KR20190141538A - Mobile phone charger case and mobile phone charger Using shape memory alloy - Google Patents

Abstract

The purpose of the present invention is to provide a mobile phone charger case having a structure that can prevent overheating of the mobile phone charger and protect pins of the mobile phone charger, and to provide a mobile phone charger thereof. To solve problems of a conventional mobile phone charger, the present invention provides the mobile phone charger case having a space for accommodating the mobile phone charger therein. In the mobile phone charger case, one side of a case body is open to insert or remove the mobile phone charger. At least one pinhole having a predetermined size, through which the pin of the mobile phone charger accommodated inside the case body passes, is provided at a lower end of the case body. A holder coupled to a body of the mobile phone charger and accommodated in an inner space of the case body is provided. One side of the holder is connected to a bias spring for applying an elastic force in the direction to push the mobile phone charger upward from the case. A hook protrudes from one side of the holder, and a shape memory alloy spring is coupled between a body of the holder and a hook. At least one hook fastening groove is provided at one side of the case body. When the mobile phone charger is in use, the shape memory alloy spring applies an elastic force in the direction to push the hook so that the hook is fixed to any one of the hook fastening grooves. When the mobile phone charger is overheated, the shape memory alloy spring receiving the heat of the mobile phone charger is contracted to apply an elastic force in the direction to pull the hook such that the holder is pushed upward through the elastic force of the bias spring and the pin of the mobile phone charger is inserted into the pinhole.

Description

Mobile phone charger case and mobile phone charger Using shape memory alloy}

The present invention relates to a mobile phone charger case and a mobile phone charger that prevents an accident such as a fire by removing the mobile phone charger from an outlet when the mobile phone charger heats up, and does not have a separate circuit for preventing a fire. It is effective in preventing fire.

In particular, by accommodating the cell phone charger of various specifications and sizes in the cell phone charger case, it is possible to prevent the fire of the cell phone charger irrespective of the type of cell phone and the electrical standard.

Cell phones (including smartphones) use secondary battery batteries (mainly lithium-based batteries) capable of charging and discharging, and various types of mobile phone chargers have been developed for charging batteries.

Mobile phone chargers according to the prior art have a variety of manufacturers and manufacturing countries, there are a variety of performance and quality of mobile phone chargers, but it is difficult for consumers to fully trust the safety of the mobile phone charger to buy, some consumers when purchasing a mobile phone charger In some cases, a low-cost cell phone charger may be purchased.

In addition, since the pins (round pins, etc.) of the mobile phone charger are exposed to the outside, when carrying the mobile phone charger, deformation of the charger pins frequently occurs due to collisions with other objects.

Even in the case of a normal mobile phone charger, if the pin is damaged as described above, it may cause various safety accidents such as overheating, explosion, short circuit, electric shock, and burn in addition to delay of charging speed.

In order to solve the problems of the conventional mobile phone charger as described above, Korean Patent Publication No. 10-2005-0060141 proposes a heat generation prevention circuit of the charger.

On the other hand, in the above heat generation prevention circuit, if the heat generation prevention circuit does not operate normally due to a problem such as a process defect, a malfunction of the control circuit, or a damage to the circuit due to an impact, there is room for improvement because heat generation prevention is not performed properly. something to do.

An object of the present invention is to provide a mobile phone charger case and a mobile phone charger having a structure that can prevent overheating of the mobile phone charger, and protect the pins of the mobile phone charger.

