the above-mentioned conventional example, since it is considered that a glass thermos bottle is used, it is apt to be damaged during carrying, and there is a problem that when carrying insulin, anxiety occurs and it is not practical.

(Means for Solving the Problems) In order to solve the problems of the above-described conventional example, the present invention closes the inside of a box-shaped metal box body having a vacuum double bottle structure and the opening of the box body by insulating the inside. A cylindrical lid body filled with material, thermoelectric conversion means incorporated in the lid body so that heat dissipation and heat absorption electrodes are arranged on the top and bottom surfaces of the lid body, and the top surface of the lid body. And a battery accommodated in a battery accommodating portion recessed in the central portion for supplying a direct current to the thermoelectric conversion means.

As the battery, a commercially available primary battery can be used, but it is preferable to use a rechargeable secondary battery having a sufficient battery capacity (in particular, a storage battery used for a portable video or the like is suitable). is there.

For example, in a portable box for accommodating insulin, it is necessary to keep the temperature of the internal space at about 0 ° C to 8 ° C, and it is desirable to adjust the temperature for that. Therefore, it is desirable to provide a temperature sensor that measures the temperature of the internal space of the box body. As one method, it is possible to display the temperature measured by the temperature sensor on the outside of the box and control the energization to the thermoelectric conversion means while visually observing the temperature. However, more preferably, a temperature setting means for setting the internal space of the box body to a predetermined temperature is provided, and based on the information obtained from this and the information obtained from the temperature sensor,
The control means may be configured to control the supply of direct current to the thermoelectric conversion means.

In addition, by providing a switch means for converting the direction of the direct current given from the battery to the thermoelectric conversion means from one of the forward and reverse directions to the other, it can be used for both the cold insulation box and the heat insulation box. You can

(Operation) According to the present invention, since the box body has a bottomed tubular shape and a vacuum double bottle structure, and the lid that closes the opening of the box body is filled with a heat insulating material, Excellent in keeping cold or warm in space. Considering, for example, the cold insulation function, it is sufficient to pump out heat that enters the internal space from the outside, but the amount of heat that enters the box is small because the box body and the lid have the above structure. The thermoelectric conversion means is used to pump out heat, and the amount of heat that can be pumped out depends on the capacity of the battery. The battery used in the portable box has a limited capacity. However, since the box body and the lid body have a small amount of heat that must be pumped out by the above structure, the internal space can be cooled and kept cool even if a battery having a limited capacity is used.

Further, according to the present invention, since the battery accommodating portion is provided and the battery is accommodated in the cylindrical lid body which can be relatively large in volume, the battery retaining portion protruding to the outside as in the conventional example. It is possible to have a compact structure that is convenient for carrying without being bulky.

Moreover, the battery housing is formed by recessing in the central part of the top surface of the lid, so that the heat insulating material filled in the lid can be placed against the entire opening of the box body, keeping the box interior cold (heat-retaining) efficient. The battery life is good and the battery consumption can be reduced.

Further, since the box body is made of a metal having a vacuum double bottle structure, there is no fear of damage when carrying the box, and for example, there is an advantage that insulin can be carried to a remote place at ease.

(Embodiment) An embodiment of the present invention shown in FIGS. 1 to 3 relates to a portable box manufactured by using a so-called double stainless steel thermos.

This portable box has a box body 7 composed of a synthetic resin shoulder ring 4, a synthetic resin bottom ring 5 and a stainless steel bottomed cylindrical vacuum double bottle 6, and an opening of the box body 7 is closed. And a lid 3 that closes the internal space 8 of the box body 7. Since the structure of the box body 7 is the same as that of the body of a normal stainless steel thermos, detailed description thereof will be omitted. A screw 9 for screwing the lid body 3 is formed on the inner surface of the bottle mouth portion of the vacuum double bottle 6. On both sides of the shoulder ring 4, hooking holes 10, 10 for hooking a hanging cord are provided. A pivotal support portion of the handle may be provided at this portion to make it convenient to carry.

