CN212685860U

CN212685860U - Power surfboard

Info

Publication number: CN212685860U
Application number: CN202021586712.3U
Authority: CN
Inventors: 不公告发明人
Original assignee: Suzhou Zhendi Intelligent Technology Co Ltd
Current assignee: Suzhou Zhendi Intelligent Technology Co Ltd
Priority date: 2020-08-03
Filing date: 2020-08-03
Publication date: 2021-03-12
Anticipated expiration: 2030-08-03

Abstract

The application relates to surfing equipment technical field, concretely relates to power surfboard, it includes: a plate body formed with a battery compartment for accommodating a battery; the propulsion device is arranged on the plate body and is powered by the battery, and is used for providing propulsion power; the first air pump is arranged on the plate body and powered by the battery and used for providing heat dissipation air into the battery bin. The application provides a power surfboard, battery are to advancing device power supply in order to impel the plate body, and the battery is to the power supply of first air pump simultaneously, and first air pump makes and forms mobile air in the battery compartment, and the heat in the battery compartment is constantly taken away to mobile air realizes dispelling the heat fast.

Description

Power surfboard

Technical Field

The application relates to the technical field of surfing equipment, in particular to a power surfboard.

Background

The power surfboard is generally powered by a motor, a battery is arranged in the board body to supply power to the motor, the power surfboard needs a battery with higher power, the heat productivity is higher, and the battery needs heat dissipation.

SUMMERY OF THE UTILITY MODEL

The application aims to provide a power surfboard to solve the problem of heat dissipation of a battery of the power surfboard in the prior art.

The embodiment of the application is realized as follows:

the embodiment of the application provides a power surfboard, it includes:

a plate body formed with a battery compartment for accommodating a battery;

the propulsion device is arranged on the plate body and is powered by the battery, and is used for providing propulsion power;

the first air pump is arranged on the plate body and powered by the battery and used for providing heat dissipation air into the battery bin.

The application provides a power surfboard, battery are to advancing device power supply in order to impel the plate body, and the battery is to the power supply of first air pump simultaneously, and first air pump makes and forms mobile air in the battery compartment, and the heat in the battery compartment is constantly taken away to mobile air realizes dispelling the heat fast.

In one embodiment of the present application, optionally, the powered surfboard further comprises:

the air inlet assembly is connected with the first air pump, and the first air pump provides heat dissipation air into the battery compartment through the air inlet assembly;

and the air in the battery bin is discharged through the air outlet assembly.

In the technical scheme, under the action of the air inlet assembly and the air outlet assembly and under the driving of the first air pump, the battery compartment is communicated with the space outside the plate body to form flowing heat dissipation air, so that heat in the battery compartment is taken away quickly, and quick heat dissipation is realized.

In an embodiment of the application, optionally, the air inlet assembly includes a first air pipe connecting piece, a first air inlet pipe and a second air inlet pipe, the first air inlet pipe is arranged outside the battery compartment, two ends of the first air inlet pipe are respectively connected with the first air pump and the first air pipe connecting piece, the second air inlet pipe is arranged in the battery compartment, one end of the second air inlet pipe is connected with the first air pipe connecting piece, and the first air inlet pipe and the second air inlet pipe are communicated through the first air pipe connecting piece.

In the technical scheme, the first air inlet pipe is connected with the first air pump, the first air inlet pipe and the second air inlet pipe are connected and communicated through the first air pipe connecting piece, the battery compartment is conveniently led in air of the first air pump, a ventilation pipeline is not required to be penetrated during installation, and the first air inlet pipe and the second air inlet pipe are only required to be installed in an inserting mode. During maintenance, after the first air inlet pipe and the second air inlet pipe are pulled down, the first air pump, the first air pipe connecting piece and other parts are separated, and parts are convenient to replace.

