The present invention relates to an electric surfboard, and more particularly, to an electric surfboard, in which a control unit determines whether or not a user is on board while the surfboard is working, and if not, the control unit stops operation of the surfboard, and in which a structure for naturally cooling the control unit and a motor unit, which generate a lot of heat, among components of the surfboard is improved.
Electric motorized surfboards have a problem in that in the case where a user loses balance and falls into water while standing on the surfboard, a motor does not stop working, and the working continues. One of methods for solving the above problem is disclosed by Korean Patent No. 10-1758290, in which the speed of a motor is controlled by a handle. There are some instances where an electric surfboard is not provided with a handle for controlling the surfboard, if necessary. Accordingly, there is needed an improved electric surfboard capable of detecting the case where a user steps out of the surfboard, and stopping operation of a motor, by taking all the circumstances into consideration.
Also, in the case of the electric motorized surfboards, a control unit and a motor unit for operating the surfboard generate a lot of heat. A method for cooling the heat generated from the control unit and the motor unit is disclosed by Korean Patent No. 10-1758290, in which the motor is cooled by a cooling water. In order to cool the motor unit by circulating the cooling water, additional components are required, and thus the configuration is complicated, which increases a maintenance fee.
Patent Document 1: Korean Patent Publication No.: 10-1753612, entitled “Attaching/detaching device for snowboard binding”
Patent Document 2: Korean Patent Publication No.: 10-1819497, entitled “Driving device for skateboard with detachable foot hanger controlled by portable smart device”
Patent Document 3: Korean Patent Publication No.: 10-1758290, entitled “Modular surfboard driven by waterjet”
Patent Document 4: Japanese Laid-Open Patent Publication No.: H09-76990, entitled “Leash of surfboard or the like”
Patent Document 5: Japanese Laid-Open Patent Publication No.: H10-314365, entitled “Magnetic device for snowboard”
Patent Document 6: US Patent Application Publication No.: 2010/0059969, entitled “Magnetic easy step in/out snowboard binding”
Therefore, the present invention has been made in view of the above problems, and an object of the present invention is to provide an electric surfboard that can determine whether or not a user is on board while the surfboard is working, and if not, can stop operation of the surfboard, and that can naturally cool heat generated from a control unit and a motor unit.
The present invention is not limited to the above-described object, and other objects can be clearly understood by those skilled in the art from the description below.
In order to achieve the above object, according to one aspect of the present invention, there is provided an electric surfboard including: a surfboard housing; foot bindings which are disposed on a top surface of the surfboard housing at front and rear portions thereof, respectively; a battery pack unit which is detachably mounted in a space between the foot bindings from the top surface of the surfboard housing to a bottom surface; a control room unit which is fixed to the bottom surface of the surfboard housing in a space between a bottom surface of the battery pack unit and the bottom surface of the surfboard housing so as to be naturally cooled by water flowing below a rear surface of the surfboard when a motor operates, the control room unit controlling operation of the motor; a motor unit which is driven under a control of the control room unit, is fixed to one side of the control room unit, and is disposed on the bottom surface of the surfboard housing so as to be naturally cooled by the water flowing below the rear surface of the surfboard when a motor operates; and a waterjet unit which is coupled to the motor unit in series to generate a driving force of the surfboard according to operation of the motor unit, in which the battery pack unit is disposed at a center region of the surfboard, which corresponds to a center of gravity, in view of series arrangement of the motor unit and the waterjet unit.
Also, a pair of connectors are respectively disposed on the bottom surface of the battery pack unit and a top surface of the control room unit to be connected to the battery pack unit and the control room unit, thereby supplying a power from the battery pack unit to the control room unit.
The top surface of the control room unit is provided with a first partition protruding upwardly from one end thereof, a second partition protruding upwardly and disposed inside the first partition, a waterproof groove formed in a space between the first and second partitions, and a connector receiving groove formed inside the second partition to receive the control room connector.
A bottom surface of the battery pack unit is provided with a seating groove, a base formed in the seating groove, a protrusion protruding from the base and formed in a shape corresponding to the first and second partitions, and a waterproof sealing fitted onto the protrusion in a circumferential direction and inserted in the waterproof groove together with the protrusion.
The control room connector has first and second guides which are spaced apart from each other at a certain interval and protrude upwardly, power connecting terminal formed between the first and second guides, and a control terminal which is formed between the first and second guides to transmit a control signal outputted from the control room unit.
