CN113315248A - Electric simulation gun suit capable of being wirelessly powered - Google Patents

Abstract

The invention discloses an electric simulation gun set capable of supplying power wirelessly, which comprises: the energy storage vest is provided with wireless transmitting element and the energy storage battery that charges, and electronic simulation rifle is provided with the wireless receiving unit that charges, the wireless transmitting element that charges with the wireless receiving unit that charges matches each other realizes the energy storage vest to the electric energy transmission of electronic simulation rifle, wherein, the wireless direct current contravariant that the transmitting element that charges provided the energy storage vest is high frequency alternating current, converts the electric energy into high frequency magnetic field again and transmits extremely the wireless receiving unit that charges, the wireless receiving unit that charges produces high frequency alternating current under high frequency magnetic field's effect, converts direct current output to integrated behind the high frequency rectification and is in consumer on the electronic simulation rifle. The invention adopts a wireless charging mode to supply power, reduces the weight of the electric simulation gun, can carry an energy storage battery with larger volume, and greatly improves the endurance time and stability of the electric simulation gun.

Description

Electric simulation gun suit capable of being wirelessly powered

Technical Field

The invention relates to the technical field of electric simulation guns, in particular to an electric simulation gun set capable of supplying power wirelessly.

Background

Along with the popularization of intelligence-developing shooting games and sports, more and more electric equipment such as laser aiming, night vision, friend or foe identification, navigation positioning and the like are integrated on the electric simulation gun, and the electric simulation gun is widely applied to the fields of sports, expeditions, outdoors and the like.

At present, the energy supply modes of the electric simulation gun mainly comprise two types: firstly, an energy storage lithium ion battery is arranged in a gun stock part of the electric simulation gun for supplying power, the power supply mode is restricted by volume and weight, the battery capacity is small, the endurance time of electric equipment is short, the weight of the electric simulation gun is increased, and the electric simulation gun is not beneficial to keeping stability in the aiming and shooting processes; and secondly, the mains supply is used for supplying power through a power supply conversion plug cord, and the power supply mode has various power supply interfaces and connector types, is difficult to realize standardization, has poor universality and interchangeability and can only be used in fixed places.

Disclosure of Invention

Aiming at the problems, the invention designs the electric simulation gun set capable of supplying power wirelessly by adopting a wireless charging mode, so that continuous and uninterrupted power supply to the electric simulation gun is realized, the constraint of an energy storage battery or a power line arranged in a gun stock is eliminated, and better user experience is obtained.

The invention discloses an electric simulation gun set capable of supplying power wirelessly, which comprises: the energy storage vest is provided with a wireless charging transmitting unit and an energy storage battery; electronic emulation rifle is provided with the wireless receiving unit that charges, wireless charging emission unit with the wireless receiving unit that charges matches each other realizes the energy storage vest to the electric energy transmission of electronic emulation rifle, wherein, the wireless direct current contravariant that the transmitting unit that charges provides the energy storage battery of energy storage vest is the high frequency alternating current, converts the electric energy into high frequency magnetic field again and transmits extremely the wireless receiving unit that charges of electronic emulation rifle, the wireless receiving unit that charges produces high frequency alternating current under high frequency magnetic field's effect, converts direct current output to integrated behind the high frequency rectification and is in consumer on the electronic emulation rifle.

In the wirelessly powered electric simulation gun set of the present invention, preferably, the wireless charging transmitting unit includes a wireless charging transmitting end circuit, a signal generator, a power amplifier, a high frequency transmitting coil, and a circuit switch.

In the wirelessly powered electric simulation gun set according to the present invention, preferably, the wireless charging receiving unit includes a wireless charging receiving terminal circuit, a rectifying circuit, and a high-frequency receiving coil.

In the wirelessly powered electric simulation gun set, preferably, the high-frequency transmitting coil is strip-shaped, is arranged in front of the energy storage vest and is adjustable in position.

