JPH08316652A - Portable power source - Google Patents

Abstract

PURPOSE: To effectively prevent short-circuit and leakage of an electronic component by efficiently dissipating heat from the electronic component by means of a simple structure. CONSTITUTION: A portable power source is provided with a case 1 which has a ventilating hole 4, an electronic component 2 stored in the case 1 and resin mold 3 which buries the electronic component 2. The case 1 is provided with a drainage 6 which drains internal water outside, and the top face of the resin mold 3 is inclined downward to the drainage 6. Inclining legs 7 are provided at the bottom of the case 1, and the top face of the resin mold 3 in the case 1 is inclined downward by permitting the inclining legs 7 to push up one side of the case 1. Therefore, water having entered from outside the case is discharged by permitting the water to flow down on the resin mold top face which is inclined downward to the drainage, and short-circuit and leakage due to water are effectively prevented.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable power supply, and more particularly to a power supply capable of smoothly draining inflowing water. By the way, in the present specification, the “power source” is used in a broad sense including a charger for a secondary battery.

[0002]

2. Description of the Related Art A portable power source such as a charger is carried and used, and therefore, it is used in an environment where it is more susceptible to vibrations and shocks than a power source which is used by leaving it indoors.
The power supply used in such an environment has a drawback that the connection part of the electronic parts built into the case is easily disconnected or the fixed part is easily damaged. In order to prevent this adverse effect, as described in Japanese Utility Model Publication No. 1-158650, a technique has been developed in which electronic parts are resin-molded and completely fixed.

[0003]

Since the electronic part fixed in this state is embedded in the resin mold, it is firmly fixed. However, the resin-molded electronic parts are
It is difficult to dissipate heat efficiently. This is because the resin mold does not conduct heat efficiently. Electronic parts that generate a small amount of heat can be completely embedded in a resin mold without any problem. However, electronic parts such as a transformer, a diode, a power transistor, and a power LED required for a power source generate a large amount of heat, and if they are completely resin-molded, it becomes difficult to radiate heat efficiently. Therefore, for electronic parts that generate a large amount of heat, for example, part of them may protrude from the resin mold,
Alternatively, it is necessary to project the fixed heat dissipation plate from the resin mold to efficiently dissipate heat.

Further, in order to efficiently radiate the heat radiated from the electronic parts into the case to the outside of the case,
Ventilation holes need to be opened in the case. In a case without a ventilation hole, the outside air cannot be ventilated and heat cannot be efficiently dissipated from the case to the outside. Unfortunately, the vented case cannot prevent water from entering through the vent during use. In particular, a portable power source is sometimes used outdoors, so it is impossible to prevent water from entering.

Water entering the case may short-circuit electronic parts or cause electric leakage. In particular, the invading water accumulates inside the case, and this is evaporated by the heat of the electronic parts, and if this state is repeated many times, the electronic parts are likely to become extremely short-circuited.
This is because when water is evaporated, the concentration of impurities becomes high and the conductivity of water becomes high. In order to prevent this adverse effect, if the ventilation holes are made small, heat dissipation becomes worse and the electronic parts generate heat. Efficient cooling of electronic parts and prevention of short circuit due to water intrusion are mutually contradictory characteristics, and it is difficult to satisfy both at the same time.

The present invention was developed for the purpose of solving this drawback. An important object of the present invention is to provide a portable power supply that can efficiently radiate heat from electronic parts and effectively prevent short-circuiting and electric leakage of the electronic parts due to invading water.

[0007]

The portable power supply of the present invention has the following constitution in order to achieve the above object.
A portable power supply includes a case 1 having a ventilation hole 4 and electronic parts 2 such as a transformer and a semiconductor housed in the case 1.
And a resin mold 3 in which the electronic part 2 is embedded. Further, the portable power source is provided with a drainage channel 6 for draining the water in the case 1 to the outside, and the upper surface of the resin mold 3 is inclined downwardly toward the drainage channel 6. In the power source of this structure, water flowing into the case 1 through the ventilation hole 4 is caused to flow down to the upper surface of the resin mold 3 that is inclined downward, and is drained from the case 1 through the drainage channel 6.

