1. The utility model provides an intelligence is dressed and is prevented drowned equipment assembly device, includes and binds mechanism (1), its characterized in that: the binding mechanism is characterized in that a contraction mechanism (2) is fixedly connected to the position, close to the front side and the back side, of the outer wall of the binding mechanism (1), an inflation mechanism (3) is fixedly connected to the position, close to the left side and the right side, of the back side of the binding mechanism (1), and the outer wall of the inflation mechanism (3) is movably connected with the outer wall of the contraction mechanism (2) through the arranged binding mechanism (1).

2. The intelligent wearable drowning prevention equipment assembly device of claim 1, characterized in that: the binding mechanism (1) comprises a first binding belt (11), a first air bag (12), a shoulder belt (13) and a second air bag (14), the first air bag (12) is arranged inside the first binding belt (11), the position, close to the left side and the right side, of the top end of the first binding belt (11) is fixedly connected with the shoulder belt (13), the second air bag (14) is arranged inside the shoulder belt (13), and the inner wall of the second air bag (14) is communicated with the inner wall of the first air bag (12) through the arranged shoulder belt (13).

3. The intelligent wearable drowning prevention equipment assembly device of claim 1, characterized in that: the structure of shrink mechanism (2) is including shrink storehouse (21), telescopic bar (22) and turn round (23), the outer wall of binding mechanism (1) is close to left position fixedly connected with shrink storehouse (21), the position fixedly connected with telescopic bar (22) that the outer wall of binding mechanism (1) is close to shrink storehouse (21), the outer wall of telescopic bar (22) through setting up bind the inner wall swing joint of mechanism (1) and shrink storehouse (21), the position fixedly connected with that the outer wall of shrink storehouse (21) is close to telescopic bar (22) turns round (23), the outer wall swing joint of the outer wall of turning round (23) through shrink storehouse (21) and telescopic bar (22) that sets up.

4. The intelligent wearable drowning prevention equipment assembly device of claim 1, characterized in that: the structure of mechanism (3) aerifys includes gas storage bin (31), tonifying qi mechanism (32) and automatic gassing mechanism (33), the inside of gas storage bin (31) is close to position fixedly connected with tonifying qi mechanism (32) of bottom, the inside of gas storage bin (31) is close to the automatic gassing mechanism (33) of position fixedly connected with on top, the inner wall of automatic gassing mechanism (33) link up through the inner wall of gas storage bin (31) that sets up and binding mechanism (1).

5. The intelligent wearable drowning prevention equipment assembly device of claim 4, characterized in that: the structure of tonifying qi mechanism (32) includes first choke plate (321), first outlet duct (322), first venthole (323), valve muscle (324) and inflates mechanism (325), the interior bottom end of first choke plate (321) is close to the first outlet duct of position fixedly connected with (322) at center, the outer wall of first outlet duct (322) is equidistance and encircles the form and has seted up first venthole (323), the interior bottom end of first choke plate (321) is close to position fixedly connected with valve muscle (324) of first outlet duct (322), the position fixedly connected with that the bottom of first choke plate (321) is close to the center inflates mechanism (325), the inner wall of inflating mechanism (325) link up with the inner wall of gas storage storehouse (31) through the first venthole (323) that sets up.

6. The intelligent wearable drowning prevention equipment assembly device of claim 5, characterized in that: the structure of the inflating mechanism (325) comprises an elastic sealing plate (3251), an air inlet hole (3252), a second air blocking plate (3253) and an elastic support (3254), wherein the position, close to the air storage bin (31), of the outer wall of the elastic sealing plate (3251) is provided with the air inlet hole (3252) in an equidistant surrounding mode, the position, close to the air inlet hole (3252), of the inner wall of the elastic sealing plate (3251) is fixedly connected with the elastic support (3254) in an equidistant surrounding mode, the outer wall of the elastic support (3254) is fixedly connected with the second air blocking plate (3253), and the outer wall of the second air blocking plate (3253) is movably connected with the inner wall of the air inlet hole (3252) through the elastic support (3254) which is arranged.

7. The intelligent wearable drowning prevention equipment assembly device of claim 4, characterized in that: the structure of automatic gassing mechanism (33) includes pressure gauge (331), hinders air pocket (332), air channel (333) and third and hinders air board (334), first bandage (11) outer wall that the outer wall of pressure gauge (331) link up, the inner wall of gas storage storehouse (31) is close to the position fixedly connected with that binds mechanism (1) and hinders air pocket (332), air channel (333) have been seted up to the inner wall of hindering air piece (332), the inner wall of air channel (333) and the inner wall of binding mechanism (1) link up, the position swing joint that the outer wall of pressure gauge (331) is close to and hinders air piece (332) has third to hinder air board (334), the outer wall of third hinders air board (334) is through the inner wall swing joint of pressure gauge (331) and air channel (333) that sets up.