The present invention, in order to solve the problems of the conventional mobile phone charger, in the mobile phone charger case having a space for accommodating the mobile phone charger therein, one side of the case body is open to insert or remove the mobile phone charger, the case At least one pinhole of a predetermined size through which the pin of the mobile phone charger accommodated inside the case body is provided at the bottom of the body; It is coupled to the body of the mobile phone charger, the holder is provided in the inner space of the case body is provided; One side of the holder is connected to the bias spring for applying an elastic force in the direction to push the mobile phone charger upward from the case; A hook protruding from one side of the holder, and a shape memory alloy spring is coupled between the body of the holder and the hook; At least one hook coupling groove is provided at one side of the case body, and when the mobile phone charger is in use, the shape memory alloy spring exerts an elastic force in a direction pushing the hook so that the hook is fixed to any one of the hook coupling grooves. When the mobile phone charger is overheated, the shape memory alloy spring that receives the heat from the mobile phone charger contracts and exerts an elastic force in the direction of pulling the hook, pushing the holder upward through the elastic force of the bias spring, and the pin of the mobile phone charger is inside the pinhole. It provides a mobile phone charger case using a shape memory alloy, characterized in that going into.

In another embodiment, in the mobile phone charger case having a space for accommodating the mobile phone charger therein, the top of the case body is open to insert or remove the mobile phone charger, the bottom of the case body is housed inside the case body At least one pinhole of a predetermined size through which the pin of the mobile phone charger can be provided; It is coupled to the body of the mobile phone charger, the holder is provided in the inner space of the case body is provided; One side of the holder is connected to the bias spring for applying an elastic force in the direction to push the mobile phone charger upward from the case; One side of the holder is provided with a hook protruding, the holder is formed of a shape memory alloy, at least one hook fastening groove is provided on one side of the case body, the hook is hooked when the mobile phone charger is in use If the cell phone charger is overheated and the cell phone charger is overheated, the holder which receives the heat of the cell phone charger is deformed and the hook enters the inner side of the case body, thereby pushing the holder upward through the elastic force of the bias spring. Provides a mobile phone charger case using a shape memory alloy, characterized in that the pin of the charger enters into the pinhole.

In addition, the shape of the shape memory alloy is formed so that the hook is separated from the hook fastening groove at the transformation temperature, and at a temperature lower than the transformation temperature at a temperature lower than the transformation temperature so that the hook is fixed to the hook fastening groove. It can be produced by deforming the shape memory alloy.

In addition, the shape memory alloy is composed of an alloy of titanium and nickel, the composition ratio may be composed of 4 to 6 to 6 to 4 range.

On the other hand, the case body is provided with a temperature sensor for measuring the temperature of the mobile phone charger, a speaker and a control unit, it can generate an alarm sound when the temperature of the mobile phone charger reaches a predetermined temperature.

Another embodiment, the charging means; A case having a space for accommodating the charging means therein; At least one pinhole having a predetermined size through which a pin of a charging means accommodated inside the case is penetrated; A holder coupled to the body of the charging means and accommodated in the inner space of the case; One side of the holder is connected to the bias spring for applying an elastic force in the direction to push the charging means upward from the case; One side of the holder is provided with a hook protruding, the holder is formed of a shape memory alloy, at least one hook fastening groove is provided on one side of the case, the hook is the hook fastening groove when the charging means is in use When the filling means is overheated and the filling means is overheated, the holder which receives the heat of the filling means is deformed so that the hook enters the inner side of the case and pushes the holder upward through the elastic force of the bias spring, It provides a mobile phone charger using a shape memory alloy, characterized in that the pin enters into the pinhole.

The charging means also includes a charger protection circuit (PCM); The shape memory alloy is provided with a heating means; When the battery or cell phone being charged is fully charged, the shape memory alloy may be heated to automatically remove the cell phone charger from the outlet.

In addition, a charging means pusher is provided at one side of the case, and when the charging means is used, the user operates the charging means pusher to fix the hook to any one of the hook fastening grooves so that the pin penetrates the pinhole and is exposed to the outside. When carrying the mobile phone charger, the user can operate the charging means pusher to fix the hook to the other one of the hook fastening grooves, so that the pin enters the inside of the case rather than the pinhole so that the pin is protected from the outside of the case.

The present invention proposes a mobile phone charger case and a mobile phone charger that can prevent overheating of the mobile phone charger only mechanically without a separate electric circuit in order to solve the problems of the conventional mobile phone charger heat generation prevention device.

