KR101997883B1 - Portable Heating case and method of improving low-temperature operability for the same - Google Patents

Abstract

The present invention relates to a portable heating case with improved low temperature operability of an electronic device. According to an aspect of the present invention, provided is a portable heating case which includes a case body which has a storage space for storing an electronic device therein, a lower case for loading the electronic device, and an upper case connected to the lower case to open and close; a heat transfer part which is mounted on the case body to generate heat and transfers the generated heat to the case body; a power supply part which supplies power to the heat transfer part; a sensor part which measures the temperature of the storage space; and a control part for comparing the low temperature operating limit temperature of a preset electronic device with the temperature of the storage space measured by the sensor part and determining whether to supply power to the power supply part.

Description

[0001] The present invention relates to a portable heating case and a method for improving low-temperature operability of the portable heating case,

The present invention relates to a portable heat-generating case and a method for improving low-temperature operability of the heat-generating case.

2. Description of the Related Art In general, electronic equipment such as a notebook computer frequently uses in an outdoor environment depending on purposes and purposes.

In particular, in the case of electronic equipment for equipment inspection, the equipment is checked by radio in the open air. Accordingly, in the case of such an electronic device for equipment inspection, outdoor use is demanded even in severe conditions such as a hot period or a cold period depending on the situation.

However, in a low-temperature environment such as a cold weather, there is a problem that the battery efficiency mounted on the electronic equipment for equipment inspection is lowered, which may cause the function of the equipment to deteriorate.

In particular, in the case of electronic equipment for inspection of unmanned aerial vehicles, landing control, mission control, and data analysis functions are performed in a situation where the landing and landing control device can not control the landing due to malfunction. In malfunction in low temperature environment, And the attack power can have a considerable adverse effect.

In practice, according to the US National Defense Guideline MIL-HDBK-310, low-temperature operation is set to -32 ° C for electronic devices for inspection of unmanned aerial vehicles. Electronic devices for inspection of unmanned aerial vehicles are commercialized notebooks or rugged notebooks And the low temperature specification of such a notebook is set at a level of -20 DEG C, so that it is difficult to expect smooth performance of the equipment in a low temperature environment.

A portable heating case capable of keeping the temperature of electronic equipment constant in a harsh environment, especially a low temperature environment, and a method for improving low-temperature operability of the portable heating case.

According to an aspect of the present invention, there is provided an electronic device comprising: a lower case having a storage space for storing an electronic device therein; a lower case on which the electronic device is mounted; A case body; A heat transfer unit mounted on the case body to generate heat and transmit the generated heat to the case body; A power supply unit for supplying power to the heat transfer unit; A sensor unit for measuring a temperature of the storage space; And a control unit for comparing the low temperature operation limit temperature of the predetermined electronic device with the temperature of the storage space measured by the sensor to determine whether the power supply unit is powered on or off.

As described above, the portable heat generating case according to at least one embodiment of the present invention adjusts the temperature of the storage space in which the electronic equipment is stored to be equal to or higher than the low temperature operation limit temperature of the electronic device, High reliability of the excellent performance of the device can be expected.

1 is a configuration diagram of a portable heat-generating case according to the present application.
Fig. 2 is a view exemplarily showing a portable heating case according to the present application. Fig.
3 is a diagram exemplarily showing the case body of the portable heat generating case according to the present application and the structures provided in the body.
4 is a developed view exemplarily showing a heat transfer portion, a heat radiation portion and a heat insulation portion of the portable heat generating case according to the present application.
5 is a diagram exemplarily showing the arrangement of the heat transfer portion and the power supply portion.
Fig. 6 is a view showing an exemplary arrangement of the heat transfer portion, the heat radiation portion and the heat insulation portion.
7 is a view exemplarily showing a portable heat generating case provided with an inner cover.