In the wirelessly powered electric simulation gun set according to the present invention, preferably, the wireless charging receiving terminal circuit and the rectifying circuit are disposed in a housing of the electric simulation gun, and the high-frequency receiving coil is in an arc shape and disposed at a stock position of the electric simulation gun.

In the wirelessly powered electric simulation gun set of the present invention, preferably, the energy storage battery is disposed at a waist position of the energy storage vest.

In the wirelessly powered electric simulation gun set, preferably, the energy storage battery is a flexible soft package battery.

In the wirelessly powered electric simulation gun set, preferably, the energy storage vest is further provided with a first wireless communication module, the electric simulation gun is further provided with a second wireless communication module, and the first wireless communication module and the second wireless communication module are matched with each other to realize communication between the energy storage vest and the electric simulation gun.

In the wirelessly powered electric simulation gun set of the present invention, preferably, the electric simulation gun further includes a power management module, which is connected to the wireless charging receiving unit, and converts the power consumption requirements of different devices into corresponding voltages and powers to respectively supply power to a plurality of power consumption devices integrated on the electric simulation gun.

Compared with the electric simulation gun with the built-in energy storage battery in the prior art, the electric simulation gun set provided by the invention can carry the energy storage battery with larger volume, so that the endurance time of the electric simulation gun is longer. Because electronic emulation rifle no longer need set up the energy storage battery in addition, the weight of the electronic emulation rifle that can significantly reduce to can improve the stability and the user experience of electronic emulation rifle.

Drawings

Various objects, features and advantages of the present invention will become more apparent from the following detailed description of preferred embodiments of the invention, when considered in conjunction with the accompanying drawings. The drawings are merely exemplary of the invention and are not necessarily drawn to scale. In the drawings, like reference characters designate the same or similar parts throughout the different views. Wherein:

fig. 1 is a schematic structural diagram of an electric simulation gun set capable of being wirelessly powered.

Fig. 2 is a schematic front view of an energy storage vest.

Fig. 3 is a schematic diagram of a wireless charging principle of a wirelessly powered electric simulation gun set.

Description of reference numerals:

1-energy storage waistcoat; 11-a high-frequency transmitting coil;

12-a first wireless communication module; 13-a wireless charging transmitting terminal circuit;

14-a signal generator and a power amplifier; 15-circuit switch;

16-energy storage battery; 2-electric simulation gun;

21-high frequency receiving coil; 22-a second wireless communication module;

23, a wireless charging receiving end circuit and a rectifying circuit; and 24, electric equipment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly and completely understood, the technical solutions in the embodiments of the present invention will be described below with reference to the accompanying drawings in the embodiments of the present invention, and it should be understood that the specific embodiments described herein are only for explaining the present invention and are not intended to limit the present invention. The described embodiments are only some embodiments of the invention, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "vertical", "horizontal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, numerous specific details of the invention, such as structure, materials, dimensions, processing techniques and techniques of the devices are described below in order to provide a more thorough understanding of the invention. However, as will be understood by those skilled in the art, the present invention may be practiced without these specific details. Unless otherwise specified below, each part in the device may be formed of a material known to those skilled in the art, or a material having a similar function developed in the future may be used.

Fig. 1 is a schematic structural diagram of an electric simulation gun set capable of being wirelessly powered. Fig. 2 is a schematic front view of an energy storage vest. As shown in fig. 1, the wirelessly powered electric simulation holster of the present invention includes an energy storage vest 1 and an electric simulation gun 2. The energy storage vest 1 is provided with a wireless charging transmitting unit and an energy storage battery 16, and the electric simulation gun 2 is provided with a wireless charging receiving unit. The wireless transmitting unit that charges matches each other with the wireless receiving unit that charges, realizes the electric energy transmission of energy storage vest 1 to electronic emulation rifle 2, and wherein, the wireless transmitting unit that charges inverts the direct current that the energy storage battery 16 of energy storage vest 1 provided into high frequency alternating current, converts the electric energy into high frequency magnetic field transmission to the wireless receiving unit that charges again, and the wireless receiving unit that charges produces high frequency alternating current under high frequency magnetic field's effect, converts the direct current output to the consumer on integrated on electronic emulation rifle 2 after the high frequency rectification.