The lid 3 is provided with a shell 11 made of synthetic resin and a battery accommodating portion 12, and the thermoelectric conversion means 1, a control box (control means) 13 and the like are arranged inside the shell 11, and A heat insulating material 14 is filled inside. The battery accommodating portion 12 is recessed in the central portion of the top surface of the lid 3, and the rechargeable battery (storage battery) 2 is accommodated therein.

The thermoelectric conversion means 1 is formed by combining a P-type thermoelectric semiconductor 1a and an N-type thermoelectric semiconductor 1b of a bismuth-tellurium system in a U-shape, and each end portion is arranged on the top surface 15 of the lid body 3. 1
Both semiconductors 1 are connected to the electrode 1c and the second electrode 1d.
The joint of a and 1b is connected to the metal plate 1e arranged on the bottom surface 16 of the lid 3. The first electrode 1c and the second electrode 1d are lead wires a and b, the control box 13, lead wires c and d.
Is electrically connected to the positive electrode contact 2a and the negative electrode contact 2c of the battery 2 via. When the DC current from the battery 2 flows through the thermoelectric conversion means 1 in one direction, the phenomenon of Peltier heat absorption and Peltier heat generation occurs. When this portable box is used as a cool box, the direction of direct current is set to the cool direction, and the metal plate 1e serves as the heat absorption section, and the first
It is preferable that the second electrodes 1c and 1d serve as a heat radiating portion (heat generating portion). In this case, the heat of the internal space 8 of the box body 7 is drawn by the metal plate 1e, and the heat is absorbed by the top surface 15 of the lid 3.
Since the first and second electrodes (as a result, also have a function as a heat radiating plate in this case) arranged in 1) and 1d can be discharged to the outside, the internal space 8 can be cooled and kept cool. Become. For this reason, the first and second electrodes 1c, 1d
As shown in FIG. 2, the metal plate 1e is formed to have as large an area as possible in order to enhance heat radiation and heat absorption effects. It is more preferable to provide fins or the like to these 1c, 1d, and 1e so that heat exchange can be efficiently performed.

As the thermoelectric conversion means 1, in addition to those used in the present embodiment,
It is possible to use a type II thermoelectric semiconductor or a unitized thermomodule composed of a plurality of Π type thermoelectric elements. Also, a junction pair of zinc antimony (ZnSb) and bismuth antimony (BiSb), lead-tellurium (PbT)
A junction pair of e) and antimony tellurium (SbTe) can also be used as the thermoelectric conversion means 1.

As the battery 2, a secondary battery (storage battery) detachably mountable in the battery housing portion 12 is used, but a normal primary battery may be used instead of the secondary battery. Further, as the battery 2, it is also possible to use a storage battery fixed to the lid 3 and having a charging function.

A screw 17 that is screwed into the screw 9 on the inner surface of the bottle mouth portion of the box body 7 is provided on the lower portion of the side peripheral surface of the lid body 3, and a seal ring 18 is fitted to the lower end of the side peripheral surface of the lid body 3. It is configured to be pressed against the bottle mouth seating surface 19 of the box body 7 when the lid 3 is closed.

A temperature sensor 20 facing the internal space 8 from the bottom 16 of the lid 3 is arranged. The temperature sensor 20 can be composed of a thermistor or the like, and is connected to the control box 13 via a lead wire e. It is also possible to use a bimetal as the temperature sensor 20. In this case, the bimetal is arranged in the middle of the lead wire connecting the battery 2 and the thermoelectric conversion means 1, and thereby the supply to the thermoelectric conversion means 1 is performed. It is preferable that the current is directly interrupted.

A temperature display portion 21 is provided on the top surface 15 of the lid body 3 and is connected to the control box 13 via a lead wire f. The temperature display unit 21 normally displays the temperature of the internal space 8. The temperature display section 21 displays the set temperature when the temperature is set by the temperature setting means 22 described below.