The present application relates to a portable heating case. For example, the case may be a case for storing electronic equipment which is frequently used in a cold outdoor environment such as a cold weather. The electronic device may be an electronic device for equipment inspection that frequently requires outdoor use. For example, it may be, but is not limited to, a laptop for inspection of unmanned aerial vehicles.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a portable heating case according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In addition, the same or corresponding reference numerals are given to the same or corresponding reference numerals regardless of the reference numerals, and redundant description thereof will be omitted. For convenience of explanation, the size and shape of each constituent member shown in the drawings are exaggerated or reduced .

1 is a configuration diagram of a portable heat-generating case according to the present application. Fig. 2 is a view exemplarily showing a portable heating case according to the present application. Fig. 3 is a diagram exemplarily showing the case body of the portable heat generating case according to the present application and the structures provided in the body. 4 is a developed view exemplarily showing a heat transfer portion, a heat radiation portion and a heat insulation portion of the portable heat generating case according to the present application. 5 is a diagram exemplarily showing the arrangement of the heat transfer portion and the power supply portion. Fig. 6 is a view showing an exemplary arrangement of the heat transfer portion, the heat radiation portion and the heat insulation portion.

The portable heating device case includes a case body 100, a heat transfer unit 200, a power supply unit 300, a sensor unit 400, and a control unit 500.

The case body 100 is provided with a storage space for storing the electronic device 20 therein and includes a lower case 120 on which the electronic device 20 is placed and a lower case 120 on which the electronic device 20 is opened and closed And an upper case 110 which is made of a synthetic resin.

The lower case 120 and the upper case 110 include an outer surface and an inner surface, and the term " inner surface " means a surface facing the stored electronic device 20. The inner surface of the lower case 120 and the upper case 110 may be formed to protrude from the edge. The case body 100 can be sealed as the protruding portions of the lower case 120 and the upper case 110 are in contact with each other in a closed state. The sealed case body 100 may be provided with an internal space. The internal space may be a storage space for storing the electronic device 20. [ The size and shape of the inner space can be appropriately designed according to the type of the electronic device 20 to be stored.

In addition, the case body 100 may be provided with locking means for maintaining the upper case 110 opened or closed. The locking means is not particularly limited, and various known locking means can be used.

The heat transfer unit 200 is installed in the case body 100 to generate heat, and transfers the generated heat to the case body 100. The heat transfer unit 200 may be inserted into the lower case 120 and / or the upper case 110.

The heat transfer unit 200 includes a heat generating unit 210 for generating heat by receiving power and a heat generating unit 210 and a power source unit 300 for supplying power to the heat generating unit 210 in the power supplying unit 300. [ And may include a circuit unit 220 electrically connected thereto. The type of the heat generating unit 210 is not limited as long as it is a member that generates heat by receiving power. Considering that the power source of the power unit 300 is the electronic device 20, It may be appropriate to use an LED heating element having a low consumed electric power. In addition, the circuit unit 220 may be electrically connected to the controller 500 to transmit an electric signal for power supply. 5, the heat generating unit 210 and the power supply unit 300 may be provided on the circuit unit 220 in the form of a plurality of unit cells.

The power supply unit 300 supplies power to the heat transfer unit 200. The power supply unit 300 can supply power to the heat transfer unit 200 or shut off the power supply by the control unit 500. The power source of the power source unit 300 may be an electronic device 20, and power may be supplied from the electronic device 20 through a power source connector, which will be described later. The power supply unit 300 may be mounted on the case body 100 and inserted into the lower case 120 and / or the upper case 110, for example.

The sensor unit 400 measures the temperature of the storage space. The sensor unit 400 may be mounted on the case body 100 and may include at least one sensor, for example. The kind of the sensor is not limited as long as it is a known sensor for measuring temperature.