The present invention also proposes a mobile phone charger case and a mobile phone charger that can prevent damage to the pins when the mobile phone charger is carried in a container such as other objects by inserting a pin of the mobile phone charger into the case.

And, by having a structure to completely remove the mobile phone charger from the outlet, there is an effect that can prevent the overheat completely even in the situation that was unexpected when the conventional heat prevention circuit design.

1 is a perspective view of a state in which the pin of the mobile phone charger according to an embodiment of the present invention is exposed to the outside.
2 is a perspective view of a state in which the pin of the mobile phone charger according to an embodiment of the present invention entered.
3 is a cross-sectional view of the pin of the mobile phone charger according to an embodiment of the present invention exposed to the outside.
4 is a cross-sectional view of a state in which the pin of the mobile phone charger according to an embodiment of the present invention entered.
5 is a perspective view of a mobile phone charger case body according to an embodiment of the present invention.
6 is a perspective view of a mobile phone charger case holder according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. However, the spirit of the present invention is not limited to the embodiments presented, and those skilled in the art who understand the spirit of the present invention can easily suggest other embodiments within the scope of the same idea.

According to the present invention, in the mobile phone charger case having a space for accommodating the mobile phone charger 2 therein, one side of the case body (1) is open to insert or remove the mobile phone charger (2), At least one pinhole 11 having a predetermined size through which the pin 21 of the mobile phone charger 2 accommodated inside the case body 1 is provided is provided at the bottom of the case body 1; A holder 3 coupled to the body of the mobile phone charger 2 and accommodated in an inner space of the case body 1; One side of the holder (3) is connected to the bias spring 13 for applying an elastic force in the direction to push the mobile phone charger 2 upward from the case; A hook 30 protrudes from one side of the holder 3, and a shape memory alloy spring 31 is coupled between the body of the holder 3 and the hook 30; At least one hook fastening groove 12 is provided at one side of the case body 1 so that the hook 30 is fixed to any one of the hook fastening grooves 12 when the mobile phone charger 2 is in use. The shape memory alloy spring 31 exerts an elastic force in a direction pushing the hook 30, and when the mobile phone charger 2 is overheated, the shape memory alloy spring 31 that receives heat from the mobile phone charger 2 contracts. To apply the elastic force in the direction of pulling the hook 30, to push the holder 3 upward through the elastic force of the bias spring 13, the pin 21 of the mobile phone charger 2 to enter the pinhole 11 It provides a mobile phone charger case using a shape memory alloy, characterized in that.

The upper side means the right direction on FIGS. 3 and 4, and the lower side means the left direction on FIGS. 3 and 4.

One side of the case body 1 is to be opened, but this includes the concept of having a lid that is removable or openable. In the embodiment of the present invention, as shown in the cross-sectional view of Figure 3, the upper side (upper right side in the figure) is open, it will be possible to open the side surface of the case body (1) as needed. In the case of sealing the inside with a lid, a structure in which the wire of the mobile phone charger 2 has a hole coming out of the case body 1 or the USB insertion hole is exposed to the outside will be necessary.

The size and number of pinholes 11 may be manufactured according to the electric plug standard of each country. In the embodiment of the present invention is shown as a two-hole round pin 21 in accordance with domestic standards. In addition, it is also possible to provide not only the pinhole 11 adapted to each country's standard, but also a plurality of pinholes 11, such as a hole shape of a plug conversion adapter in the market, and one large pinhole 11. It is also possible to have all kinds of electric plugs available.

