RU197847U1 - CASE FOR PROTECTING MOBILE ELECTRONICS FROM REDUCED TEMPERATURES - Google Patents

Abstract

The invention relates to devices designed to provide normal temperature conditions for the operation of electronic equipment, in particular mobile communication devices, in conditions of low ambient temperature. The case for protecting mobile electronics from low temperatures contains a rechargeable battery, a layer of heat insulating material with the effect of thermal reflection, a heating element, a control board containing an interface for connecting to mobile electronics and an interface for connecting an external power source configured to control the heating element and the charging process the battery of mobile electronics, controlling the light indicator of the battery charge and operating modes of the case to protect mobile electronics from low temperatures. The technical result is to ensure the stability of the use of mobile electronics by maintaining the temperature conditions of operation, storage, and preventing the negative effects of precipitation on mobile electronics. 7 c.p. f-ly, 4 ill.

Description

The invention relates to devices designed to provide normal temperature conditions for the operation of electronic equipment, in particular, mobile communication devices, in conditions of low ambient temperature.

Known case for a mobile phone with electronic heating (patent for utility model DE 202017002990 U1). A case for a mobile phone with electric heating, which has two functions: the function of warming up the hands and charging the battery of the phone. This cover contains a stand-alone battery for the heating element and for charging a mobile phone (power bank), a control unit with electronics for temperature control and activation of the hand warmer and power supply, also with the ability to control via a mobile application via bluetooth, a heating element, a built-in protective cover as insulation for the phone to protect against overheating.

The prototype of the claimed utility model is a case for protecting mobile electronics from low temperatures (utility model patent No. 177588). This cover belongs to the field of special garments, namely to heat-protective covers for placement and storage of mobile electronics at low temperatures. The technical result is to ensure the stability of the use of mobile electronics by maintaining the temperature conditions of operation, storage, and preventing the negative effects of precipitation on mobile electronics. The claimed technical result is achieved due to the fact that the cover for protecting mobile electronics from low temperatures has the form of a book cover and contains a compartment for accommodating the structure with mobile electronics, including the outer and inner layers of flexible heat-insulating material, connected around the perimeter with preservation of the holes for connecting headphones and a charger and is characterized in that the inner layer of the case has a transparent screen made of 1 mm thick transparent transparent silicone material, while the thermally conductive polymer thread that provides heating of the case is integrated on the wrong side of the inner and outer layers of the flexible heat-protective material and is connected to the battery and a temperature sensor with a regulator.

The purpose of introducing the claimed utility model is to expand the arsenal of technical means to protect mobile electronics from accelerated battery discharge at low temperatures, with the possibility of simultaneous heating of the device and charging its battery, increasing the stable use of mobile electronics at low temperatures.

The technical effect of the claimed utility model is achieved in that the case for protecting mobile electronics from low temperatures contains a storage battery, a layer of heat-insulating material with the effect of thermal reflection, a heating element, a control board containing an interface for connecting to mobile electronics and an interface for connecting an external power source, made with the ability to control the heating element and the process of charging the battery of mobile electronics, control the light indicator of the battery charge and operating modes of the cover to protect the mobile electronics from low temperatures.

At the same time, on the side of the back wall of the cover adjacent to the plane of the mobile electronics, there are layers: a battery, a layer of heat-insulating material with the effect of thermal reflection, a heating element, a control board is electrically connected to the battery and the heating element.

In this case, the heating element contains a temperature sensor.

At the same time, the control board is configured to operate in the following modes: heating the battery of mobile electronics, charging the battery of mobile electronics, simultaneously heating and charging the battery of mobile electronics.

At the same time, the case for protecting mobile electronics from low temperatures may additionally contain a layer of thermally conductive compound located between the heating element and the wall of the case.

In this case, the control board can be installed in the lower part of the cover.

At the same time, the interface for connecting to mobile electronics can be located on the inside of the bottom wall of the case.

At the same time, the interface for connecting an external power source can be displayed on the outside of the lower side wall of the cover.