The control unit 500 compares the low temperature operation limit temperature of the predetermined electronic device 20 with the temperature of the storage space measured by the sensor unit 400 to determine whether or not the power supply unit 300 is powered on. The control unit 500 functions as a kind of switch. The term " low temperature operation limit temperature " as used herein means a lower limit temperature at which the electronic device 20 can operate smoothly. For example, in the case of the electronic device 20, the low temperature operation limit temperature may be -25 캜, -20 캜, -15 캜, or -10 캜. Specifically, the low temperature operation limit temperature of a commercially used notebook may be -20 ° C, but the present invention is not limited thereto. The low temperature operation limit temperature may be different for each notebook type. For example, in the case of a notebook having a low operating temperature limit of -20 ° C, malfunction occurs due to battery efficiency deterioration at less than -20 ° C, and operation is smooth at -20 ° C or higher.

Specifically, when the temperature of the storage space is lower than the temperature for low-temperature operation, the control unit 500 determines power supply of the power supply unit 300, and when the temperature of the storage space is lower than the low- The power supply of the power supply unit 300 can be cut off. For example, in the case of a notebook having a low temperature operation limit temperature of -20 占 폚, the controller 500 determines power supply of the power supply 300 if the temperature of the storage space is -20 占 폚 or less, The power supply of the power supply unit 300 can be cut off.

In one example, the case body 100 includes a heat dissipating unit 600 disposed between the electronic device 20 and the heat transfer unit 200 and receiving heat generated from the heat transfer unit 200 and discharging the heat to the storage space And a heat insulating part 700 for preventing heat generated from the heat transfer part 200 from being discharged to the outside.

6, the heat dissipating unit 600 and the heat insulating unit 700 may be stacked on both sides of the heat transfer unit. Specifically, the heat dissipating unit 600 is disposed adjacent to the inner surface of the case body, The heat insulating portion 700 may be disposed adjacent to the outer surface of the case body. In the above, the inner surface of the case body refers to one surface that faces or comes into contact with the stored electronic device.

In another example, the heat dissipating unit 600 corresponds to the inner surface of the case body 100, and the heat insulating unit 700 corresponds to the outer surface of the case body 100. Accordingly, the inner surface of the case body 100 is made of a material having a high thermal conductivity, and the outer surface of the case body 100 can be made of a material having a low thermal conductivity. The heat dissipation unit 600 transfers the heat generated from the heat transfer unit 200 to the storage space to raise the temperature around the stored electronic equipment 20 to improve the operability of the electronic equipment 20 in a low temperature environment . The heat insulating portion 700 prevents the heat generated from the heat transfer portion 200 or the heat generated in the electronic device 20 from being emitted to the outside so that the temperature of the storage space is reduced to a low temperature There is an advantage in that it can be easily maintained above the operating limit temperature.

In one embodiment, the case body 100 may include an inner cover 800 that is configured to cover at least a portion of the area of the electronic device 20 that is seated. The inner cover 800 is provided to cover at least a part of the area of the electronic device 20 so that the heat generated from the heat transfer part 200 or the heat generated from the electronic device 20 And the temperature of the storage space can be kept constant. For example, the inner cover 800 may include a first inner cover 810 provided in the upper case 110 and a second inner cover 820 provided in the lower case 120 And may include a second inner cover 820.

In one example, the inner cover 800 includes a fixing part 800a fixed to one end of the case body 100; And a detachable part 800b that is detachably attached to the other end of the case body 100. [ Since the inner cover 800 includes the detachable portion 800b which is detachable from the case body 100, the convenience of use of the electronic device 20 is improved and the temperature of the storage space can be effectively maintained during storage. For example, when the electronic device 20 is used, the user removes the detachable unit 800b from the case body 100, and when the electronic device 20 is stored, the detachable unit 800b is moved to the case body 100 ) Can be carried out.

The detachable portion 800b may include a magnet, a button, a zipper, or a ball. Considering the separability and adhesion according to whether the electronic device 20 is used or not, the detachable part 800b may be a ball valve. In this case, the detachable portion 800b may be provided at the other end of the case body 100, and the inner cover 800 and the case body 100 may be provided with an arm /

The inner cover 800 may be formed of a material effective to maintain the temperature of the storage space, and may be formed of, for example, a vinyl material.

