CN209870711U - Multifunctional remote control life buoy - Google Patents

Abstract

The utility model discloses a multi-functional remote control life buoy, including non-closed life buoy body, power device, main control unit and remote controller, the life buoy body include an arc head and respectively with just parallel arrangement's afterbody is connected at arc head both ends, power device sets up in the afterbody, the upper and lower surface of afterbody front end is equipped with first water inlet and second water inlet respectively, the rear end face of afterbody is equipped with first delivery port, first water inlet, second water inlet and first delivery port communicate with power device's both ends respectively, the main control unit is sealed to be set up inside the life buoy body to be connected with power device through the signal of telecommunication, the remote controller passes through radio signal and is connected with the main control unit. The utility model discloses a set up power device and carry out remote control through the remote controller, can make the life buoy remove the person in water side fast accurately, and need not the person in water and consume physical power and go to look for the life buoy, improved rescue efficiency greatly.

Description

Multifunctional remote control life buoy

Technical Field

The utility model relates to a lifesaving equipment field, in particular to multi-functional remote control life buoy.

Background

Lifebuoys are one of the commonly used water life saving devices and are usually made of foam or other lightweight materials with a relatively low specific gravity. The following problems still exist in the current life buoy:

1. in the rescue process, the life buoy needs to be thrown manually, and if the field environment is complex and not beneficial to rescue, the rescue work is greatly influenced, and even the rescue can not be smoothly implemented. On the other hand, the existing life buoy is generally relatively thick and heavy, and the light weight is easily influenced by wind power or air resistance, so that the accuracy of throwing the life buoy is extremely difficult to control. Even if the person falling into the water catches the life buoy, the person cannot be quickly transferred to a safety zone due to no power, and the rescue work is delayed greatly.

2. A person falling into the water is soaked in the water all the time in the process of waiting for rescue, the temperature of the water is low, a large amount of heat of a human body can be easily taken away after the person falling into the water is soaked for a long time, and accidents can occur due to the fact that the body temperature is lowered and the heat is continuously lost.

3. The existing life buoy is lack of necessary lighting equipment, and if the rescue scene is in an environment with night or insufficient light, the time for rescuing people to find people falling into water can be delayed, so that the optimal rescue opportunity is lost.

4. The existing life buoy has no communication system, so that after people falling into water fall into the water, the spirit is tense, and the life buoy cannot be used correctly even if the people see the life buoy, so that the rescue efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

For solving the problem that current life buoy lacks power function, the utility model discloses a multi-functional remote control life buoy, including non-closed life buoy body, power device, main control unit and remote controller, the life buoy body include an arc head and respectively with just parallel arrangement's afterbody is connected at arc head both ends, power device sets up in the afterbody, the upper and lower surface of afterbody front end is equipped with first water inlet and second water inlet respectively, the rear end face of afterbody is equipped with first delivery port, first water inlet, second water inlet and first delivery port communicate with power device's both ends respectively, the main control unit is sealed to be set up inside the life buoy body to be connected with power device through the signal of telecommunication, the remote controller passes through radio signal and is connected with the main control unit.

As a further improvement of the technical scheme, the power device comprises an injection duct, a driving motor, a propeller and an injection control mechanism, wherein a third water inlet and a fourth water inlet are respectively arranged on the upper side and the lower side of one end of the injection duct, a second water outlet is arranged on the other end of the injection duct, the driving motor is arranged outside the injection duct and close to the third water inlet and the fourth water inlet, the propeller is arranged inside the injection duct and close to the second water outlet and is in transmission connection with the driving motor through a rotating shaft, and the injection control mechanism is arranged at the third water inlet and the fourth water inlet.

As a further improvement of the above technical solution, the first water inlet is communicated with the third water inlet, the second water inlet is communicated with the fourth water inlet, and the first water outlet is communicated with the second water outlet.