In an embodiment of this application, optionally, it includes second trachea connecting piece, first outlet duct and second outlet duct to give vent to anger the subassembly, first outlet duct sets up in the battery compartment, the one end of first outlet duct is connected second trachea connecting piece, the second outlet duct sets up outside the battery compartment, the one end of second outlet duct is connected second trachea connecting piece, first outlet duct with the second outlet duct passes through second trachea connecting piece intercommunication.

In above-mentioned technical scheme, first outlet duct and second outlet duct pass through second trachea connecting piece switching and intercommunication, and the convenience is drawn the air in the battery compartment to the plate body outside, need not to wear to establish vent line during the installation, only need peg graft the installation first outlet duct and second outlet duct can, simple to operate, and conveniently change spare part.

In an embodiment of the present application, optionally, the outlet end of the second air inlet pipe and the inlet end of the first air outlet pipe are respectively located at two opposite sides of the battery.

In the technical scheme, the air enters the battery compartment from one side of the battery, the battery compartment is discharged from the other side of the battery, the stable heat dissipation gas flowing into the battery compartment is formed in the battery compartment, the gas in the battery compartment is updated quickly, and the heat dissipation efficiency is high.

In an embodiment of the present application, optionally, a waterproof vent valve is disposed on the plate body, and the other end of the second air outlet pipe is connected to the waterproof vent valve.

In order to avoid water from entering the battery compartment, the second air outlet pipe is provided with a waterproof vent valve to allow air to enter and exit, and the water entering of the battery compartment in the plate body is prevented by the second air outlet pipe, so that the waterproof performance of the power surfboard is improved.

the battery connector is provided with a positive terminal and a negative terminal, the positive terminal is respectively electrically connected with the propelling device and the air pump, the negative terminal is respectively electrically connected with the propelling device and the air pump, and the first air pipe connecting piece and the second air pipe connecting piece are arranged on the battery connector.

In the technical scheme, the battery connector integrates the positive terminal, the negative terminal, the first air pipe connecting piece and the second air pipe connecting piece, power supply and ventilation can be facilitated by arranging the battery connector, and the battery connector is simple and compact in structure, convenient to install and disassemble.

the charger is internally integrated with a second air pump, and when the charger is connected with the battery connector, the second air pump is connected with the first air pipe connecting piece.

In the technical scheme, the positive electrode and the negative electrode of the charger are respectively connected with the positive electrode terminal and the negative electrode terminal on the battery connector, and the second air pump in the charger charges flowing air into the battery compartment while the battery is charged, so that the battery can be charged at one time to dissipate heat. After the power surfboard is used, the battery does not need to be kept stand for cooling, and can be charged immediately, so that the effects of charging immediately after stopping and charging immediately after full use are realized, the service time of the power surfboard is prolonged, and the pause of stopping use is reduced.

In an embodiment of the present application, optionally, an inflation tube and an exhaust tube are further disposed on the charger, the inflation tube is communicated with the second air pump, when the charger is connected with the battery connector, the second air pump is connected with the first air tube connecting piece through the inflation tube, and the exhaust tube is connected with the second air tube connecting piece.

In the technical scheme, the charger and the second air pump are connected with the battery bin in a quick-dismantling manner through the inflation tube, the exhaust tube and the battery connector, so that the structure is compact and the use is convenient.

In one embodiment of the present application, the powered surfboard further optionally includes a battery disposed within the battery compartment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a schematic external structural view of a powered surfboard according to an embodiment of the present disclosure;

fig. 2 is a partial cross-sectional view of a body of a powered surfboard according to an embodiment of the present disclosure;

FIG. 3 is an enlarged view of portion A of FIG. 2;

fig. 4 is a schematic structural diagram of a battery connector provided in an embodiment of the present application;

fig. 5 is a state of charge diagram of the powered surfboard according to the embodiment of the present application;

fig. 6 is a schematic structural diagram of a charger according to an embodiment of the present application.