The battery connector is provided with first and second guide grooves for receiving the first and second guides, a power connecting terminal receiving groove for receiving the power connecting terminal and to be electrically connected to the power connecting terminal, and a control terminal receiving groove for receiving the control connecting terminal and to be electrically connected to the control connecting terminal.
Also, in order to achieve the above object, according to another aspect of the present invention, there is provided an electric surfboard including a surfboard housing, foot bindings which are put on a user, a step-out detecting unit for creating a magnetic field and attracted to the housing by a magnetic force, as well as being physically coupled to an ankle strap, in which if the user steps out of the surfboard, the step-out detecting unit being detached from the housing, thereby detecting step-out of the user, and a control unit receiving a step-out detecting signal outputted from the step-out detecting unit to send a signal for stopping operation of the surfboard.
The step-out detecting unit includes attaching member having a magnet, a holder fixed to the top surface of the surfboard, in which the attaching member is seated on a top surface of the holder by the magnetic force, a metal member seated on a bottom surface of the holder and cooperating with the magnet to secure the attaching member, and a sensor unit disposed on the bottom surface of the holder to detect the magnetic field to send a step-out detecting signal if the user steps out of the surfboard and thus the attaching member is detached from the holder.
Also, the electric surfboard includes a detachable battery pack unit mounted on the surfboard housing from the top surface to the bottom surface, and an air circulating member fixed to the holder to communicate with the inner space of the battery pack unit, thereby discharging the heat generated from the battery pack unit to the outside and circulate the air.
The air circulating member has a head portion with a fabric portion for air circulation, a shank portion extending from the head portion and threadedly fastened to the holder, a guide formed on a bottom surface of the head portion, and a waterproof ring provided on an outer peripheral surface of the guide to prevent intrusion of water when the air circulating member is fixed to the holder.
With the above configuration of the present invention, the control unit determines whether or not the user is on board while the surfboard is working, and if not, the control unit stops operation of the surfboard. Also, it is possible to naturally cool the heat generated from the control unit and a motor unit.
Hereinafter, preferred embodiments of the present invention will be explained in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. In the following description, detailed descriptions of well-known functions or constructions will be omitted since they would obscure the invention in unnecessary detail.
An electric surfboard according to the first embodiment of the present invention includes a surfboard housing 10, a control room unit and a motor unit which are disposed on a bottom surface of the surfboard housing 10 so as to be cooled by water flowing below a rear surface of the surfboard, and a connector coupling structure for connecting the control room unit and a battery pack unit. The surfboard includes, as illustrated in
As illustrated in
As illustrated in
As illustrated in
The control room unit 200 according to the first embodiment of the present invention is disposed in the space between the battery pack 100 and the bottom surface of the surfboard housing 10, as illustrated in
As illustrated in
The control room connector 240 has first and second guides 241a and 241b which are spaced apart from each other at both sides and protrude upwardly, and power connecting terminal 242 and a control terminal 243 which are provided in the space between the first and second guides 241a and 241b. When the control room connector coupling member is electrically connected to the battery connector coupling member, the first and second guides 241a and 241b are inserted in the first and second guide grooves 141a and 141b to guide the mutual connection and firmly support the connector at connection. When the control room connector coupling member is electrically connected to the battery connector coupling member, the power connecting terminal 242 is inserted and connected to the power connecting terminal receiving groove 142 to supply the power to the battery pack unit 100 and the control room unit 200. When the control room connector coupling member is electrically connected to the battery connector coupling member, the control terminal 243 is inserted and connected to the control terminal receiving groove 143 to transmit a control signal generated from the control circuit 220 to a battery management system (BMS) of the battery pack unit 100, or transmit a signal generated from the BMS to the control circuit 220. As illustrated in
As illustrated in
The motor unit 300 includes a motor 310 rotated under the control of the control circuit 220, and a motor housing 320 and a rear motor cover 330 which enclose the motor 310 to achieve a waterproof function. The waterjet unit includes a jet tunnel 400 for ejecting sucked water in a rearward direction, an impeller 410 and a shaft 420 which are rotated by the motor 310, a guide vane 500 for guiding the ejected water, and a jet nozzle 600.
The battery pack unit 100 and the control room unit 200 are sequentially disposed at the approximately center region of the housing 10 of the electric surfboard. The control room unit 200 is disposed just beneath the battery pack unit 100. Also, the motor unit 300 and the waterjet unit are directly connected to each other in series at one side of the control room unit 200 in a longitudinal direction (i.e., the motor unit and the waterjet unit are disposed at the right side in
A surfboard capable of detecting step-out of a user according to the second embodiment of the present invention is configured to automatically stop a motor if the user steps out of the surfboard (for example, the user falls into water while riding on the water, so that the user can easily retrieve the surfboard.