Further, in the portable power supply according to the second aspect of the present invention, the inclined leg 7 is provided on the bottom surface of the case 1.
The inclined leg 7 pushes up one side of the case 1 to incline the upper surface of the resin mold 3 in the case 1 downwardly.

[0009]

The portable power supply is resin-molded to securely fix the electronic parts 2. The case 1 is provided with a ventilation hole 4 in order to ventilate the outside air and efficiently dissipate the resin-molded electronic parts 2. Case 1
The ventilation hole 4 of the above ventilates the outside air and cools the built-in electronic part 2, but water also enters the case 1 from here. The invaded water causes the resin-molded electronic parts 2 to be short-circuited or cause electric leakage. Especially, electronic parts 2
The power source, a part of which is projected from the resin mold 3, is easily short-circuited by the water accumulated on the resin mold 3. Further, even if the electronic part 2 is completely embedded in the resin mold 3, water gradually penetrates into minute cracks or pinholes formed in the resin mold 3 to short-circuit the electronic part 2.
Further, when water is accumulated on the resin mold 3, dust adheres to and accumulates on the resin mold 3, and the dust absorbs moisture and becomes wet, which causes electric leakage or short circuit. Furthermore, when the water is completely dried by the electronic parts 2 that generate heat,
It does not cause a short circuit, but in the process of water evaporation,
It becomes an environment where it is extremely easy to short. This is because when the water is evaporated, the concentration of impurities in the water is increased and electricity easily flows. Pure water is evaporated in the electronic part 2 and impurities are not evaporated. Therefore, if this state is repeated, the concentration of impurities in the accumulated water gradually increases, and a short circuit easily occurs.

The portable power supply of the present invention has an extremely simple structure and solves this problem. The upper surface of the resin mold 3,
This is because it is inclined downwardly toward the drainage channel 6 provided in the case 1. Water that has entered the resin mold 3 through the ventilation hole 4 of the case 1 smoothly flows along the upper surface that is inclined downward and moves to the drainage channel 6. The upper surface of the resin mold 3 that inclines downward toward the drainage channel 6,
Water does not collect. The water that quickly flows down on the upper surface of the resin mold 3 does not increase the impurity concentration of water on the upper surface of the resin mold 3. Furthermore, the dust does not adhere to the resin mold 3 stagnation. Resin mold 3
The water flowing over can clean the impurities and foreign matters on the resin mold 3 cleanly. Therefore, the water that has entered the case 1 is quickly drained, and the adverse effect of short-circuiting the electronic parts 2 can be reliably prevented.
The power supply of the present invention can effectively prevent the short circuit of the electronic part 2 caused by the intruding water, so that the ventilation hole 4 can be enlarged and the electronic part 2 can be efficiently cooled.

Further, the portable power source according to the second aspect of the present invention has a feature that the upper surface of the resin mold 3 can be made to have a downward slope in an ideal shape simply and easily. This is because the inclined leg 7 is provided on the bottom surface of the case 1, and the inclined leg 7 pushes up one side of the case 1 to incline the resin mold 7 in the case 1 downwardly. In the power source of this structure, as shown by the chain line in FIG. 1, the slanted leg 7 is put in the recess provided in the horizontal base and is resin-molded in the case 1. In the uncured state, the resin mold 3 is filled with a liquid or paste resin to cure the upper surface into a horizontal shape. After the resin molding is completed, the inclined leg 7 pushes up one side of the case 1 to incline the upper surface of the resin mold 3 toward the drainage channel 6 in a downward slope. The power supply of this structure has a feature that it can be efficiently mass-produced because the upper surface of the resin mold 3 can be hardened and cured. Further, there is also a feature that the upper surface of the resin mold 3 can be smoothly molded and can be inclined downward.

[0012]

Embodiments of the present invention will be described below with reference to the drawings. However, the embodiments described below exemplify a portable power supply for embodying the technical idea of the present invention, and the present invention does not specify the power supply as the following.

Further, in this specification, in order to make it easy to understand the claims, the numbers corresponding to the members shown in the embodiments will be referred to as "claims", "actions", and "actions". In the column of "Means for solving the problem". However, the members shown in the claims are
It is by no means specific to the members of the examples.