Icon: 100-a plate body; 110-a sealing cover; 120-waterproof vent valve; 200-a battery compartment; 210-a battery; 300-a battery connector; 310-a first gas tube connection; 311-a first intake pipe; 312-a second intake pipe; 320-a second tracheal connector; 321-a first air outlet pipe; 322-a second outlet duct; 330-positive terminal; 340-negative terminal; 400-a first air pump; 500-a charger; 510-positive line; 520-negative pole line; 530-a second air pump; 540-inflation tube; 550-an exhaust pipe; 600-charging connector.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

In the description of the present application, it should also be noted that, unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" should be interpreted broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Examples

The conventional power surfboard generally has two heat dissipation modes, one is water cooling heat dissipation, and the other is air cooling passive heat dissipation.

The water-cooling heat dissipation mode is as follows: leading-in rivers to the inside of power surfboard, set up the water-cooling board of submergence in rivers in power surfboard, pack heat conduction silica gel between water-cooling board and battery to the heat of battery passes through heat conduction silica gel and transmits to the water-cooling board, and the heat is taken away in circulation rivers. The weight of the water cooling plate can increase the weight of the plate body, and the weight of the plate body is increased by water flow entering the plate body, so that the power performance of the power surfboard is seriously reduced.

The air-cooled passive heat dissipation mode is as follows: the metal radiating fins are arranged on the surface of the battery and take away heat by the flowing of external air, and the influence of the radiating mode on the weight of the plate body is small, but the radiating effect is poor.

The power surfboard that this application embodiment provided adopts the radiating mode of forced air cooling initiative, neither can increase the whole weight of power surfboard, can dispel the heat fast again, has better radiating effect.

The structure of the powered surfboard is shown in fig. 1 and 2, and includes a board body 100, a propulsion device, and a first air pump 400.

A battery compartment 200 is formed in the board body 100, the battery 210 of the power surfboard is installed in the battery compartment 200, and a closed space is formed in the battery compartment 200 to prevent water from entering and protect the battery 210.

The propulsion device is disposed at the rear of the board body 100, and the propulsion device is connected to the battery 210 to obtain operating power, so that the propulsion device can provide power to propel the powered surfboard.

The propulsion device in this embodiment may be a commercially available motor, jet pump, or other power propulsion mechanism, and although the propulsion device is not shown in the drawings, those skilled in the art will understand the structure and the installation manner of the propulsion device in the powered surfboard.

The first air pump 400 is disposed in the plate body 100 and connected to the battery 210 to obtain operation power, and the first air pump 400 operates to supply flowing air for heat dissipation into the battery compartment 200.

An air inlet assembly and an air outlet assembly are disposed in the battery compartment 200.

The first air pump 400 is communicated with the battery chamber 200 through an air inlet assembly. The battery compartment 200 communicates with the outside air through the air outlet member.

The air intake assembly includes a first air pipe connection 310, a first air intake pipe 311, and a second air intake pipe 312.

The first air inlet pipe 311 is disposed outside the battery compartment 200, and the second air inlet pipe 312 is disposed inside the battery compartment 200. The inlet end of the first air inlet pipe 311 is connected with the first air pump 400, the outlet end of the first air inlet pipe 311 is communicated with the inlet section of the second air inlet pipe 312 through the first air pipe connector 310, and the outlet end of the second air inlet pipe 312 is positioned in the battery compartment 200.

When the first air pump 400 works, the air inlet thereof draws outside air, and the air outlet thereof guides the outside air into the battery compartment 200 through the first air inlet pipe 311, the first air pipe connector 310 and the second air inlet pipe 312.

The air outlet assembly includes a second air pipe connector 320, a first air outlet pipe 321, and a second air outlet pipe 322.

First outlet duct 321 sets up in battery compartment 200, and second outlet duct 322 sets up outside battery compartment 200, and the entrance point of first outlet duct 321 is located battery compartment 200, and the exit end of first outlet duct 321 and the entrance point of second outlet duct 322 pass through second trachea connecting piece 320 and communicate, and the exit end of second outlet duct 322 communicates outside air.

Under the driving of the first air pump 400, the air in the battery compartment 200 is discharged to the outside air through the first air outlet pipe 321, the second air pipe connector 320, and the second air outlet pipe 322.