A step-out detecting unit 700 according to the second embodiment of the present invention is disposed on the top surface of the housing 10, as illustrated in
The attaching member 710 has a magnetic cap 711, first and second fixing holes 711a and 711b, a magnet 712 and a magnetic film 713. Referring to
The holder 720 is provided on a top surface thereof with a seating groove 721 on which the attaching member 710 is seated, and a threaded portion 722 penetrates the top surface of the holder 720 beside the seating groove 721, to which an air circulating member 722 is fastened. Also, the holder 720 is provided on a bottom surface thereof with a seating groove 723 at a position corresponding to the seating groove 721, on which the metal member 730 is seated. If the metal member 730 is seated on the seating groove 723 formed on the bottom surface of the holder and the attaching member 710 is seated on the seating groove 721 formed on the top surface of the holder, the attaching member 710 is secured to the holder 720 by the magnetic force. The holder 720 is provided on the top surface of the battery pack unit 100.
The metal member 730 is made of a metal material, i.e., steel, to be responsible for the magnetic force of the magnet 712 of the attaching member, and is seated on the seating groove 723 of the holder. The magnet 712 and the metal member 730 are formed in the cross-sectional shape of a circle or ellipse. The magnetic switch sensor 740 is positioned near the metal member 730 to detect the magnetic field. Specifically, the magnetic switch sensor 740 has a sensor for detecting the magnetic field to generate a signal, and a control unit for receiving the signal from the sensor to generate a step-out detecting signal. The magnetic switch sensor 740 is preferably positioned below the metal member 730 to easily detect the magnetic field. If the magnetic switch sensor 740 is disposed at a wrong position, it is possible to generate an error signal indicating the step-out, even in the case where the attaching member 710 is attached to the holder 720. The magnetic switch sensor 740 is preferably disposed at the lower region of the metal member in such a way that a disposed range of the magnetic switch sensor 740 is partially overlapped with that of the metal member 730. The control unit generates the step-out detecting signal according to the signal from the sensor for detecting the attachment/detachment of the attaching member 710, and generates a drive stop signal for stopping the operation of the motor according to the step-out detecting signal to send it to the control room unit 200. The control room unit 200 stops the operation of the motor according to the drive stop signal, thereby stopping the surfboard when the user steps out of the surfboard.
An air circulating member 750 is threadedly fastened to the threaded groove 722 of the holder. As illustrated in
The above-described step-out detecting unit 700 is adhered to the holder by the magnetic field, and detects the step-out of the user by sensing the magnetic field. Alternatively, the step-out detecting unit 700 may be a load cell attached to the housing 10 of the surfboard, so that it is determined whether or not the user is on board, on the basis of a signal outputted from the load cell. Specifically, the load cell is disposed below the top surface of the housing 10 having the foot bindings 11a and 11b, and is electrically connected to the control unit, so that the control unit can detect the step-out of the user according to the signal outputted from the load cell. If it is determined that the user steps out of the surfboard, the control unit stops the operation of the motor. The load cell may be disposed at any one or both of the foot binders.
While the present invention has been described with reference to the particular illustrative embodiments, it is not to be restricted by the embodiments but only by the appended claims. It is to be appreciated that those skilled in the art can change or modify the embodiments without departing from the scope and spirit of the present invention.
Number | Name | Date | Kind |
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20100025967 | Flaig | Feb 2010 | A1 |
20100059969 | Scharman et al. | Mar 2010 | A1 |
20170267319 | Morash et al. | Sep 2017 | A1 |
20180346119 | Henry | Dec 2018 | A1 |
20190308696 | Tian | Oct 2019 | A1 |
20200231264 | Imai | Jul 2020 | A1 |
Number | Date | Country |
---|---|---|
09-76990 | Mar 1997 | JP |
10-314365 | Dec 1998 | JP |
10-2016-0057060 | May 2016 | KR |
10-2017-0046886 | May 2017 | KR |
10-1758290 | May 2017 | KR |
10-1753612 | Jul 2017 | KR |
10-1819497 | Jan 2018 | KR |
10-2018-0027456 | Mar 2018 | KR |
WO-2019143276 | Jul 2019 | WO |
Number | Date | Country | |
---|---|---|---|
20210139114 A1 | May 2021 | US |