The features and essence of the claimed utility model are explained in the following detailed description, illustrated by graphic materials, which show the following:

in FIG. 1 - schematically shows the location of the elements of the cover to protect mobile electronics from low temperatures (hereinafter referred to as the "cover"), where:

1 - case;

2 - rechargeable battery;

3 - control board;

4 - layer of insulating material with the effect of thermal reflection;

5 - a heating element with a temperature sensor;

in FIG. 2 - schematically shows an embodiment of the cover with a heating element, a closed layer of cover material, where:

6 - layer of thermally conductive compound;

7 - a layer of cover material;

In FIG. 3 - presents a block diagram of a control board, where:

8 - controller for charging the battery;

9 - node protection battery;

10 - DC voltage Converter;

11 - controller charging the battery of mobile electronics;

12 - button for selecting a control operation mode;

13 - microcontroller;

14 - the first DC switch;

15 - second DC switch;

16 - the third DC switch;

17 - light indicator of operating modes;

18 - interface for connecting an external power source;

19 is an interface for connecting to mobile electronics;

20 - switch active mode of the heater and charging;

In FIG. 4 - presents a block diagram of the microcontroller operation algorithm, which shows the following operations:

21 - power on;

22 - initialization of input-output modules;

23 - check for external power;

24 - battery charge mode;

25 - check the battery charge;

26 - check for external power;

27 - sleep mode;

28 - check the status of the switch of the active mode of the heater and charging;

29 - mode of heating the battery of mobile electronics;

30 - checking the status of the switch of the active mode of the heater and charging;

31 - checking the status of the button for selecting a control mode;

32 - charge mode of the battery of mobile electronics;

33 - check the completion of the charge of the battery of mobile electronics;

34 - check the status of the switch of the active mode of the heater and charging;

35 - checking the status of the button for selecting a control mode;

36 - mode of simultaneous heating and charging the battery of mobile electronics;

37 - checking the status of the switch of the active mode of the heater and charging;

38 - check the completion of the charge of the battery of mobile electronics;

39 - checking the status of the button for selecting a control mode of operation;

40 - checking the state of the button for selecting a control mode;

41 - control light indicator of operating modes;

42 - timer control light indicator of operating modes.

The execution of the cover is not limited to any specific materials; both rigid and flexible materials can be used, for example, plastic, rubber, metal, silicone and their various combinations.

One possible embodiment of the device is illustrated in FIG. 1.

Structurally, the cover (1) can be made in any known form that allows you to place inside the mobile electronics, and does not represent significant value in the framework of the claimed utility model.

The design of the cover is characterized by the following arrangement of elements. On the side of the back wall of the case 1 adjacent to the plane of the mobile electronics, a battery 2 is placed in layers that is resistant to negative ambient temperatures, for example lithium polymer, a layer of reflective insulation 4, a heating element 5 with a temperature sensor, electrically connected to the battery 2, the heating element 5 is installed so that when placing the mobile electronics inside the case, its surface is in contact with the mobile device.

In an alternative embodiment of the case shown in FIG. 2, between the surface of the mobile electronics and the heating element 5, a layer of cover material 7 may be located, connected through the layer of the thermally conductive compound 6 to the heating element 5.

The control board 3 is electrically connected to the battery 2 and the heating element and can be located, for example, in the lower or upper part of the housing 1.

Heating the housing of the mobile device is as follows.

The microcontroller 13 installed in the control board 3 closes the third DC switch 16, while the supply voltage from the battery 2 through the protection unit of the battery 9 is supplied to the heating element with a temperature sensor 5. The microcontroller 13 measures the temperature of the heating element with a temperature sensor 5. So it is possible to use a heating element with an external temperature sensor

When the upper limit of the set temperature is reached, the microcontroller 13 opens the third DC switch 16 and interrupts the operation of the heating element with the temperature sensor 5. When the temperature of the heating element with the temperature sensor drops to the lower limit of the set temperature, the microcontroller 13 closes the third DC switch 16 again and resumes the operation of the heating element with a temperature sensor 5 until the upper limit of the set temperature is reached. In this case, the microcontroller 13 measures the voltage of the battery 2. The operation of the heating element continues until forced shutdown by means of the heater active mode switch and charging 20, or until the battery 2 is discharged.

The battery charge of the attached mobile electronics is as follows.

The microcontroller 13 checks whether an external power source is connected to the interface for connecting an external power source 18.

