KR102126369B1 - Temperature-preserved lead-acid battery enclosure using phase change material - Google Patents

Abstract

The present invention relates to a constant temperature maintenance lead acid battery enclosure using a phase change material, and more specifically, by installing a constant temperature structure (containing phase change material) having a 25 degree characteristic on the outer wall of the lead acid battery enclosure, when the temperature of the lead acid battery is high It relates to a constant temperature maintenance lead acid battery enclosure using a phase change material that absorbs heat and emits heat when the temperature of the lead acid battery is low to maintain 25 degrees at all times.
Through the present invention, by installing a constant temperature structure (containing phase change material) having a 25-degree characteristic on the outer wall of the lead acid battery enclosure, absorbs heat when the temperature of the lead acid battery is high, and releases heat when the temperature of the lead acid battery is low It will always provide the effect of maintaining 25 degrees.
In addition, by maintaining a constant temperature at all times, by providing an effect that can improve the performance and life of the lead-acid battery, and by providing an enclosure structure that can periodically replace the PCM package, it provides convenience of replacement and convenience of maintenance. Is done.

Description

Constant temperature maintenance lead-acid battery enclosure using phase change material {Temperature-preserved lead-acid battery enclosure using phase change material}

The present invention relates to a constant temperature maintenance lead acid battery enclosure using a phase change material, more specifically, by installing a constant temperature structure (containing phase change material) having a 25 degree characteristic on the outer wall of the lead acid battery enclosure, when the temperature of the lead acid battery is high It relates to a constant temperature maintenance lead acid battery enclosure using a phase change material that absorbs heat and emits heat when the temperature of the lead acid battery is low to maintain 25 degrees at all times.

In general, a lead acid battery is a device that converts chemical energy into electrical energy or converts electrical energy into chemical energy. For example, it is installed in a vehicle to start an engine or be used as a power source such as an ignition device or an equalizer. Types are largely divided into lead-acid storage batteries and alkaline storage batteries.

Among them, the most widely used storage battery is a lead-acid storage battery, and the structure thereof will be described with reference to FIG. 1 as follows.

As illustrated in FIG. 1, an automotive lead acid storage battery (hereinafter referred to as an automotive storage battery or storage battery, 100) includes cases 110, 120, and the case 110, including a pair of electrode terminals 122, 124. 120) a substrate assembly 130 provided inside and including several pairs of anode plates 132 and cathode plates 134, and connecting means for connecting the pair of terminals to the anode plates 132 and cathode plates 134, respectively ).

The case 110 includes a roll 110 in which a predetermined cell 112 is provided, and a cover 120 coupled to the top of the roll 110 so that the cell 112 is sealed.

At this time, a plurality of cells 112 provided inside the roll 110 is partitioned by the partition 114.

In addition, the cover 120 is formed in a shape that the cell 112 can be sealed as described above, a pair of electrode terminals 122, 124 thereon, that is, the positive terminal 122 and the negative terminal 124 is provided to be exposed to the outside.

The substrate assembly 130 is installed in each cell 112 formed inside the roll 110 to generate electrical energy, and a plurality of positive electrode plates 132 and negative electrode plates 134 positioned between the positive electrode plates 132 ) And the positive electrode plate 132 and the negative electrode plate 134 to prevent a short circuit between the positive electrode plate (positive plate and negative electrode plate, 132 and 134).

At this time, in the remaining space of the cell 112 where the substrate assembly 130 is installed, dilute sulfuric acid (2H2SO4), which is an electrolyte (not shown), is filled to help a chemical reaction between the positive electrode plate 132 and the negative electrode plate 134.

The connecting means 140 includes an anode strap 142 electrically connecting a plurality of anode plates 132, a cathode strap 144 electrically connecting a plurality of cathode plates 134, and the anode and cathode straps ( 132, 134 is made of a post 146 connecting the positive and negative terminals (122, 124).

In the case of the lead-acid battery as described above, a difference in performance is shown by ambient temperature.

In particular, the performance decreases due to the ambient temperature in winter, and the replacement cycle is shortened due to the reduced performance.

Therefore, there is a need for a technique capable of absorbing heat when the temperature of the lead acid battery is high and dissipating heat when the temperature of the lead acid battery is low to maintain a proper temperature at all times.