The portable power supply shown in FIG. 1 is, for example, a portable charger in which a case 1 having a ventilation hole 4 has a resin-molded electronic part 2 such as a transformer or a semiconductor. The case 1 is made of plastic and includes an upper case 1A and a lower case 1B formed in a box shape. Upper case 1
A and the lower case 1B are connected to each other by a method such as welding or adhesion to form a case which is not sealed but closed.

The upper case 1A is provided with ventilation holes 4 at the upper corners on both sides. The lower case 1B is provided with a drainage channel 6 penetrating from the periphery of the resin mold 3 to the outside of the case 1 to drain the water in the case 1 to the outside. In the case 1 shown in the figure, a drainage channel 6 is configured by a groove 11 provided around the resin mold 3 and a through hole 5 provided in the bottom of the lower case 1B in connection with the groove 11. The drainage channel 6 having the groove 11 around the resin mold 3 is
Since the water on the resin mold 3 can be dropped into the groove 11, it is possible to effectively prevent the water from collecting on the resin mold 3. However, the power supply of the present invention does not necessarily need to have a groove in the drainage channel. For example, as shown in FIG. 2, a through hole 5 may be opened in the side surface of the case 1 to form a drainage channel 6, from which water on the resin mold 3 can be drained.

Further, in the lower case 1B shown in the figure, the inclined leg 7 is integrally formed so as to project to the bottom surface. The inclined leg 7 pushes up one side of the case 1 to raise the resin mold 3 in the case 1.
The upper surface of the to slope down. Case 1 shown in FIG.
The right slanted leg 7 is made longer than the left slanted leg 7, and the upper surface of the resin mold 3 is slanted downward to the left. The case 1 shown in FIG. 3 has a through hole 5 in the inclined leg 7. The through hole 5 is opened on the side surface of the inclined leg 7 so that the inclined leg 7 is not blocked even if it is placed on the table. The through hole 5 of the inclined leg 7 has a feature that water does not easily enter from here. This is because water cannot flow into Case 1 unless it flows upward. The through hole 5 includes the ventilation hole 4 and the drainage channel 6.
It can also be used together with.

The lower case 1B is provided with a resin mold 3 in order to provide a groove 11 as a drainage channel 6 around the resin mold 3.
The partition wall 8 is integrally formed around the partition wall. The partition wall 8 is formed to have a constant height, and an uncured resin is filled in the partition wall 8 for resin molding. The partition wall 8 is formed to have a height substantially equal to the upper surface of the resin mold 3 so that the water flowing on the upper surface of the resin mold 3 can flow to the drainage channel 6. In the lower case 1B having the partition wall 8, the inside of the partition wall 8 can be filled with uncured resin at a predetermined position in a predetermined amount, and a groove 11 serving as the drainage channel 6 is provided around the resin mold 3. There is a feature that can be.

The resin mold 3 in the case 1 is inclined downward toward the drainage channel 6 so that water does not collect on the upper surface. In the lower case 1B shown in FIG. 1, as shown by the dotted line in the figure, the inclined leg 7 is put in the recess of the horizontal base, and the partition wall 8 is filled with the uncured resin. Before the resin is filled, the electronic parts 2 are arranged at a predetermined position in the partition wall 8 and temporarily fixed. When resin molding is performed inside the partition wall 8 in this state, the resin mold 3 is cured with its upper surface horizontal. Take out the inclined leg 7 from the recess and place it on a horizontal table.
The upper surface of the resin mold 3 is inclined by the inclined leg 7. As described above, the case 1 having the inclined leg 7 has a feature that the resin mold 3 is filled horizontally and the upper surface can be inclined when used.

However, in the power supply of the present invention, as shown in FIG. 2, the upper surface of the resin mold 3 can be inclined with respect to the case 1 instead of inclining the case 1.
In the power source of this structure, the case 1 is allowed to stand and the resin mold 3 is cured.

In the power source shown in FIGS. 1 and 3, the resin-molded electronic part 2 is fixed to the printed circuit board 9. A control semiconductor such as a power transistor or a power LED, which is the electronic part 2, and a transformer are fixed to the printed circuit board 9. The heat dissipation plate 10 is closely attached and fixed to the control semiconductor. The heat dissipation plate 10 is a metal plate such as aluminum bent in an L shape. The heat dissipation plate 10, the heat dissipation portion of the control semiconductor, and part of the transformer are projected from the resin mold 3. This is for efficient heat dissipation. The printed circuit board 9 and the heat dissipation plate 10 are temporarily fixed at a predetermined position and resin-molded.

