JP2020182298A - Charging cable with winding device - Google Patents

Abstract

To provide a charging cable with a winding device suppressing a heat release value of a cable even if charging (energization) is performed in a state where a part of the cable is wound up.SOLUTION: A charging cable 1 with a winding device has: a cable 2 having at one end, a plug 3 connected to a power source side, and having at the other end, a power supply plug 4 connected to a power supply side of a vehicle; a winding device 5 winding a cable; and cooling means 18 cooling the cable wound by the winding device. Further, the charging cable has temperature detection means 21 detecting a temperature of the cable, and control means 22 operating the cooling means when detection information of the temperature detection means is inputted and an inputted temperature is higher than a predetermined temperature.SELECTED DRAWING: Figure 2

Description

The present invention relates to a charging cable with a hoisting device.

When charging an electric vehicle, for example, a charging cable having a power connector inserted into a household power outlet and a power connector inserted into the vehicle's power supply port is generally used. The length of the charging cable is several meters, and it will be stored at home or inside the vehicle except when charging. The work of taking out a charging cable of several meters each time it is charged, carrying it around, folding the cable into small pieces after charging, and storing it is a cumbersome task.

For this reason, various charging cables with a winding device having a function of winding a long cable on a reel or the like have been conventionally proposed (for example, Patent Document 1). In the technique of Patent Document 1, since the cable can be wound up and stored compactly, it becomes easy to carry the charging cable during charging and to store the charging cable other than during charging, and it is possible to reduce troublesomeness.

However, depending on the distance between the vehicle and the power supply, it is assumed that charging is performed by the charging cable with a part of the cable wound up. If charging (energization) is performed while a part of the cable is wound up, it is possible that the amount of heat generated by the cable increases. It is conceivable to enable charging on the condition that the cable is fully extended, but this hinders the reduction of troublesomeness during charging.

Japanese Unexamined Patent Publication No. 2013-172618

The present invention has been made in view of the above situation, and provides a charging cable with a winding device capable of suppressing the amount of heat generated by the cable even when charging (energizing) while a part of the cable is wound. The purpose is.

The charging cable with a winding device according to claim 1 for achieving the above object has a power plug connected to the power supply side at one end and a power supply plug connected to the power supply side of the vehicle at the other end. It is characterized by including a cable to be held, a winding device for winding the cable, and a cooling means for cooling the cable wound on the winding device.

In the present invention according to claim 1, when charging (energization) is performed in a state where the cable is wound, the winding device can be cooled by the cooling means. Therefore, it is possible to suppress the amount of heat generated by the cable even if charging (energization) is performed while a part of the cable is wound up.

The charging cable with a winding device according to claim 2 has the temperature detecting means for detecting the temperature of the cable and the detection information of the temperature detecting means in the charging cable with a winding device according to claim 1. It is characterized in that it is provided with a control means for operating the cooling means when the input is input and the input temperature is higher than a predetermined temperature.

In the present invention according to claim 2, when the temperature of the cable (the temperature of the portion where the cable is housed) is higher than the predetermined temperature by the temperature detecting means, the cooling means can be operated by the control means. For example, when the temperature is high regardless of the winding state of the cable, the cooling means can be operated to suppress the heat generation of the cable.

The charging cable with a hoisting device according to claim 3 is the charging cable with a hoisting device according to claim 2, wherein the control means is the cooling means based on the temperature detected by the temperature detecting means. It is characterized by having a function of making the operating ability of the variable variable.

In the present invention according to claim 3, the operating ability of the cooling means can be set according to the temperature detected by the temperature detecting means. For example, when a cooling fan is applied as the cooling means, it is possible to control that the rotation speed of the fan is increased when the temperature is high and the rotation speed of the fan is decreased when the temperature is low.

Further, the charging cable with a winding device according to claim 4 includes the winding state detecting means for detecting the winding state of the cable in the charging cable with a winding device according to claim 2 or 3. The control means is input with the detection information of the winding detection means, and the control means operates the cooling means when it detects that the cable is wound by the winding detection means. To do.