In order to improve the above-mentioned conventional problems, the lead-acid battery enclosure for maintaining constant temperature using a phase change material according to the present inventor is provided with a constant temperature structure (containing phase change material) having a 25-degree characteristic on the outer wall of the lead-acid battery, when the temperature of the lead-acid battery is high It absorbs heat and releases heat when the temperature of the lead acid battery is low, thereby providing an effect of maintaining 25 degrees at all times.

U.S. Patent Registration Publication No. 9312580 (2016.04.12)

Therefore, the present invention has been devised to solve the conventional problems,

The object of the present invention is to install a constant temperature structure (containing phase change material) having a 25-degree characteristic on the outer wall of the lead acid battery enclosure, absorb heat when the temperature of the lead acid battery is high, and release heat when the temperature of the lead acid battery is low. I am always trying to keep it at 25 degrees.

In order to achieve the problem to be solved by the present invention, a constant temperature maintenance lead acid battery enclosure 1000 using a phase change material according to an embodiment of the present invention,

Enclosure body portion 100 is formed with an internal space for inserting the lead acid battery 10 in the interior space; And

On each side of the enclosure body portion, the PCM package contact hole portion 200 is formed in a certain size so that one surface of the PCM package contacts the lead acid battery so that heat conduction can be smoothly performed; and

After the PCM package is seated, the hinge portion 300 for rotating the door 310 is formed at an edge between one side and the other side constituting the enclosure body in order to prevent external foreign matter from entering and external impact; and

A door 310 formed on one side of the hinge portion to seat the PCM package, and then rotated and moved through the operation of the hinge portion; and

By forming an external shape made of aluminum, and the PCM package 400 filling the phase change material 410 therein, the problem of the present invention is solved.

The constant temperature maintenance lead acid battery enclosure using the phase change material according to the present invention,

By installing a constant temperature structure (containing phase change material) with a 25-degree characteristic on the outer wall of the lead-acid battery enclosure, it absorbs heat when the temperature of the lead-acid battery is high, and releases heat when the temperature of the lead-acid battery is low to maintain 25 degrees at all times This will provide the effect.

In addition, by maintaining a constant temperature at all times, by providing an effect that can improve the performance and life of the lead-acid battery, and by providing an enclosure structure that can periodically replace the PCM package, it provides convenience of replacement and convenience of maintenance. Is done.

1 is a perspective view showing a conventional lead acid battery.
2 is a perspective view of a constant temperature maintenance lead acid battery enclosure using a phase change material according to an embodiment of the present invention.
3 is a cross-sectional view of a lead-acid battery enclosure with constant temperature maintenance using a phase change material according to an embodiment of the present invention coupled to a lead acid battery.
4 is a cross-sectional view of a constant temperature maintenance lead acid battery enclosure using a phase change material according to an embodiment of the present invention.
5 is an exemplary view in which the PCM package is settled in a constant temperature maintenance lead acid battery enclosure using a phase change material according to an embodiment of the present invention.
6 is a perspective view showing a partial PCM unit 420 constituting a PCM package 400 that is seated in a constant temperature maintenance lead acid battery enclosure using a phase change material according to an embodiment of the present invention.
7 is a perspective view of a constant temperature maintenance lead acid battery enclosure using a phase change material according to this embodiment of the present invention.
8 is a cross-sectional view of a constant temperature maintenance lead acid battery enclosure using a phase change material according to this embodiment of the present invention.

The constant temperature maintenance lead acid battery enclosure 1000 using a phase change material according to an embodiment of the present invention,

Enclosure body portion 100 is formed with an internal space for inserting the lead acid battery 10 in the interior space; And

On each side of the enclosure body portion, the PCM package contact hole portion 200 is formed in a certain size so that one surface of the PCM package contacts the lead acid battery so that heat conduction can be smoothly performed; and

After the PCM package is seated, a hinge portion 300 for rotating the door 310 is formed at an edge between one side and the other side of the enclosure body to prevent external foreign matter from entering and external impact; and

A door 310 formed on one side of the hinge portion to seat the PCM package, and then rotated and moved through the operation of the hinge portion; and

It is characterized in that it is configured to include a PCM package 400 that forms an outer shape of an aluminum material and fills the phase change material 410 therein.

On the other hand, the constant temperature maintenance lead acid battery enclosure 1000 using the phase change material according to this embodiment of the present invention,

Enclosure body portion 100 is formed with an internal space for inserting the lead acid battery 10 in the interior space; And

On each side of the enclosure body portion, the PCM package contact hole portion 200 is formed in a certain size so that one surface of the PCM package contacts the lead acid battery so that heat conduction can be smoothly performed; and

After the PCM package is seated, the cover portion 150 covers the respective surfaces constituting the enclosure body portion and forms a bent portion on the upper side and the lower side in order to prevent the inflow of foreign substances and external impact.