Under the cooperation of the first air pump 400, the air inlet assembly, the air outlet assembly and the battery 210, when the power surfboard works, the battery compartment 200 generates heat while flowing air actively dissipates heat.

In order to better form a stable flow of air in the battery compartment 200, in one embodiment, as shown in fig. 2, the outlet end of the second air inlet pipe 312 is disposed at one side of the battery 210, and the inlet end of the first air outlet pipe 321 is disposed at the other side of the battery 210. Air enters the battery compartment 200 from one side of the battery 210 and is discharged out of the battery compartment 200 from the other side of the battery 210, heat dissipation gas with stable flow direction is formed in the battery compartment 200, the gas in the battery compartment 200 is updated quickly, and the heat dissipation efficiency is high.

To further facilitate electrical connection and air path communication, the battery compartment 200 is provided with a battery connector 300, and a positive terminal 330, a negative terminal 340, a first air pipe connector 310 and a second air pipe connector 320 are integrated on the battery connector 300.

One end of the battery connector 300 is located inside the battery compartment 200 and the other end is exposed to the outside of the battery compartment 200.

For the sake of easy observation, both ends of the battery connector 300 are shown as being spread apart in fig. 2 and 3, but this does not mean that both ends of the battery connector 300 are necessarily laid flat in the plate body 100.

In an embodiment, the battery connector 300 may also be configured as shown in fig. 4, and the battery connector 300 is embedded on the sidewall of the battery compartment 200.

The environment in which the powered surfboard is used is in water, and the battery compartment 200 in the powered surfboard needs to be waterproof to prevent the battery 210 from being immersed in water for a long time, which may cause the electrical components to age or be damaged too quickly although the electrical components themselves have certain waterproof properties in the prior art.

In order to ensure the smooth air path and prevent the water from entering the battery compartment 200, the waterproof vent valve 120 is arranged on the plate body 100, and in order to better play the role of waterproof and ventilation, the waterproof vent valve 120 is arranged on the upper surface of the plate body 100, and the air inlet of the first air pump 400 and the outlet end of the second air outlet pipe 322 are both connected with the waterproof vent valve 120, so that the waterproof performance of the power surfboard is improved and the water from entering the battery compartment 200 is prevented by communicating the external air through the waterproof vent valve 120.

The plate body 100 is provided with an opening for exposing the battery compartment 200, the opening is provided with a sealing cover 110, and when the power surfboard is used, the sealing cover 110 covers the opening.

After the power of the battery 210 is exhausted, the sealing cover 110 is opened to expose the battery compartment 200, the door of the battery compartment 200 is opened, and the battery 210 is taken out for charging. Alternatively, the sealing cover 110 is opened to expose the battery compartment 200, and the positive terminal 330 and the negative terminal 340 of the battery connector 300 are connected to a power source for charging.

When the power surfboard is just stopped, the battery 210 is in a hot state and cannot be charged immediately, and the power surfboard needs to be kept still for cooling for a period of time and can be charged after the temperature of the battery 210 is reduced. Sometimes, in order to cool down quickly, the door of the battery compartment 200 needs to be opened to dissipate heat.

The present embodiment further provides a charger 500, which can cool the battery 210 while charging, prevent the battery 210 from being overheated to cause a safety risk, and avoid the need to wait for the battery 210 to be cooled before recharging.

The second air pump 530 is integrated in the charger 500, the charger 500 is provided with a positive wire 510, a negative wire 520, an air charging tube 540 and an exhaust tube 550, the air inlet end of the air charging tube 540 is connected with the second air pump 530, and the air outlet end of the exhaust tube 550 is fixed on the charger 500.

By using the charger 500, the battery 210 does not need to be taken out of the battery compartment 200 for charging, and the battery compartment 200 can be completely sealed, thereby further improving the waterproof performance.