In a specific example, as shown in fig. 1, the wireless charging reception unit includes a high-frequency reception coil 21, a wireless charging reception-side circuit, and a rectifier circuit 23. The wireless charging receiving end circuit and the rectifying circuit 23 are arranged in the shell of the electric simulation gun 2, and the high-frequency receiving coil 21 is in a micro-arc strip shape, is matched with the shape of the gun stock of the electric simulation gun 2, and is arranged at the gun stock position of the electric simulation gun 2.

As shown in fig. 2, the wireless charging transmission unit includes a high-frequency transmission coil 11, a wireless charging transmission-end circuit 13, a signal generator and power amplifier 14, and a circuit switch 15. The high-frequency transmitting coil 11 is in a strip shape, is arranged at the position, close to the shoulder blade, in front of the energy storage vest 1 and corresponds to the position of the high-frequency receiving coil 21 of the electric simulation gun 2, so that the receiving efficiency of magnetic field energy is improved. It is usually installed on the right chest according to the operation habit. May be mounted by, for example, a buckle, snap, hook and loop fastener, etc. It is further preferred that the position of the high frequency transmission coil 11 is adjustable, for example, a movable buckle can be arranged in a certain range of areas on the left and right chest to adapt to the use habits of different operators.

In another preferred embodiment, the shoulder position of the energy storage vest 1 is also provided with a first wireless communication module 12. Correspondingly, a second wireless communication module 22 is arranged at the stock position of the electric simulation gun 2. Considering the habit of human body movement, the first wireless communication module 12 is preferably arranged at the right shoulder position of the energy storage vest 1. The first wireless communication module 12 and the second wireless communication module 22 are matched with each other, so that communication between the energy storage vest 1 and the electric simulation gun 2 is realized. The first wireless communication module 12 and the second wireless communication module 22 may employ, for example, bluetooth, Wi-Fi, ZigBee, or the like.

Because energy storage battery 16 has set up on energy storage vest 1, the weight of energy storage vest 1 can distribute in the trunk portion of wearer, and especially the very big part of weight of energy storage battery acts on shoulder and back to make weight distribute, reduced local atress, thereby can obtain better wearing experience. In a specific example, as shown in fig. 2, the energy storage battery 16 is built in the waist of the energy storage vest 1. In consideration of the comfort of human body wearing, the energy storage battery 16 can be a flexible soft package battery, and is packaged by an arc-shaped shell conforming to human engineering and naturally attached to the arc shape of the waist of the human body.

A schematic diagram of a wirelessly powerable electric simulation gun set is shown in fig. 3. As shown in fig. 3, when the electric equipment 24 integrated with the electric simulation gun 2 needs to be charged, the wireless charging transmitting terminal circuit switch 15 on the energy storage vest 1 is turned on, then the first wireless communication module 12 of the energy storage vest 1 sends a signal to the second wireless communication module 22 arranged at the gun stock position of the electric simulation gun 2, after successful verification and matching, under the excitation of the signal generator, the direct current of the energy storage battery 16 of the energy storage vest 1 is inverted into high-frequency alternating current through the amplifying circuit, and then the electric energy is converted into high-frequency magnetic field energy through the high-frequency transmitting coil 11 for external transmission. The high-frequency receiving coil 21 of the electric simulation gun 2 generates alternating current under the action of a high-frequency magnetic field, and the alternating current is converted into direct current output through high-frequency rectification and supplies power to the electric equipment 24 integrated with the electric simulation gun 2. When the electric simulation gun 2 does not need to supply power, the circuit switch 15 of the energy storage vest 1 is closed.