As a further improvement of the technical scheme, the injection control mechanism comprises a first turning plate, a first gear shaft, a second turning plate, a second gear shaft, a first steering engine and a second steering engine, wherein the first turning plate and the second turning plate are respectively arranged in a third water inlet and a fourth water inlet, one end of the first turning plate is rotatably connected with the first gear shaft, one end of the second turning plate is rotatably connected with the second gear shaft, the first gear shaft is rotatably connected with the first steering engine through a first transmission gear, and the second gear shaft is rotatably connected with the second steering engine through a second transmission gear.

For solving the problem that current life buoy lacks the heat preservation function, the utility model discloses a heating device is further disclosed, heating device sets up the inner wall at the life buoy body to be connected with the main control unit through the signal of telecommunication.

For solving the problem that current life buoy lacks the illumination function, the utility model discloses a lighting device is further disclosed, lighting device sets up at life buoy body front end to be connected with the main control unit through the signal of telecommunication.

For solving the problem that current life buoy lacks communication function, the utility model further discloses a communication device, communication device sets up at life buoy body rear end and is connected with the main control unit through the signal of telecommunication.

As a further improvement of the technical scheme, the front end of the life buoy body is also provided with an infrared sensor, and the infrared sensor is connected with the main control unit through an electric signal.

As a further improvement of the technical scheme, the front end of the life buoy body is also provided with a camera, and the camera is connected with the main control unit through an electric signal.

As a further improvement of the technical scheme, the rear end of the life buoy body is provided with a water-meeting switch, and the water-meeting switch is connected with the main control unit through an electric signal.

The utility model has the advantages that:

1. by arranging the power device and remotely controlling the life buoy through the remote controller, the life buoy can be quickly and accurately moved to the side of a person falling into the water without the need of physical strength consumption of the person falling into the water to find the life buoy, so that the rescue efficiency is greatly improved;

2. the life buoy body is provided with the heating device, so that the body temperature of a person falling into water can be kept at a normal level, and the personal safety of the person falling into water is ensured;

3. the front end of the life buoy body is provided with the illuminating device which can illuminate the water surface, so that a person falling into the water can observe the front condition conveniently and find dangerous conditions in time;

4. the rear end of the life buoy body is provided with the communication device, so that a person falling into water can conveniently communicate with rescuers in real time, the rescuers can master the condition of the person falling into water in time, the mood of the person falling into water is appealed, and the rescue efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a sectional view of the structure of the present invention;

FIG. 3 is a cross-sectional view of the structure taken along the line A-A in FIG. 1;

FIG. 4 is a cross-sectional view of the structure taken along the line B-B in FIG. 1;

fig. 5 is a schematic view of a partial structure of the injection control mechanism of the present invention;

fig. 6 is a schematic diagram of the circuit principle of the present invention.

Reference numerals:

10-a lifebuoy body; 11-an arcuate head; 12-parallel tails; 20-a power plant; 21-a jet duct; 22-a drive motor; 23-a propeller; 24-an injection control mechanism; 241-a first flap; 242-a second flap; 243-first gear shaft; 243 a-gear; 243 b-shaft body; 244-second gear shaft; 245-a first steering engine; 245 a-a drive gear; 246-a second steering engine; 247-a first transfer gear; 248 — a second drive gear; 25-a third water inlet; 26-a fourth water inlet; 27-a second water outlet; 28-a rotating shaft; 29-a support frame; 30-a main control unit; 40-a remote controller; 50-a first water inlet; 60-a second water inlet; 70-a first water outlet; 80-a gyroscope; 90-a heating device; 100-a lighting device; 110-a communication device; 120-an infrared sensor; 130-a camera; 140-waterproof charging port; 150-key switch; 160-water-meeting switch; 170-power supply.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

As shown in fig. 1-2, a multifunctional remote-controlled lifebuoy comprises a non-enclosed lifebuoy body 10, a power device 20, a main control unit 30 and a remote controller 40.