When the charger 500 is used for charging the power surfboard, the power supply lines of the first air pump 400 and the propulsion device, the outlet end of the first air inlet pipe 311 and the inlet end of the second air outlet pipe 322 are separated from the battery connector 300.

Then, as shown in fig. 3 and 5, the positive line 510 of the charger 500 is connected to the positive terminal 330 of the battery connector 300, the negative line 520 of the charger 500 is connected to the negative terminal 340 of the battery connector 300, the gas outlet end of the gas filling pipe 540 is connected to the first gas pipe connector 310, and the gas inlet end of the gas discharging pipe 550 is connected to the second gas pipe connector 320.

Finally, the charger 500 is connected to a power source, and the charger 500, power connectors, and battery 210 are energized. The second air pump 530 is electrically operated to form heat-dissipating air flowing along the 'air-filled tube 540, the first air tube connector 310, the second air tube 312, the battery compartment 200, the first air outlet tube 321, the second air tube connector 320, and the air outlet tube 550'.

In order to facilitate the connection of the charger 500 with the power surfboard, the charger 500 further includes a charging connector 600, as shown in fig. 6, the port of the positive wire 510, the port of the negative wire 520, the air outlet end of the air charging tube 540 and the air inlet end of the air discharging tube 550 are all integrated on the charging connector 600, and the arrangement positions of the ports correspond to the positions of the ports on the battery connector 300.

When charging, open sealed lid 110, will charge joint 600 and battery connector 300 and be located the butt joint of the one end of battery compartment 200 outer wall can.

In the powered surfboard provided by the embodiment, the battery 210 can be cooled quickly, the influence on the overall weight of the powered surfboard is small, and both cooling and use performance can be considered.

When the power surfboard provided by the embodiment is charged by the charger 500, the battery 210 does not need to be kept still for cooling, and can be charged immediately, so that the effects of charging when the power surfboard is not used and using the battery 210 when the power surfboard is fully charged are achieved, the service time of the power surfboard is prolonged, and the intermittence of the power surfboard when the power surfboard is not used is reduced.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims

1. A powered surfboard, comprising:

a plate body formed with a battery compartment for accommodating a battery;

2. The powered surfboard of claim 1, further comprising:

and the air in the battery bin is discharged through the air outlet assembly.

3. The powered surfboard of claim 2, wherein the air intake assembly comprises a first air pipe connector, a first air intake pipe and a second air intake pipe, the first air intake pipe is disposed outside the battery compartment, two ends of the first air intake pipe are respectively connected to the first air pump and the first air pipe connector, the second air intake pipe is disposed inside the battery compartment, one end of the second air intake pipe is connected to the first air pipe connector, and the first air intake pipe and the second air intake pipe are communicated through the first air pipe connector.

4. The powered surfboard of claim 3, wherein the air outlet assembly comprises a second air outlet pipe connector, a first air outlet pipe and a second air outlet pipe, the first air outlet pipe is arranged in the battery compartment, one end of the first air outlet pipe is connected with the second air outlet pipe connector, the second air outlet pipe is arranged outside the battery compartment, one end of the second air outlet pipe is connected with the second air outlet pipe connector, and the first air outlet pipe and the second air outlet pipe are communicated through the second air outlet pipe connector.

5. The powered surfboard of claim 4, wherein the outlet end of the second inlet duct and the inlet end of the first outlet duct are located on opposite sides of the battery.

6. The dynamic surfboard of claim 4, wherein the board body is provided with a waterproof vent valve, and the other end of the second air outlet pipe is connected with the waterproof vent valve.

7. The powered surfboard of claim 4, further comprising:

8. The powered surfboard of claim 7, further comprising:

9. The powered surfboard of claim 8, wherein the charger further comprises an air inflation tube and an air exhaust tube, the air inflation tube is in communication with the second air pump, when the charger is connected to the battery connector, the second air pump is connected to the first air tube connector via the air inflation tube, and the air exhaust tube is connected to the second air tube connector.

10. The powered surfboard of claim 1, further comprising a battery disposed within the battery compartment.