The portable heating case 10 according to the present application may further include a display unit 900 for displaying the temperature of the storage space measured by the sensor unit 400 on a screen. In addition, the portable heating case 10 may further include a notification unit that performs a notification function when the temperature of the storage space deviates from the low temperature operation limit temperature of the electronic device 20 set in advance. The portable heating case 10 can be operated effectively through the display unit 900 and the notification unit.

In one example, the case body 100 may further include a power connector 1000 that electrically connects the power source unit 300 and the electronic device 20. [ The power connector 1000 may be a USB connection terminal or the like, and the position may be different depending on the type of the electronic device 20 to be stored. The power connector 1000 functions to supply the power of the electronic device 20 to the power source 300. In this case, the electronic device 20 is a power source of the power source unit 300, and the power source unit 300 may transmit power of the electronic device 20 to the heat transfer unit 200.

The present application relates to a low-temperature operating method of an electronic apparatus using the above-described portable heat-generating case. The detailed description of the portable heat-generating case will be omitted since it is redundant with the above description.

The above method can effectively perform the low-temperature operation of the electronic device 20 according to the following 1) or 2).

1) When the temperature of the storage space in which the electronic device 20 is stored is lower than the low temperature operation limit temperature of the predetermined electronic device 20, the control unit 500 determines power supply of the power supply unit 300.

2) When the temperature of the storage space in which the electronic device 20 is stored is equal to or higher than the low temperature operation limit temperature of the predetermined electronic device 20, the control unit 500 cuts off the power supply of the power supply unit 300.

The foregoing description of the preferred embodiments of the present invention has been presented for purposes of illustration and various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention, And additions should be considered as falling within the scope of the following claims.

10: Portable heating case
20: Electronic device
100: Case body
200:
300:
400:
500:
600:
700:
800: inner cover
900:
1000: Power connector

Claims (11)

A case body including a lower case provided with a storage space for storing electronic equipment therein and on which the electronic device is placed, and an upper case connected to the lower case to be opened and closed;
A heat transfer unit mounted on the case body to generate heat and transmit the generated heat to the case body;
A power supply unit for supplying power to the heat transfer unit;
A sensor unit for measuring a temperature of the storage space;
A power connector for electrically connecting the power unit to the electronic device; And
And a control unit for comparing the low temperature operation limit temperature of the predetermined electronic device with the temperature of the storage space measured by the sensor unit to determine whether or not the power supply unit is powered on,
Wherein the electronic device is a portable heat-generating case for supplying power to the power source unit. 2. The apparatus according to claim 1, wherein the control unit determines power supply of the power supply unit when the temperature of the storage space is lower than or equal to the low-
A portable heating case that cuts off the power supply of the power supply unit when the temperature of the storage space is above the low temperature operation limit temperature. [2] The apparatus of claim 1, wherein the heat transfer unit includes: a heat generating unit that receives power and generates heat; And a circuit unit electrically connecting the heating unit and the power supply unit to supply power from the power supply unit to the heating unit. 2. The battery pack according to claim 1,
A heat dissipation unit positioned between the electronic device and the heat transfer unit to receive heat generated from the heat transfer unit and discharge the heat to the storage space; And
And a heat insulating portion for preventing heat generated from the heat transfer portion from being discharged to the outside. The portable heating case according to claim 1, wherein the case body includes an inner cover which covers at least a part of the area of the electronic device. 6. The battery pack according to claim 5, wherein the inner cover is fixed to one end of the case body; And
And a detachable part detachably attached to the other end of the case body. The portable heating case according to claim 6, wherein the detachable portion includes a magnet, a zipper, a button, or a balloon. The portable heating case according to claim 5, wherein the inner cover is made of a vinyl material. The portable heating case according to claim 1, further comprising a display unit for displaying the temperature of the storage space measured by the sensor unit on a screen. delete A method for operating a low temperature electronic apparatus using the portable heat generating case of claim 1.

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