In another embodiment, in the mobile phone charger case having a space for accommodating the mobile phone charger 2 therein, one side of the case body (1) is open to insert or remove the mobile phone charger (2), At least one pinhole 11 having a predetermined size through which the pin 21 of the mobile phone charger 2 accommodated inside the case body 1 is provided is provided at the bottom of the case body 1; A holder 3 coupled to the body of the mobile phone charger 2 and accommodated in an inner space of the case body 1; One side of the holder (3) is connected to the bias spring 13 for applying an elastic force in the direction to push the mobile phone charger 2 upward from the case; One side of the holder 3 is provided with a hook 30 protrudes, the holder 3 is formed of a shape memory alloy, at least one hook fastening groove 12 on one side of the case body (1) When the mobile phone charger 2 is in use, the hook 30 is fixed to one of the hook fastening grooves 12, and the mobile phone charger 2 is overheated when the mobile phone charger 2 is overheated. The holder 3 is deformed and the hook 30 enters the inner side of the case body 1, and pushes the holder 3 upward through the elastic force of the bias spring 13, and the mobile phone charger 2 of the mobile phone charger 2. It provides a mobile phone charger case using a shape memory alloy, characterized in that the pin 21 enters into the pinhole 11.

The shape of the holder 3 is not specifically limited. An embodiment of the holder 3 is shown in FIG. 6. Alternatively, the shape of the T-shaped holder 3 may be provided. In this case, the shape memory alloy of the protruding portion in the center of the T-shape may be manufactured to be compressed at the transformation temperature.

The combination of the holder 3 and the mobile phone charger 2 may be easily configured by those skilled in the art using a known technique. Various components such as adhesives, velcro, banding, and suction plates may be used, but are not limited thereto. However, it should be configured to facilitate heat transfer from the mobile phone charger 2 to the holder (3). In the embodiment, but is shown to be adsorbed as shown in Figure 3, provided with a band that can surround the mobile phone charger 2 in the holder (3) by pulling the band tightly to fix the mobile phone charger (2) and the mobile phone charger (2) and It may be made to be fixed by the static friction force between the holder (3). In order to increase the static friction force, it may be possible to provide a plurality of projections on the surface of the holder 3 or to use a member with high frictional force. It is also possible to surround the band in the longitudinal direction in the mobile phone charger (2).

In addition, the shape of the shape memory alloy is formed so that the hook 30 is separated from the hook fastening groove 12 at the transformation temperature, the hook 30 is formed in the hook fastening groove 12 at a temperature below the transformation temperature. It can be manufactured by deforming the shape memory alloy at a temperature lower than the transformation temperature by a predetermined value to be fixed.

As described above, as the hook 30 is separated from the hook fastening groove 12 at the transformation temperature, the compressed bias spring 13 may apply an instantaneous elastic force so that the pin 21 may be completely separated from the outlet. To this end, it is necessary to use a bias spring 13 having a sufficient elastic recovery force.

In addition, the shape memory alloy is composed of an alloy of titanium and nickel, the composition ratio may be composed of 4 to 6 to 6 to 4 range. In general, a ratio of 5 to 5 can be used.

The transformation temperature of the shape memory alloy may be manufactured to 40 degrees to 80 degrees. The temperature range may vary according to the overheating criterion of the general mobile phone charger 2. An appropriate level may be selected according to environmental conditions such as temperature and humidity at which the mobile phone charger 2 is used.

On the other hand, the case body (1) is provided with a temperature sensor for measuring the temperature of the mobile phone charger (2), a speaker and a control unit, when the temperature of the mobile phone charger 2 reaches a predetermined temperature set in advance Alarm sound and alarm LED can be generated.

When the shape memory alloy reaches the transformation temperature, the mobile phone charger 2 is automatically released from the outlet, but an alarm sound and an alarm LED can be generated so that the user can recognize the overheating of the mobile phone.

In the embodiment as described above for the mobile phone charger 2 having a variety of shapes and sizes, was made in the form of a case to carry out the present invention in general, the following case and the mobile phone charger 2 is implemented integrally An example is described.

Filling means (2); A case having a space for accommodating the charging means 2 therein; At least one pinhole 11 having a predetermined size through which the pin 21 of the charging means 2 accommodated inside the case is provided is provided at the bottom of the case; A holder 3 coupled to the body of the charging means 2 and accommodated in the case inner space; One side of the holder (3) is connected to the bias spring 13 for applying an elastic force in the direction to push the charging means (2) upward from the case; One side of the holder 3 is provided with a hook 30 protrudes, the holder 3 is formed of a shape memory alloy, at least one hook fastening groove 12 is provided on one side of the case, The hook 30 is fixed to one of the hook fastening grooves 12 when the charging means 2 is in use, and the holder receives heat from the charging means 2 when the charging means 2 is overheated. (3) is deformed so that the hook (30) enters the case inward direction, and pushes the holder (3) upward through the elastic force of the bias spring 13, the pin 21 of the filling means (2) is pinhole 11 Provides a mobile phone charger (2) using a shape memory alloy, characterized in that to enter inside.