The life buoy body 10 comprises an arc-shaped head 11 and a tail part 12 which is connected with two ends of the arc-shaped head 11 respectively and is arranged in parallel, the arc-shaped head 11 and the two parallel tail parts 12 form a U-shaped structure, so that a person falling into the water can lie prone on the life buoy easily without drilling into the life buoy like using a traditional life buoy, and the physical ability of the person falling into the water is saved.

The arc-shaped head part 11 is of a hollow structure, the main control unit 30 and the power supply 170 are hermetically arranged in the arc-shaped head part 11 and are connected with the power device 20 through electric signals, and the remote controller 40 is connected with the main control unit 30 through wireless signals.

The power device 20 provides power for the life buoy, and the remote controller 40 is used for remote control, so that the life buoy can be rapidly and accurately moved to the side of a person falling into the water, the person falling into the water does not need to consume physical strength to find the life buoy, and the rescue efficiency is greatly improved.

The power device 20 is arranged in the tail portion 12, the upper surface and the lower surface of the front end of the tail portion 12 are respectively provided with a first water inlet 50 and a second water inlet 60, the rear end face of the tail portion 12 is provided with a first water outlet 70, and the first water inlet 50, the second water inlet 60 and the first water outlet 70 are respectively communicated with two ends of the power device 20.

As shown in fig. 3, the power plant 20 includes an injection duct 21, a drive motor 22, a propeller 23, and an injection control mechanism 24. The upper side and the lower side of one end of the injection duct 21 are respectively provided with a third water inlet 25 and a fourth water inlet 26, and the other end is provided with a second water outlet 27; the driving motor 22 is arranged outside the jet duct 21 near the third water inlet 25 and the fourth water inlet 26; the propeller 23 is arranged inside the jet duct 21 and close to the second water outlet 27, and is in transmission connection with the driving motor 22 through a rotating shaft 28; the injection control mechanism 24 is provided at the third water inlet 25 and the fourth water inlet 26.

The first water inlet 50 is communicated with the third water inlet 25, the second water inlet 60 is communicated with the fourth water inlet 26, and the first water outlet is communicated with 70 the second water outlet 27.

The rotating shaft 28 is also provided with a support frame 29 to ensure the stability in the rotating process. The driving motor 22 rotates the propeller 23, introduces water flow from the third water inlet 25 or the fourth water inlet 26, and then sprays the water flow from the second water outlet 27 through the spray duct 21, thereby generating power for driving the life buoy to move.

As shown in fig. 4, the injection control mechanism 24 includes a first flap 241, a second flap 242, a first gear shaft 243, a second gear shaft 244, a first steering gear 245, and a steering gear 246. The first turning plate 241 and the second turning plate 242 are respectively arranged in the third water inlet 25 and the fourth water inlet 26; one end of the first turning plate 241 is rotatably connected with a first gear shaft 243, one end of the second turning plate 242 is rotatably connected with a second gear shaft 244, the first gear shaft 243 is rotatably connected with a first steering gear 245 through a first transmission gear 247, and the second gear shaft 244 is rotatably connected with a second steering gear 246 through a second transmission gear 248.

The first steering gear 245 and the second steering gear 246 respectively drive the first turning plate 241 and the second turning plate 242 to turn 90 degrees through the first transmission gear 247 and the second transmission gear 248; at the same time, one of the first flap 241 and the second flap 242 is opened and the other is closed. Be equipped with gyroscope 80 in the life buoy body 10, gyroscope 80 is connected with main control unit 30 through the signal of telecommunication for detect the positive and negative gesture of life buoy, no matter which face of life buoy is down, can keep the water inlet that faces down all the time to be in the open mode.

Because the upper and lower sides of the life buoy body 10 are provided with the water inlets (the first water inlet 50 and the second water inlet 60), the life buoy can be powered no matter which side of the life buoy enters water, the water entering posture is not needed to be considered, and the life buoy is not afraid of side turning.