If an external power source is connected, the microcontroller 13 closes the first DC switch 14 and the voltage from the external power source is supplied to the charging controller of the battery of the mobile device 11.

If the external power source is not connected, the microcontroller 13 closes the second DC switch 15 and supplies power to the DC / DC converter 10. The DC / DC converter 10 supplies the generated voltage to the battery charging controller of the mobile device 11 and starts the process of charging the connected mobile electronics by the energy of the battery 2.

Mobile electronics connects to the Battery Charging Controller of the mobile device 11 through an interface for connecting to mobile electronics 19, for example microUSB, USB-C, Lightning, etc.

The battery charge of the mobile electronics and the operation of the heating element 5 are independent modes of operation, which allows both joint and separate operation of each mode, independently of one another.

Switching the operating modes of the cover and the inclusion of the indicator light of the operating modes 17 to display the operating modes of the cover and the charge level is carried out by the button for selecting the operating mode of the control 12 by short pressing.

The indicator light of operating modes 17 displays the charge level of battery 2 using four LEDs, each of which corresponds to 25% of the battery charge, while the color of the LEDs that light up corresponds to a specific mode of operation of the case; in this embodiment, the case of LEDs are made in yellow, blue and red the color and respectively indicate the operating modes “heating the battery of mobile equipment”, “charging the battery of mobile equipment”, “simultaneous heating and charging the battery of mobile equipment”.

The operation algorithm of the microcontroller 13 shown in FIG. 4 can be implemented by software and works as follows.

When you turn on the power 21, the program initializes the input-output modules 22, then follows the operation 23, which checks the connection of an external power source to the interface for connecting an external power source 18.

If the cover is connected to an external power source, the charge mode of battery 2 (step 24) is turned on, then the charge of battery 2 is checked (step 25), battery 2 is not charged to 100%; then check the connection of the external power source to the interface for connection external power source 18 (step 26), if the case is connected to an external power source, then returns to step 24 and the charge mode of the battery 2 continues.

If when checking the charge of battery 2 (step 25), battery 2 is charged to 100% or when checking the connection of an external power source to the interface for connecting an external power source 18 (Step 26), the external power source is not connected to the interface for connecting an external power source 18 , the cover translates to low power mode, hereinafter referred to as “sleep mode” (operation 27).

In sleep mode, the microcontroller 13 turns off the elements that provide the modes of heating the battery of mobile electronics and charging the battery of mobile electronics,

In sleep mode, the microcontroller 13 also goes into low power mode itself, periodically starting to check the status of the active mode switch of the heater and charging 20 (operation 28).

If the switch of the active mode of the heater and charging is in the "On" position, the heating mode of the battery of the mobile electronics 29 is started.

Further, when checking the status of the switch of the active mode of the heater and charging 20 (operation 30), if the switch of the active mode of the heater and charging is in the “On” position, and when checking the state of the button for selecting the operating mode of the control 12 (operation 31), it is turned on in the “pressed” position mobile battery charge mode (operation 32), if the operation control selection buttons 12 (operation 31) are in the “not pressed” position, then return to operation 29.

If, when checking the completion of the charge of the battery of the mobile electronics (step 33), the battery of the mobile electronics is charged up to 100%, it returns to step 27.

If at step 33 the battery of the mobile electronics is not charged up to 100%, the state of the heater and charging active switch 20 is checked (step 34), if the heater and charging active switch 20 is in the “Off” position, it returns to step 27. If the active switch the heater and charging mode 20 is in the “On” position, the state of the control operation mode selection button 12 is checked (operation 35), if the control operation mode selection button 12 is in the “not pressed” position, it returns to operation 32. If the mode selection button control 12 in the "pressed" position (operation 35), the mode of simultaneous heating and charging of the battery of the mobile electronics is activated (operation 36). Then, if, when checking the status of the switch of the active mode of the heater and charging (operation 37), it is in the “off” position, return to step 27. If, when checking the status of the switch of the active mode of the heater and charging (operation 37), it is in the “on” position, then the check of completion of the charge of the battery of the mobile electronics battery is started (step 38) and if the battery of the mobile electronics is charged up to 100%, it returns to step 29. If, in step 38, the battery of the mobile electronics is not charged up to 100%, the state of the control operation mode selection button is checked 12 (operation 39), if the button for selecting the operating mode of the control 12 is in the “pressed” position, return to step 29, if the button for the selection of the operating mode of the control 12 is in the “not pressed” position, it returns to step 36.