The resin used for the resin mold 3 is preferably urethane resin. However, as the resin used for the resin mold 3, any resin that is liquid or paste when uncured, has excellent insulating properties, and has strength that can hold the electronic part 2 when cured can be used. Instead of urethane resin, epoxy resin, silicon resin, or the like can be used as the resin of the resin mold 3.

[0022]

The portable power supply of the present invention has the following excellent features. The power supply according to the first aspect of the present invention can quickly drain the intruding water and effectively prevent the short circuit and the electric leakage due to the water. This is because the portable power supply of the present invention is inclined downward on the upper surface of the resin mold that molds the electronic parts toward the drainage channel. Water does not collect on the upper surface of the resin mold that inclines downward, and the water that enters through the ventilation holes quickly flows into the drainage channel and drains out of the case. Therefore, the upper surface of the resin mold does not become wet for a long time. In addition, the water that stagnates on the upper surface of the resin mold does not evaporate and the conductivity does not increase. Therefore, the electronic parts embedded in the resin mold can be short-circuited with water having high conductivity, or the electric leakage can be minimized. Furthermore, since the portable power supply of the present invention can quickly drain water that enters through the ventilation hole and effectively prevent a short circuit or the like caused by the water, the case ventilation hole can be enlarged. Therefore, there is a feature that the case can be well ventilated and the electronic parts can efficiently radiate heat. Moreover, it is not necessary to completely embed the electronic parts in the resin mold in order to improve the insulation between the electronic parts. A short circuit can be prevented by making a part of the electronic parts protrude from the resin mold. This is because it is possible to prevent the conductivity of water from increasing. This synergizes with sufficient ventilation in the case and further enhances the cooling efficiency of electronic parts.

The portable power supply according to the second aspect of the present invention can be manufactured very easily, and the upper surface of the resin mold can be inclined downward. This is because an inclined leg is provided on the bottom surface of the case, and one side of the case is pushed up by this inclined leg so that the upper surface of the resin mold in the case is inclined downward. The case of this structure can be manufactured by horizontally hardening the resin mold in a state where the inclined leg is put in the recess of the horizontal base.
For this reason, the resin molding process can be made highly efficient, and the upper surface can be cured with a downward slope without using a special device. In particular, a resin mold in which an uncured resin is allowed to stand and the upper surface is cured horizontally can be formed into a shape in which the upper surface becomes a smooth surface and water flows easily in the cured state.

[Brief description of drawings]

FIG. 1 is a sectional view of a portable power supply according to an embodiment of the present invention.

FIG. 2 is a sectional view of a portable power supply according to another embodiment of the present invention.

FIG. 3 is a sectional view of a portable power supply according to another embodiment of the present invention.

[Explanation of symbols]

1 ... Case 1A ... Upper case 1
B ... Lower case 2 ... Electronic parts 3 ... Resin mold 4 ... Ventilation hole 5 ... Through hole 6 ... Drainage channel 7 ... Inclined leg 8 ... Partition wall 9 ... Printed circuit board 10 ... Heat sink 11 ... Groove

Claims (2)

[Claims] 1. A case (1) provided with a ventilation hole (4), an electronic part (2) such as a transformer or a semiconductor housed in this case (1), and an electronic part (2) embedded. Resin mold
In a portable power supply including (3), the case (1) is provided with a drainage channel (6) for draining the internal water to the outside, and a resin mold (3) is directed toward the drainage channel (6). The upper surface of the is inclined downward, and the water that has flowed into the case (1) from the ventilation hole (4) flows down the upper surface of the resin mold (3) to the outside of the case (1) through the drainage channel (6). A portable power supply configured to be drained. 2. The case (1) has an inclined leg (7) on the bottom surface, and the inclined leg (7) pushes up one side of the case (1) to raise the case (1).
The portable power source according to claim 1, wherein the upper surface of the resin mold (3) therein is inclined downward.