As shown in fig. 5, the structure of the injection control mechanism 24 will be described in detail by taking the control of the first flap 241 as an example. The main shaft of the first steering gear 245 is connected with a driving gear 245a, the driving gear 245a is in transmission connection with a gear 243a of a first gear shaft 243 through a first transmission gear 247, and a shaft body 243b of the first gear shaft 243 is connected with the first turning plate 241. The first steering engine 245 drives the first gear shaft 243 to swing, so that the third water inlet 25 is opened and closed.

In order to improve the rescue efficiency, the multifunctional life buoy of the embodiment is further provided with a heating device 90, an illuminating device 100, a communication device 110, an infrared sensor 120, a camera 130, a waterproof charging port 140, a key switch 150, a water-meeting switch 160 and the like. Wherein:

the heating device 90 is disposed on the inner wall of the lifebuoy body 10 and is connected with the main control unit 30 by an electrical signal. The heating device 90 can keep the body temperature of the person falling into the water at a normal level, thereby ensuring the personal safety of the person falling into the water. The heating device 90 of the present embodiment uses heating wires, but other prior art techniques, such as PTC heating plates, heating tubes, etc., can be used.

The lighting device 100 is disposed at the front end of the life buoy body 10 and is connected with the main control unit 30 through an electrical signal. The lighting device 100 can illuminate the water surface, so that a person falling into the water can observe the front condition and find dangerous conditions in time. The lighting device 100 of the present embodiment uses an LED waterproof lamp, but other prior art may be used.

The communication device 110 is disposed at the rear end of the lifebuoy body 10 and is connected with the main control unit 30 through an electrical signal. The communication device 110 facilitates real-time communication between the drowning person and the rescue personnel, so that the rescue personnel can master the situation of the drowning person in time, and meanwhile, the mood of the drowning person is pacified, and the rescue efficiency and the survival probability of the drowning person are improved.

The infrared sensor 120 is disposed at the front end of the lifebuoy body 10 and is connected to the main control unit 30 through an electrical signal. The infrared sensor 120 can detect the thermal sensing signal of the water surface in real time and transmit the signal back to the rescuers, so that the rescuers can find the person falling into the water conveniently.

The camera 130 is disposed at the front end of the lifebuoy body 10 and is connected to the main control unit 30 through an electrical signal. The camera 130 can perform real-time video return to assist the rescue workers in finding the person falling into the water under the condition that the environment is not convenient to observe.

The waterproof charging port 140 is provided at the rear end of the lifebuoy body 10, and the waterproof charging port 140 is connected with the main control unit 30 by an electrical signal. The waterproof charging port 140 is used to charge the power source 170 so as to replenish the power in time.

The key switch 150 is arranged at the rear end of the life buoy body 10, and when the life buoy is used, the rescue worker can perform related operations through the remote controller 40 by turning on the key switch 150.

The water-meeting switch 160 is disposed at the rear end of the lifebuoy body 10 and is connected with the main control unit 30 through an electrical signal. After the life buoy enters water, the water-meeting switch 150 is started to switch on the power supply, and the life buoy starts to work; the life buoy stops working only after leaving water, so that a person falling into the water is prevented from turning off the power supply due to misoperation, and double guarantee is provided.

It should be noted that the functions and actions of the multifunctional remote control life buoy of the present invention are controlled by the main control unit 30, and the circuit principle thereof is shown in fig. 6. The main control unit 30 is respectively connected with the power supply 170 and the driving motor 22, the power supply 170 is connected with the driving motor 22, the key switch 150 and the water switch 160 are connected between the main control unit 30 and the power supply 170, and the power supply 170 provides basic energy and power guarantee for the main control unit 30 and the driving motor 22; the gyroscope 80, the heating device 90, the lighting device 100, the communication device 110, the infrared sensor 120, the camera 130, the waterproof charging port 140, the key switch 150 and the water-meeting switch 160 are respectively connected with the main control unit 30 through electric signals; the main control unit 30 may employ a chip with a wireless communication function to facilitate wireless communication with the remote controller 40.