A temperature setting means 22 is provided on the top surface 15 of the lid 3, and is connected to the control box 13 via a lead wire g. The temperature setting means 22 includes a + button, a-button, and
It has a button, and when the + button is pressed, the original set temperature is changed to the + side, and when the − button is pressed, the original set temperature is changed to the − side. The ○ button indicates the set temperature at that time. It's for knowing, and when you press any button,
The numerical value of the temperature is displayed on the temperature display section 21.

Further, on the top surface 15 of the lid body 3, there is provided a power switch 23 having a function of converting the direction of the direct current supplied from the battery 2 to the thermoelectric conversion means 1 from one of the forward and reverse directions to the other.
It is connected to the control box 13 via a lead wire h. When the power switch 23 is in the neutral position, the power is turned off,
When tilted to the C side, a current flows in a direction that acts as a cold insulation box, and when tilted to the H side, a current flows in a direction that acts as a heat retention box.

The control box 13 has a built-in microcomputer, inputs a signal from the power switch 23, and transfers the battery 2 to the thermoelectric conversion means 1.
Control the ON, OFF and direction of the current sent to. Further, the control box 13 inputs information (signal) about the temperature of the internal space 8 from the temperature sensor 20, stores the information in a memory, and outputs numerical data to the temperature display section 21. Further, the control box 13 inputs information (signal) about the temperature set by the temperature setting means 22, stores the information in a memory, and displays the temperature display section.
The numerical data is output to 21. Then, the control box 13 compares the temperature data of the internal space 8 stored in the memory with the set temperature data, so that the temperature of the internal space 8 falls within a certain width centered on the set temperature. Controls ON / OFF of current.

(Effects of the Invention) According to the present invention, it is possible to provide a portable box that has sufficient cold insulation (heat retention) ability, can reduce the battery consumption level, and is compact and convenient to carry.

[Brief description of drawings]

FIG. 1 is a vertical sectional front view of an essential part of an embodiment of the present invention, FIG. 2 is a plan view thereof, and FIG. 3 is a partially cutaway front view of the whole thereof. 1 ... Thermoelectric conversion means 1c, 1d, 1e ... Heat dissipation / heat absorption electrodes 2 ... Battery 3 ... Lid 7 ... Box body 8 ... Internal space 12 ... Battery housing 13 ... Control means (control) Box) 14 ... Insulation 15 ... Top 16 ... Bottom 20 ... Temperature sensor 22 ... Temperature setting means 23 ... Switch means (power switch)

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP-A-63-318460 (JP, A) Actual development Sho-56-70769 (JP, U) Actual public Sho-35-27181 (JP, Y1) Actual public Sho-36- 23790 (JP, Y1) S.K. 62-1668 (JP, Y2)

Claims (5)

[Claims] 1. A metal box body having a bottomed tubular shape and a vacuum double bottle structure, a tubular lid body which closes an opening of the box body and is filled with a heat insulating material, and a top surface of the lid body. Thermoelectric conversion means incorporated in the lid so that heat dissipation and heat absorption electrodes are arranged on the bottom surface and a battery accommodating portion recessed in the central portion of the top surface of the lid, respectively A portable box characterized by having a battery for giving a charge. 2. The portable box according to claim 1, wherein the battery is a rechargeable battery. 3. The portable box according to claim 1, further comprising a temperature sensor for measuring the temperature of the internal space of the box body. 4. A control for controlling the supply of a direct current to the thermoelectric conversion means based on the information from the temperature setting means and the information from the temperature sensor, the temperature setting means for setting the internal space of the box body to a predetermined temperature. Claim 3 with means
Portable box as described. 5. The portable box according to claim 1, further comprising switch means for converting the direction of the direct current supplied from the battery to the thermoelectric conversion means from one of the forward and reverse directions to the other.