It is formed at regular intervals on the side of the bent portion, the cover fastening hole 160 for inserting the fastening means 170; And

It is characterized in that it is configured to include a PCM package 400 that forms an outer shape of an aluminum material and fills the phase change material 410 therein.

At this time, the enclosure body portion 100,

It is made of an aluminum material with excellent thermal conductivity, and at each end, a bent portion 110 is formed so that one surface of the bent portion contacts one surface of the lead acid battery,

It characterized in that by forming a fastening hole 120 at regular intervals on the side of the bent portion, through the fastening means through the fastening hole to be coupled to one side of the lead acid battery.

At this time, the PCM package 400,

It is characterized in that it is formed by continuously and repeatedly arranging the partial PCM parts 420 having any one of a cylindrical, semi-cylindrical, and polygonal shape.

At this time, inside the partial PCM unit 420,

Characterized in that a plurality of aluminum heat conducting cables 425 are arranged.

Hereinafter, it will be described in detail through an embodiment of a constant temperature maintenance lead acid battery enclosure using a phase change material according to the present invention.

2 is a perspective view of a constant temperature maintenance lead acid battery enclosure using a phase change material according to an embodiment of the present invention.

3 is a cross-sectional view of a lead-acid battery enclosure with constant temperature maintenance using a phase change material according to an embodiment of the present invention coupled to a lead-acid battery.

4 is a cross-sectional view of a constant temperature maintenance lead acid battery enclosure using a phase change material according to an embodiment of the present invention.

5 is an exemplary view in which the PCM package is settled in a constant temperature maintenance lead acid battery enclosure using a phase change material according to an embodiment of the present invention.

FIG. 6 is a perspective view showing a partial PCM unit 420 constituting a PCM package 400 seated in a constant temperature maintenance lead acid battery enclosure using a phase change material according to an embodiment of the present invention.

Specifically, as shown in FIGS. 2 to 6, the constant temperature maintenance lead acid battery enclosure 1000 using the inventors phase change material is large, the enclosure body portion 100, the PCM package contact hole portion 200 , Including the hinge part 300 and the PCM package 400.

The enclosure body portion 100 is formed with an internal space for inserting the lead acid battery 10 in the interior space.

That is, the base is configured to be larger than the width of the lead acid battery, and the side wall is formed on the side surface of the base to form a box so that an internal space is formed.

And, as shown in Figures 2 and 5, each surface of the enclosure body portion to form a PCM package contact hole 200 in a constant size so that one surface of the PCM package is in contact with the lead acid battery heat conduction can be made smoothly To make it happen.

The PCM package contact hole 200 may be configured with a plurality of holes of a corresponding size, but may be repeatedly formed in thousands.

In addition, a hinge portion 300 may be formed at each corner of the enclosure body portion.

For example, in the case of a quadrangular shape, four hinges may be respectively formed at four corners.

Therefore, after the PCM package is seated, the door 310 formed in the hinge portion is rotated to close to prevent external foreign matter from entering and external impact.

At this time, according to an additional aspect, a button portion may be configured on one side of the door to replace the PCM package or to open the door by pressing it when seated.

The door 310 is formed on one side of the hinge portion, seats the PCM package, and then rotates through the operation of the hinge portion.

That is, when the PCM package is input, the door is rotated to open, and after input, the door is rotated to close.

On the other hand, the PCM package 400, which is a core component of the present invention, is formed of an aluminum material, and is characterized by filling the phase change material 410 therein.

That is, the PCM package 400 is made by filling various types of phase change materials 410 in an outer shape as shown in FIG. 5 made using an aluminum material having excellent thermal conductivity, endothermic in the process of changing the state of the phase change material And the temperature of the lead-acid battery located inside the enclosure from the heat dissipation action can be kept constant, and at the same time, the temperature inside the enclosure is rapidly reduced through heat dissipation due to contact with the outside air.

Here, a phase change material (PCM) refers to a material used for the purpose of storing energy or maintaining a constant temperature by using an effect of absorbing or releasing latent heat possessed by a material.

Here, latent heat refers to heat absorbed or released at the same temperature when a substance changes phase, that is, from solid to liquid or liquid to solid, liquid to gas or gas to liquid, and latent heat is sensible heat, that is, It is much greater than the amount of heat absorbed or released in the absence of phase change.