In addition, the charging means 2 is provided with a charger protection circuit (PCM); The shape memory alloy is provided with a heating means; When the battery or cell phone being charged is fully charged, the shape memory alloy can be heated to automatically remove the cell phone charger 2 from the outlet.

In general, a lithium-based battery may cause an explosion due to internal overheating and swelling when overcharged, and thus, a configuration of a charger protection circuit (PCM) is generally used to prevent this. In the present invention, by applying the existing charger protection circuit as described above, in the event of overcharge, over-discharge, over-current, short circuit, etc., the shape memory alloy is heated to automatically remove the mobile phone charger (2) from the outlet to overheat We propose a configuration that fundamentally blocks the risk of fire and explosion. The method of heating the shape memory alloy may include a configuration in which a current flows through the shape memory alloy to generate heat by its own thermal resistance, and a configuration in which a heat generator is provided to transfer heat to the shape memory alloy. The configuration of the circuit itself is in accordance with the prior art, which will not be described in more detail as a person skilled in the art can easily implement within the scope of the technical idea of the present invention.

Then, one side of the case is provided with a charging means (2) pusher, when using the charging means (2) the user operates the charging means (2) pusher of the hook 30 of the hook fastening groove 12 It is fixed to any one, so that the pin 21 penetrates through the pinhole 11 and is exposed to the outside, and when carrying the mobile phone charger 2, the user operates the charging means (2) pusher to hook the hook (30) By fixing to the other of the hook fastening groove 12, the pin 21 can enter the case inward direction than the pin hole 11 so that the pin 21 is protected from the outside of the case.

The charging means (2) pusher, the structure to push the charging means 2 directly to open the top of the case as shown in Figure 3, the hook 30 is fixed to the hook fastening groove 12 located at the lower end, By means of a lever or the like on the side of the case means a means capable of moving the charging means (2) by moving the lever.

1: case body
11: pinhole
12: Hook fastening groove
13: bias spring
2: mobile phone charger, charging means
21: pin
3: holder
30: hook
31: shape memory alloy spring

Claims (11)