In the present invention according to claim 4, when the winding state of the cable is detected by the winding detecting means (when it is detected that the cable is wound), the cooling means can be operated by the control means. For example, when the cable is wound regardless of the temperature of the cable, the cooling means can be operated to suppress the heat generation of the cable.

Further, the charging cable with a winding device according to claim 5 is the charging cable with a winding device according to any one of claims 1 to 4, wherein the cable is wound around the winding device. It is characterized in that it has a reel member, a case for accommodating the reel member, and a safety device mounted on the case for charging.

In the present invention according to claim 5, the cable can be wound around the reel member. For example, the case can be provided with temperature detecting means. Further, it can be used as a winding state detecting means by detecting the rotation state of the reel member. Then, it is possible to use a charging cable with a winding device in which a safety device for charging (CCID that shuts off an earth leakage or the like) is integrally housed in the case, and space can be saved.

The charging cable with a winding device of the present invention can suppress the amount of heat generated by the cable even when charging (energizing) while a part of the cable is wound.

It is an external view of the state in which the charging cable with a winding device which concerns on one Example of this invention is used. It is a schematic plan view of the charging cable with a winding device which concerns on one Example of this invention. FIG. 3 is a view taken along the line III-III in FIG. It is a cooling operation explanatory drawing of the charging cable with a winding device which concerns on one Example of this invention.

FIG. 1 shows the appearance of a state in which charging is performed from a household power source using a charging cable with a winding device according to an embodiment of the present invention.

As shown in FIG. 1, the charging cable 1 with a winding device is provided with a power plug 3 at one end of the cable 2 and a power supply plug 4 at the other end of the cable 2. Then, the cable 2 is wound around the winding device 5 and can be accommodated. The inside of the hoisting device 5 is cooled by the operation of a cooling fan as a cooling means described later.

The power plug 3 is inserted into the power supply 11 (power supply side) on the wall surface of a house or the like, the power supply plug 4 is inserted into the power supply port of the vehicle 12, and the battery of the vehicle 12 is charged.

In the charging cable 1 with a winding device described above, by operating a cooling fan described later, the amount of heat generated by the cable 2 is suppressed even if charging (energization) is performed while a part (all) of the cable 2 is wound. It becomes possible to do.

The winding device 5 will be specifically described with reference to FIGS. 2 and 3.
FIG. 2 shows a state of a plan cross section for explaining the internal structure of the hoisting device 5 of the charging cable 1 with a hoisting device, and FIG. 3 shows a situation of looking at the line III-III in FIG.

As shown in FIGS. 2 and 3, the winding device 5 has a reel 15 as a reel member around which the cable 2 is wound, and a case 16 for accommodating the reel 15. The reel 15 is configured such that, for example, rotation is urged on one side to maintain the wound state of the cable 2.

By winding the cable 2 around the reel 15, the charging cable 1 with a hoisting device can be made compact, and by carrying the case 16 and storing the case 16, the charging cable 1 with a hoisting device can be made compact. It is easy to handle and the troublesomeness of charging can be reduced.

A ventilation hole 17 is formed on the lower surface of the case 16, and a cooling fan 18 as a cooling means is provided above the case 16. By the operation of the cooling fan 18, cooling air is sent toward the cable 2. A safety device for charging (for example, a CCID that shuts off an earth leakage) 19 is provided on the upper part of the case 16.

By providing the safety device 19 in the case 16, the charging cable 1 with a winding device that integrally accommodates the safety device 19 can be obtained, and space can be saved.

The case 16 is provided with a temperature detecting means 21 for detecting the temperature of the cable 2 (the temperature inside the case 16), and the detection information of the temperature detecting means 21 is input to the control means 22. The control means 22 operates the cooling fan 18 when the input temperature T is higher than the predetermined temperature TB.

The control means 22 has a function of changing the operating capacity (rotational speed) of the cooling fan 18 based on the temperature detected by the temperature detecting means 21. For example, when the temperature is high, the rotation speed of the cooling fan 18 can be increased, and when the temperature is low, the rotation speed of the cooling fan 18 can be decreased, and the operation of the cooling fan 18 can be controlled according to the temperature.