Therefore, the phase change material (PCM) is to increase the temperature gradually when the ambient temperature is high, and gradually decreases the temperature when the ambient temperature is low, so that it can maintain a cool state for a long time in the summer when the ambient temperature is high, In winter, when the ambient temperature is low, it has a function to maintain a warm state for a long time.

In particular, since the lead-acid battery shows a difference in performance depending on the ambient temperature, performance degradation occurs due to the ambient temperature of the winter chuck, and accordingly, the replacement cycle is shortened.

Specifically, if a certain temperature is stored for the PCM package, for example, when it has a 25-degree characteristic, a phase change material emits heat while changing a phase in a corresponding temperature range or stores heat to increase ambient temperature, or When it is moved from a cool place to a hot place in the summer, the phase changes from a solid to a liquid to take away the surrounding heat and cool the surroundings, and when it is moved from a hot place to a cold place in winter, As the phase changes from liquid to solid, heat can be released to the surroundings to warm the surroundings.

In addition, as typical phase change materials, tetradecane, eic acid, octadecane, hexadecane, propionamide, naphthalene, acetamide, stearic acid, polyglycol, wax, palmitic acid, myristic acid, lignocerate, campen, 3 -Heptanecanone, polyethylene glycol, tetradecane, cyanamide, lauric acid, carpolone, trimyristrin, hexadecanone, capric acid, caprylic acid and one or more selected from the group consisting of polyglycol can be used. Can.

In particular, it would be ideal to set the storage temperature setting range of the phase change material charged in the PCM package in the present invention to be made before and after 25°C to maintain stable performance of the lead acid battery.

On the other hand, the enclosure body portion 100 of the present invention,

It is made of an aluminum material with excellent thermal conductivity, and at each end, a bent portion 110 is formed so that one surface of the bent portion contacts one surface of the lead acid battery,

By forming a fastening hole 120 at regular intervals on the side surface of the bent portion, it is characterized in that the fastening means are penetrated through the fastening hole to be coupled to one surface before lead storage.

That is, as illustrated in FIG. 4, a bent portion 110 is formed at each end so that one surface of the bent portion contacts one surface of the lead acid battery.

At this time, by forming a fastening hole 120 at regular intervals on the side surface of the bent portion, a fastening means, for example, a bolt, is passed through the fastening hole to be coupled to one surface of a lead acid battery.

On the other hand, the PCM package 400,

It is characterized in that it is formed by continuously and repeatedly arranging the partial PCM parts 420 having any one of a cylindrical, semi-cylindrical, and polygonal shape.

As shown in FIG. 5, the PCM package 400 is formed by continuously repeating and arranging the partial PCM portions 420 having any one of a cylindrical shape, a semi-cylindrical shape, and a polygonal shape.

For example, if one PCM package formed by arranging seven partial PCM units 420 continuously and repeatedly has two PCM package contact hole portions 200 formed on one surface, the PCM package contact hole portion 200 In this case, two PCM packages will be settled.

At this time, inside the partial PCM unit 420,

Characterized in that a plurality of aluminum heat conducting cables 425 are arranged.

Specifically, when the phase change material 410 is filled in the PCM package 400 and a plurality of aluminum heat conducting cables 425 are formed at regular intervals, a rapid change in state occurs, for example, endothermic action. And heat dissipation from the enclosure due to heat absorption to the lead acid battery is more effective in lowering the internal temperature.

On the other hand, if the PCM package 400 is to be formed in a semi-cylindrical shape, it is possible to increase the heat-collecting effect due to the hemispherical shape and the contact area with the internal phase change material, so that better heat absorption and heat dissipation can be expected.

7 is a perspective view of a constant temperature maintenance lead acid battery enclosure using a phase change material according to this embodiment of the present invention.

8 is a cross-sectional view of a constant temperature maintenance lead acid battery enclosure using a phase change material according to this embodiment of the present invention.

On the other hand, as shown in Figures 7 to 8, the constant temperature maintenance lead acid battery enclosure using a phase change material according to this embodiment of the present invention,

Enclosure body portion 100 is formed with an internal space for inserting the lead acid battery 10 in the interior space; And

On each side of the enclosure body portion, the PCM package contact hole portion 200 is formed in a certain size so that one surface of the PCM package contacts the lead acid battery so that heat conduction can be smoothly performed; and

After the PCM package is seated, the cover portion 150 covers the respective surfaces constituting the enclosure body portion and forms a bent portion on the upper side and the lower side in order to prevent the inflow of foreign substances and external impact.