In the mobile phone charger case having a space for accommodating the mobile phone charger therein,
One side of the case body is open to insert or remove the mobile phone charger,
At least one pinhole having a predetermined size through which the pin of the mobile phone charger housed in the case body is provided is provided at the bottom of the case body;
It is coupled to the body of the mobile phone charger, the holder is provided in the inner space of the case body is provided;
One side of the holder is connected to the bias spring for applying an elastic force in the direction to push the mobile phone charger upward from the case;
One side of the holder is provided with a hook protruding,
Shape memory alloy spring is coupled between the body and the hook of the holder;
At least one hook fastening groove is provided at one side of the case body,
When the mobile phone charger is in use, the shape memory alloy spring exerts an elastic force in the direction to push the hook so that the hook is fixed to any one of the hook fastening groove,
When the mobile phone charger is overheated, the shape memory alloy spring receiving the heat of the mobile phone charger is contracted to apply an elastic force in the direction of pulling the hook, to push the holder upward through the elastic force of the bias spring, and the pin of the mobile phone charger is a pinhole. Mobile phone charger case using a shape memory alloy, characterized in that entering inside In the mobile phone charger case having a space for accommodating the mobile phone charger therein,
One side of the case body is open to insert or remove the mobile phone charger,
At least one pinhole having a predetermined size through which the pin of the mobile phone charger housed in the case body is provided is provided at the bottom of the case body;
It is coupled to the body of the mobile phone charger, the holder is provided in the inner space of the case body is provided;
One side of the holder is connected to the bias spring for applying an elastic force in the direction to push the mobile phone charger upward from the case;
One side of the holder is provided with a hook protruding,
The holder is composed of a shape memory alloy,
At least one hook fastening groove is provided at one side of the case body,
When the mobile phone charger is in use, the hook is fixed to any one of the hook fastening grooves,
When the mobile phone charger is overheated, the holder which receives the heat of the mobile phone charger is deformed and the hook enters the inner side of the case body, pushing the holder upward through the elastic force of the bias spring, and the pin of the mobile phone charger enters the pinhole. Mobile phone charger case using a shape memory alloy, characterized in that The method according to any one of claims 1 and 2,
The shape of the shape memory alloy is formed so that the hook is separated from the hook fastening groove at the transformation temperature,
Mobile phone charger case using a shape memory alloy characterized in that the shape memory alloy is produced by deforming the shape memory alloy at a temperature lower than the transformation temperature so that the hook is fixed to the hook fastening groove at a temperature below the transformation temperature. The method according to claim 3,
The shape memory alloy is composed of an alloy of titanium and nickel, the composition ratio of the mobile phone charger case using the shape memory alloy, characterized in that the range of 4 to 6 to 6 to 4. The method according to any one of claims 1 and 2,
The case body is provided with a temperature sensor for measuring the temperature of the mobile phone charger, a speaker and a control unit,
Mobile phone charger case using a shape memory alloy, characterized in that for generating an alarm sound when the temperature of the mobile phone charger reaches a predetermined temperature set in advance Charging means;
A case having a space for accommodating the charging means therein;
At least one pinhole having a predetermined size through which a pin of a charging means accommodated inside the case is penetrated;
A holder coupled to the body of the charging means and accommodated in the inner space of the case;
One side of the holder is connected to the bias spring for applying an elastic force in the direction to push the charging means upward from the case;
One side of the holder is provided with a hook protruding,
The holder is composed of a shape memory alloy,
At least one hook fastening groove is provided at one side of the case,
When the charging means is in use, the hook is fixed to any one of the hook fastening grooves,
When the charging means is overheated, the holder receiving the heat of the charging means is deformed and the hook enters the inside of the case, pushing the holder upward through the elastic force of the bias spring, and the pin of the charging means enters into the pinhole. Mobile phone charger using shape memory alloy The method according to claim 6,
The shape of the shape memory alloy is formed so that the hook is separated from the hook fastening groove at the transformation temperature,
Mobile phone charger using a shape memory alloy characterized in that the shape memory alloy is produced by deforming the shape memory alloy at a temperature lower than the transformation temperature so that the hook is fixed to the hook fastening groove at a temperature below the transformation temperature. The method of claim 7, wherein
The shape memory alloy is composed of an alloy of titanium and nickel, the composition ratio of the mobile phone charger using the shape memory alloy, characterized in that the range of 4 to 6 to 6 to 4. The method according to claim 6,
The case body is provided with a temperature sensor for measuring the temperature of the charging means, a speaker and a controller,
Mobile phone charger using a shape memory alloy, characterized in that for generating an alarm sound when the temperature of the charging means reaches a predetermined temperature set in advance The method according to claim 6,
The charging means has a charger protection circuit (PCM);
The shape memory alloy is provided with a heating means;
Mobile phone charger using shape memory alloy, characterized in that when the battery or the charging cell is fully charged, the shape memory alloy can be heated to automatically remove the mobile phone charger from the outlet. The method according to claim 6,
Filling means pusher is provided on one side of the case,
When using the filling means, the user operates the filling means pusher to fix the hook to any one of the hook fastening groove, so that the pin is exposed to the outside through the pinhole,
When carrying a mobile phone charger, the user operates the charging means pusher to fix the hook to the other one of the hook fastening grooves, so that the pin enters the inside of the case rather than the pinhole so that the pin is protected from the outside of the case. Alloy Mobile Phone Charger

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