The connection mode and the operation principle of the above circuits are conventional technical means in the field, and those skilled in the art have the capability of implementing the above technical means, so that the patent is not repeated.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention. In addition, the technical solutions between the various embodiments can be combined with each other, but must be based on the realization of those skilled in the art; when the technical solutions are contradictory or cannot be combined, the combination of the technical solutions should be considered to be absent, and is not within the protection scope of the present invention.

Claims (10)

1. A multifunctional remote control life buoy is characterized in that: including non-closed life buoy body, power device, main control unit and remote controller, the life buoy body include an arc head and respectively with arc head both ends are connected and parallel arrangement's afterbody, power device sets up in the afterbody, the upper and lower surface of afterbody front end is equipped with first water inlet and second water inlet respectively, the rear end face of afterbody is equipped with first delivery port, first water inlet, second water inlet and first delivery port communicate with power device's both ends respectively, the main control unit is sealed to be set up inside the life buoy body to be connected with power device through the signal of telecommunication, the remote controller passes through wireless signal and is connected with the main control unit.

2. The multi-functional remote-controlled lifebuoy of claim 1 wherein: the power device comprises a jet duct, a driving motor, a propeller and a jet control mechanism, wherein a third water inlet and a fourth water inlet are respectively arranged on the upper side and the lower side of one end of the jet duct, a second water outlet is arranged on the other end of the jet duct, the driving motor is arranged at the position, close to the third water inlet and the fourth water inlet, outside the jet duct, the propeller is arranged at the position, close to the second water outlet, inside the jet duct and is connected with the driving motor in a transmission mode through a rotating shaft, and the jet control mechanism is arranged at the position of the third water inlet and the position of the fourth water inlet.

3. The multi-functional remote-controlled lifebuoy of claim 2 wherein: the first water inlet is communicated with the third water inlet, the second water inlet is communicated with the fourth water inlet, and the first water outlet is communicated with the second water outlet.

4. The multi-functional remote-controlled lifebuoy of claim 3, wherein: the injection control mechanism comprises a first turning plate, a first gear shaft, a second turning plate, a second gear shaft and a steering engine, wherein the first turning plate and the second turning plate are respectively arranged in a third water inlet and a fourth water inlet, one end of the first turning plate is rotatably connected with the first gear shaft, one end of the second turning plate is rotatably connected with the second gear shaft, the first gear shaft is rotatably connected with the first steering engine through a first transmission gear, and the second gear shaft is rotatably connected with the second steering engine through a second transmission gear.

5. The multi-functional remote-controlled lifebuoy of claim 1 wherein: the life buoy further comprises a heating device, wherein the heating device is arranged on the inner wall of the life buoy body and is connected with the main control unit through an electric signal.

6. The multi-functional remote-controlled lifebuoy of claim 1 wherein: the life buoy further comprises a lighting device, wherein the lighting device is arranged at the front end of the life buoy body and is connected with the main control unit through an electric signal.

7. The multi-functional remote-controlled lifebuoy of claim 1 wherein: the life buoy further comprises a communication device, wherein the communication device is arranged at the rear end of the life buoy body and is connected with the main control unit through an electric signal.

8. The multi-functional remote-controlled lifebuoy of claim 1 wherein: the front end of the life buoy body is also provided with an infrared sensor, and the infrared sensor is connected with the main control unit through an electric signal.

9. The multi-functional remote-controlled lifebuoy of claim 1 wherein: the front end of the life buoy body is also provided with a camera, and the camera is connected with the main control unit through an electric signal.

10. The multi-functional remote-controlled lifebuoy of claim 1 wherein: the life buoy is characterized in that a water-meeting switch is arranged at the rear end of the life buoy body and is connected with the main control unit through an electric signal.