It is formed at a predetermined interval on the side of the bent cover fastening hole 160 for inserting the fastening means 170; And

It is configured to include a PCM package 400 that forms an outer shape of aluminum and fills the phase change material 410 therein.

The difference from one embodiment is that a PCM package is mounted, covered with a cover, and then coupled by using a cover instead of a hinge and a door.

That is, after the PCM package is seated through the cover portion 150, the respective surfaces constituting the enclosure body portion are covered in order to prevent foreign substances from entering and external impact.

For example, in the case of a quadrangular shape, the four sides have to be covered, so four cover parts are formed.

At this time, the bent portion 110 is formed on the upper side and the lower side of the cover portion.

In addition, a plurality of cover fastening holes 160 are formed at regular intervals on the side of the bent portion, and the fastening means 170 is inserted into the cover fastening holes to securely fix the PCM package so that it is not exposed to the outside.

On the other hand, according to an additional aspect, the entire outer surface of the enclosure body portion 100 may be formed by applying a heat exchange coating layer by a heat exchange coating.

Therefore, it is possible to reduce the increase in the internal temperature due to strong heat, the heat exchange coating by the vibration of heat exchange molecules constituting the heat exchange coating layer.

It is known to convert heat energy into kinetic energy and extinguish heat by itself.

It is known that such heat-exchange paint is contaminated on the painted surface or the heat-exchanging motion is continued even after a period of time. In winter, it has excellent insulation effect and anti-condensation effect. It would be very suitable for the enclosure of the present invention.

Therefore, when the heat exchange coating is evenly applied to the entire outer surface, it is possible to prevent the temperature inside the enclosure from rapidly rising during the summer season, as well as to form the heat exchange coating layer by the heat exchange coating on the entire inner surface. It may also play a role in reducing the heat generated in the lead acid battery of a certain level.

Through the configuration of the present invention as described above, by installing a constant temperature structure (containing phase change material) having a 25-degree characteristic on the outer wall of the lead acid battery enclosure, absorbs heat when the temperature of the lead acid battery is high, and the temperature of the lead acid battery is low. When it releases heat, it provides the effect of always maintaining 25 degrees.

In addition, by maintaining a constant temperature at all times, by providing an effect that can improve the performance and life of the lead-acid battery, and by providing an enclosure structure that can periodically replace the PCM package, it provides convenience of replacement and convenience of maintenance. Is done.

Those of ordinary skill in the art to which the present invention pertains to the above contents may understand that the present invention may be implemented in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, the embodiments described above are exemplified in all respects and should be understood as non-limiting.

100: enclosure main body
200: PCM package contact hole
300: hinge part
400: PCM package

Claims (5)

In the constant temperature maintenance lead acid battery enclosure (1000) using a phase change material,
Enclosure body portion 100 is formed with an internal space for inserting the lead acid battery 10 in the interior space; And
Each surface of the enclosure body portion is formed in a certain size so that one surface of the PCM package is in contact with the lead-acid battery, the PCM package contact hole portion 200 to facilitate heat conduction; and
After the PCM package is seated, a hinge portion 300 for rotating the door 310 is formed at an edge between one side and the other side of the enclosure body to prevent external foreign matter from entering and external impact; and
A door 310 formed on one side of the hinge portion to seat the PCM package, and then rotated and moved through the operation of the hinge portion; and
It comprises an aluminum material to form an outer shape, and the PCM package 400 filling the phase change material 410;
The enclosure body portion 100,
It is made of an aluminum material with excellent thermal conductivity, and at each end, a bent portion 110 is formed so that one surface of the bent portion contacts one surface of the lead acid battery,
By forming a fastening hole 120 at regular intervals on the side of the bent portion, it characterized in that through the fastening means through the fastening hole to be coupled to one side of the lead acid battery,
The PCM package 400,
It is characterized by being formed by repeatedly arranging the partial PCM portions 420 having any one of cylindrical, semi-cylindrical, and polygonal shapes,
Inside the partial PCM unit 420,
Characterized in that a number of heat conducting cables 425 made of aluminum are arranged,
A lead-acid battery enclosure that maintains constant temperature using a phase change material that allows the PCM package to be replaced by configuring a button on one side of the door or pressing it to open the door when seated.
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