The case 16 is provided with a winding state detecting means 25 that detects the rotating state of the reel 15, that is, detects the winding state of the cable 2. The detection information of the winding state detecting means 25 is input to the control means 22, and the control means 22 operates the cooling fan 18 when it detects that the cable 2 is wound.

For example, when the cable 2 is wound regardless of the temperature of the cable 2 (the temperature inside the case 16), the cooling fan 18 can be operated to suppress the heat generation of the cable 2.

An example of the cooling operation will be specifically described with reference to FIG.
FIG. 4 shows a flowchart for explaining the cooling operation of the charging cable 1 with a winding device.

When charging (energization) starts, it is determined in step S1 whether or not the cable 2 is wound up. If it is determined in step S1 that the cable 2 is wound up, the cooling fan 18 is operated in step S2. When it is determined in step S1 that the cable 2 is not wound up, it is determined in step S3 whether or not the temperature T is higher than the predetermined temperature TB.

If it is determined in step S3 that the temperature T is higher than the predetermined temperature TB, the process proceeds to step S2. If it is determined in step S3 that the temperature T is not higher than the predetermined temperature TB, the process of stopping the operation of the cooling fan 18 is performed in step S4, and the process ends.

It is also possible to control the operation of the cooling fan 18 only by determining the temperature without determining the winding of the cable 2.

After operating the cooling fan 18 in step S2, the temperature condition is determined in step S5. That is, in step S5, it is determined whether the range of the temperature T detected by the temperature detecting means 21 is A, B, or C (A> B> C).

If it is determined in step S5 that the temperature is in the highest temperature range A, the rotation speed of the cooling fan 18 is set to a high state in step S6, and the process ends. If it is determined in step S5 that the temperature is in the middle temperature range B, the rotation speed of the cooling fan 18 is set to the middle state in step S7, and the process ends. If it is determined in step S5 that the temperature is in the low temperature range C, the rotation speed of the cooling fan 18 is set to a low state in step S8, and the process ends.

That is, depending on the temperature condition, the cooling fan 18 can be operated at three levels, and appropriate cooling can be performed according to the temperature.

As described above, in the charging cable 1 with a winding device, since the cooling fan 18 can be operated according to the temperature, charging (energization) is performed in a situation where a part (all) of the cable 2 is wound and easily generates heat. Even if this is done, the inside of the case 16 (cable 2) is cooled, and the amount of heat generated by the cable 2 can be suppressed.

The present invention can be used in the industrial field of occupant protection devices.

1 Charging cable with hoisting device 2 Cable 3 Power plug 4 Power supply plug 5 Hoisting device 11 Power supply 12 Vehicle 15 Reel 16 Case 17 Vent hole 18 Cooling fan 19 Safety equipment 21 Temperature detection means 22 Control means 25 Hoisting state detection means

Claims (5)

A cable that has a power plug connected to the power supply side at one end and a power supply plug connected to the power supply side of the vehicle at the other end.
The winding device for winding the cable and
A charging cable with a hoisting device, which is provided with a cooling means for cooling the cable wound around the hoisting device. In the charging cable with a winding device according to claim 1,
A temperature detecting means for detecting the temperature of the cable and
A charging cable with a hoisting device, which comprises a control means for operating the cooling means when the detection information of the temperature detecting means is input and the input temperature is higher than a predetermined temperature. In the charging cable with a winding device according to claim 2.
The control means
A charging cable with a hoisting device, which has a function of varying the operating capacity of the cooling means based on the temperature detected by the temperature detecting means. In the charging cable with a winding device according to claim 2 or 3.
A winding state detecting means for detecting the winding state of the cable is provided.
The detection information of the hoisting detection means is input to the control means.
The control means
A charging cable with a winding device, characterized in that the cooling means is operated when the winding detecting means detects that the cable is wound. In the charging cable with a winding device according to any one of claims 1 to 4.
The hoisting device
The reel member around which the cable is wound and
A case for accommodating the reel member and
A charging cable with a hoisting device, which is mounted on the case and has a safety device for charging.

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