CN213019740U - Portable solar charging high-energy ignition device - Google Patents

Abstract

The portable solar energy charges the high-energy ignition device. The solar charging device comprises a case (1), a handle (2), a solar cell panel (3), an internal circuit board (4), an igniter output end (5), a charging socket (6), a charging switch (7), a power switch (8), a power indicator (9) and a charging indicator (10). Besides the function of keeping the original power supply for charging, the ignition device is additionally provided with a solar charging module, so that the portable high-energy ignition device can be directly charged through sunlight on site. The working continuity is ensured, and the normal operation of the field ignition operation is ensured.

Description

Portable solar charging high-energy ignition device

Technical Field

The utility model belongs to the technical field of the high energy ignition device and specifically relates to a portable solar charging high energy ignition device is related to.

Background

At present, portable high-energy ignition devices are all provided with a power supply which is a rechargeable battery, and the portable high-energy ignition devices can be continuously used only by connecting a charger and a 220V power supply for charging after the electric quantity of the battery is used up. Since the environment in which the portable high-energy ignition device is used is outdoors, it is generally far from a workshop. After the rechargeable battery is not charged, the portable ignition device cannot be used, an operator needs to return to a workshop for charging, the work progress is slowed down, and ignition operation of a gas boiler or a gas torch cannot be continued on site.

Disclosure of Invention

The utility model discloses to prior art's not enough, provide portable solar charging high energy ignition. Besides the function of keeping the original power supply for charging, the ignition device is additionally provided with a solar charging module, so that the high-energy ignition device can be charged outdoors in time through sunlight.

The utility model discloses portable solar charging high energy ignition. The solar charging device comprises a case (1), a handle (2), a solar cell panel (3), an internal circuit board (4), an igniter output end (5), a charging socket (6), a charging switch (7), a power switch (8), a power indicator (9) and a charging indicator (10). The case is provided with a handle (2), so that the case is convenient for operators to carry.

The working voltage of the solar cell panel (3) is 18V DC, the solar cell panel is arranged on the case panel, and the output line of the solar cell panel is connected to the solar charging control circuit (11) through a hole reserved in the case panel.

The internal circuit board (4) comprises a solar charging control circuit (11), a 220VAC charging circuit (14), a charging change-over switch (7), a rechargeable battery (12) and a high-energy ignition circuit (13), and is installed inside the case (1). The rechargeable battery (12) is a power supply of the high-energy ignition circuit (13).

The charging switch (7), the power switch (8), the power indicator lamp (9) and the charging indicator lamp (10) are arranged on a panel of the case (1).

The igniter output end (5) and the charging socket (6) are electrical connectors with 3 cores or more and are arranged on the side surface of the case (1).

The charging switch (7) is used for switching the solar charging control circuit (11) and the 220VAC charging circuit (14) to charge the rechargeable battery.

The charging indicator lamp (10) is used for indicating the charging state of the high-energy ignition device.

The utility model has the advantages that: when the portable igniter runs into the situation that the battery is not electrified in the field use, field users can charge the portable igniter without turning back to a workshop, and the self-carried solar panel of the body can charge the portable igniter in time to meet the field emergency use, so that the ignition operation work on the field can be normally carried out.

Drawings

Fig. 1 is a structural diagram of the portable solar charging high-energy ignition device of the utility model.

Fig. 2 is a circuit block diagram of the portable solar charging high-energy ignition device of the present invention.

Reference numerals in the drawings: 1. the solar energy charging device comprises a case, 2, a handle, 3, a solar panel, 4, an internal circuit board, 5, an igniter output end, 6, a charging socket, 7, a charging change-over switch, 8, a power switch, 9, a power indicator lamp, 10, a charging indicator lamp, 11, a solar charging control circuit, 12, a charging battery, 13, a high-energy ignition circuit and 14 and 220VAC charging circuits.

Detailed Description

The present invention will be further explained with reference to fig. 1 and 2.

The portable solar energy charges the high-energy ignition device. The solar charging device comprises a case (1), a handle (2), a solar cell panel (3), an internal circuit board (4), an igniter output end (5), a charging socket (6), a charging switch (7), a power switch (8), a power indicator (9) and a charging indicator (10). The case is provided with a handle (2), so that the case is convenient for operators to carry.

The working voltage of the solar cell panel (3) is 18V DC, the solar cell panel is arranged on the case panel, and the output line of the solar cell panel (3) is connected to the solar charging control circuit (11) through a hole reserved in the case panel.

The internal circuit board (4) comprises a solar charging control circuit (11), a 220VAC charging circuit (14), a charging change-over switch (7), a rechargeable battery (12) and a high-energy ignition circuit (13), and is installed inside the case (1). The rechargeable battery (12) is a power supply of the high-energy ignition circuit (13).

The charging switch (7), the power switch (8), the power indicator lamp (9) and the charging indicator lamp (10) are arranged on a panel of the case (1).

The igniter output end (5) and the charging socket (6) are electrical connectors with 3 cores or more and are arranged on the side surface of the case (1).

The charging switch (7) is used for switching the solar charging control circuit (11) and the 220VAC charging circuit (14) to charge the rechargeable battery.

The charging indicator lamp (10) is used for indicating the charging state of the high-energy ignition device.

Claims (2)

1. The portable solar charging high-energy ignition device is characterized by comprising a case (1), a handle (2), a solar panel (3), an internal circuit board (4), an igniter output end (5), a charging socket (6), a charging change-over switch (7), a power switch (8), a power indicator (9) and a charging indicator (10), wherein the internal circuit board (4) comprises a solar charging control circuit (11), a 220VAC charging circuit (14), a charging change-over switch (7), a rechargeable battery (12) and a high-energy ignition circuit (13) and is arranged in the case (1), the rechargeable battery (12) is a power supply of the high-energy ignition circuit (13), the working voltage of the solar panel (3) is 18V DC and is arranged on a case panel, and the output line of the solar panel (3) passes through a hole reserved on the case panel, the solar energy charging device is characterized in that a solar energy charging control circuit (11) is connected, a charging switch (7) is used for switching the solar energy charging control circuit (11) and a 220VAC charging circuit (14), a charging indicator lamp (10) is used for indicating the charging state of a high-energy ignition device, the charging switch (7), a power switch (8), a power indicator lamp (9) and the charging indicator lamp (10) are arranged on a panel of a case (1), and an igniter output end (5) and a charging socket (6) are arranged on the side face of the case (1).

2. The portable solar-charged high-energy ignition device as claimed in claim 1, wherein: the igniter output end (5) and the charging socket (6) are electric connectors with 3 cores and more.

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