Further preferably, as shown in fig. 3, a power management module is further disposed on the electric simulation gun. As shown in fig. 3, the power management module is connected to the wireless charging receiving unit, and converts the power consumption requirements of different devices into corresponding voltage and power to supply power to a plurality of electric devices integrated with the electric simulation gun, such as a laser sight and an infrared laser. Can realize that a plurality of consumer of electronic emulation rifle are along with filling along with using according to the energy demand of consumer through power management module, improve the energy comprehensive utilization efficiency of consumer.

According to the electric simulation gun set capable of supplying power wirelessly, the battery with large volume and heavy weight is arranged in the vest, and the battery does not need to be arranged in the electric simulation gun. Compared with the electric simulation gun with the built-in energy storage battery in the prior art, the electric simulation gun with the built-in energy storage battery can carry the energy storage battery with larger volume, so that the cruising ability of the electric simulation gun can be greatly increased, the weight of the electric simulation gun can be greatly reduced, and the stability and the user experience of the electric simulation gun are improved. In addition, the form of wireless charging is adopted, energy is transmitted from the vest to the electric simulation gun, the constraint of a cable is broken away, the risk of being hung up by a barrier in the outdoor movement process is reduced, and the safety and the power supply reliability are improved.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention.

Claims (9)

1. An electric simulation gun set capable of supplying power wirelessly is characterized in that,

the method comprises the following steps:

the energy storage vest is provided with a wireless charging transmitting unit and an energy storage battery;

an electric simulation gun is provided with a wireless charging receiving unit,

the wireless charging transmitting unit is matched with the wireless charging receiving unit to realize the electric energy transmission from the energy storage vest to the electric simulation gun,

the wireless charging transmitting unit inverts direct current provided by an energy storage battery of the energy storage waistcoat into high-frequency alternating current, converts electric energy into a high-frequency magnetic field and transmits the high-frequency magnetic field to the wireless charging receiving unit of the electric simulation gun, the wireless charging receiving unit generates high-frequency alternating current under the action of the high-frequency magnetic field, and the high-frequency alternating current is converted into direct current after being rectified, and the direct current is output to integrated electric equipment on the electric simulation gun.

2. The wirelessly powerable electric simulation gun set according to claim 1,

the wireless charging transmitting unit comprises a wireless charging transmitting end circuit, a signal generator, a power amplifier, a high-frequency transmitting coil and a circuit switch.

3. The wirelessly powerable electric simulation gun set according to claim 1,

the wireless receiving unit that charges includes wireless receiving circuit, rectifier circuit and high frequency receiving coil that charges.

4. The wirelessly powerable electric simulation gun set according to claim 2,

the high-frequency transmitting coil is in a strip shape, is arranged in front of the energy storage waistcoat and is adjustable in position.

5. The wirelessly powerable electric simulation gun set according to claim 3,

the wireless charging receiving end circuit and the rectifying circuit are arranged in the shell of the electric simulation gun, and the high-frequency receiving coil is arc-shaped and is arranged at the gun stock position of the electric simulation gun.

6. The wirelessly powerable electric simulation gun set according to claim 1,

the energy storage battery is arranged in the waist position of the energy storage waistcoat.

7. The wirelessly powerable electric simulation gun set according to claim 6,

the energy storage battery is a flexible soft package battery.

8. The wirelessly powerable electric simulation gun set according to claim 1,

the energy storage vest still is provided with first wireless communication module, electronic emulation rifle still is provided with second wireless communication module, first wireless communication module with second wireless communication module matches each other, realizes the energy storage vest with communication between the electronic emulation rifle.

9. The wirelessly powerable electric simulation gun set according to claim 1,

the electric simulation gun further comprises a power supply management module, the power supply management module is connected with the wireless charging receiving unit, corresponding voltage and power are converted according to power requirements of different devices, and power is supplied to a plurality of power utilization devices integrated on the electric simulation gun.

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