If at step 28 the switch of the active mode of the heater and charging is in the “Off” position, a state check is started, the button for selecting the operating mode of the control 12 (operation 40), if the button for selecting the operating mode of the control 12 is in the “not pressed” position, it returns to step 27, if the button for selecting the operating mode of the control 12 is in the "pressed" position, the control of the operation mode indicator light is started (operation 41), after which the timer control of the operation mode indicator light is started (operation 42) and then return to operation 27.

In operations 29 and 36, the battery of the mobile electronics is heated using a heating element with a temperature sensor 5, which can operate in the mode of maximum or moderate heating.

Initially, the microcontroller 13 initiates the maximum heating procedure.

In operations 29 or 36, the microcontroller 13 measures the temperature of the heating element with a temperature sensor 5 at a predetermined frequency and, when the set temperature of moderate heating is reached, puts the heating element with a temperature sensor 5 into moderate heating mode.

If the temperature of the heating element with the temperature sensor 5 exceeds the preset maximum heating temperature, the Microcontroller 13 completely turns off the heating element with the temperature sensor 5 until the temperature of the heating element with the temperature sensor 5 drops below the set temperature of moderate heating, after which the Microcontroller 13 turns on the maximum heating mode of the heating element with temperature sensor 5.

When controlling the light indicator of the operation modes (operation 41), the microcontroller 13 operates as follows.

Performs a procedure for indicating the remaining battery charge. For this, the microcontroller 13 measures the voltage of the battery, calculates the residual charge and illuminates from 1 to 4 indicator lamps, and the number of illuminated lamps is proportional to the residual charge of the battery.

If the control board is operating in the charge mode of the rechargeable battery of the mobile electronics (32), the microcontroller 13 turns on the indicator light of the operation mode 17 and illuminates from 1 to 4 indicator lamps, the number of illuminated lamps being proportional to the charge level of the battery of the mobile electronics.

In the mode of simultaneous heating and charging the battery of mobile electronics, the microcontroller 13 turns on the indicator light of the operating mode 17 and illuminates from 1 to 4 indicator lamps, and the number of illuminated lamps is proportional to the charge level of the battery 2.

Thus, the claimed technical effect is achieved, expressed in expanding the arsenal of technical means and creating a cover for protecting mobile electronics from accelerated battery discharge at low temperatures, with the possibility of simultaneous heating of mobile electronics and charging its battery, increasing the stable use of mobile electronics at low temperatures.

Claims (8)

1. Case for protecting mobile electronics from low temperatures, characterized in that it contains a storage battery, a layer of heat-insulating material with the effect of thermal reflection, a heating element, a control board containing an interface for connecting to mobile electronics and an interface for connecting an external power source, made with the ability to control the heating element, the charging process of the battery pack of mobile electronics and the operating modes of the cover to protect the mobile electronics from low temperatures, while on the side of the back wall of the cover adjacent to the plane of the mobile electronics, a storage battery, a layer of heat-insulating material with the effect of thermal reflection are arranged in layers, the heating element, the control board is electrically connected to the battery and the heating element. 2. The case according to claim 1, characterized in that the control board is configured to operate in the following modes: heating the battery of the mobile electronics, charging the battery of the mobile electronics, simultaneously heating and charging the battery of the mobile electronics. 3. The cover according to claim 1, characterized in that it further comprises a layer of a thermally conductive compound installed after the heating element and a layer of cover material. 4. Case under item 1, characterized in that the control board is installed in the lower part of the case. 5. The case according to claim 1, characterized in that the interface for connecting to mobile electronics is located on the inside of the bottom wall of the case. 6. Case under item 1, characterized in that the interface for connecting an external power source is displayed on the outside of the lower side wall of the case. 7. The case according to claim 1, characterized in that the control board is additionally configured to control the light indicator of the battery charge. 8. A case according to claim 1, characterized in that the heating element comprises a temperature sensor.

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