Background

Drowning is a big cause of unexpected death and has become a serious social problem. At present, drowning-prevention wearable equipment mainly concentrates self rescue during drowning, such as drowning state detection, drowning lifesaving equipment release and the like. However, drowning rescue time is short, self-rescue ability is weak, monitoring effect is small after drowning, and the release success rate of lifesaving facilities is low.

Furthermore, the main problem with wearable devices for drowning prevention is that even if the behavior of a student swimming outdoors is monitored, the fact that the student may be drowned cannot be changed. Therefore, the automatic triggering type drowning prevention wearable device mainly aims at active triggering rescue when drowning, and automatically rescues people who dive outdoors when drowning happens.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an intelligent wearable drowning prevention equipment assembly device, which is used for rescuing drowned people by changing the automatic trigger device according to the water pressure of people in water.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an intelligence is dressed and is prevented drowned equipment assembly device, includes and bindes the mechanism, the outer wall of binding the mechanism is close to the rigidity of positive and negative two sides and is connected with shrink mechanism, the rigidity of position that the back of binding the mechanism is close to the left and right sides is connected with the mechanism of aerifing, the outer wall swing joint of binding the mechanism and shrink mechanism that aerify the mechanism through setting up.

Preferably, the binding mechanism structurally comprises a first binding belt, a first air bag, a shoulder belt and a second air bag, the first air bag is arranged inside the first binding belt, the position, close to the left side and the right side, of the top end of the first binding belt is fixedly connected with the shoulder belt, the second air bag is arranged inside the shoulder belt, and the inner wall of the second air bag is communicated with the inner wall of the first air bag through the arranged shoulder belt.

Preferably, the structure of shrink mechanism includes shrink storehouse, telescopic bar and turn round, the outer wall of binding the mechanism is close to left fixedly connected with shrink storehouse, the outer wall of binding the mechanism is close to the fixedly connected with telescopic bar in shrink storehouse, the outer wall of telescopic bar is through the inner wall swing joint of the mechanism of binding and shrink storehouse that sets up, the outer wall of shrink storehouse is close to the fixedly connected with turn round in telescopic bar, the outer wall swing joint of the outer wall of turn round through the shrink storehouse that sets up and telescopic bar.

Preferably, the structure of mechanism of aerifing includes gas storage bin, tonifying qi mechanism and automatic gassing mechanism, the inside of gas storage bin is close to the position fixedly connected with tonifying qi mechanism of bottom, the inside of gas storage bin is close to the automatic gassing mechanism of position fixedly connected with on top, the inner wall of automatic gassing mechanism link up through the inner wall that sets up gas storage bin and bind the mechanism.

Preferably, tonifying qi mechanism's structure includes first choke plate, first outlet duct, first venthole, valve muscle and inflates the mechanism, the first outlet duct of position fixedly connected with at first choke plate's inner bottom end near the center, the outer wall of first outlet duct is the equidistance and encircles the form and seted up first venthole, the position fixedly connected with valve muscle that the inner bottom end of first choke plate is close to first outlet duct, the position fixedly connected with that the bottom of first choke plate is close to the center inflates the mechanism, the inner wall of inflating the mechanism link up with the inner wall in gas storage bin through the first venthole that sets up.

Preferably, the structure of the mechanism of inflating includes elastic sealing plate, inlet port, second choke plate and elastic support, the position that the outer wall of elastic sealing plate is close to the gas storage bin is the equidistance and encircles the form and seted up the inlet port, the position that the inner wall of elastic sealing plate is close to the inlet port is equidistance and encircles form fixedly connected with elastic support, elastic support's outer wall fixedly connected with second choke plate, the inner wall swing joint of the outer wall of second choke plate through the elastic support that sets up and inlet port.

Preferably, automatic gassing mechanism's structure includes pressure gauge, air blocking piece, air channel and third choke plate, the first bandage outer wall that the outer wall of pressure gauge link up, the inner wall of gas storage bin is close to the fixed position who bindes the mechanism and blocks the air blocking piece, the air channel has been seted up to the inner wall of air blocking piece, the inner wall of air channel link up with the inner wall of binding the mechanism, the position swing joint that the outer wall of pressure gauge is close to the air blocking piece has the third choke plate, the outer wall of third choke plate is through the pressure gauge of setting and the inner wall swing joint of air channel.

The invention provides an intelligent wearable drowning prevention equipment assembling device. The method has the following beneficial effects:

(1) this intelligence is dressed and is prevented drowned equipment assembly device through the mechanism of binding that sets up, can make drowned personnel's shoulder and armpit possess the gasbag to make drowned personnel's the upper part of the body have the buoyancy support of external production, thereby can make drowned personnel's head can be in more than the surface of water, effectual prevent that drowned personnel from stifling in aqueous.

(2) This intelligence is dressed and is prevented drowned equipment assembly device through the shrink mechanism that sets up, makes things convenient for the personnel of stature difference to dress to the device, prevents that fat personnel from dressing not last, perhaps does not fit next to the shin after thinner personnel dresses, and the condition that drowned personnel that equipment after reducing the contrary water and take off the body and lead to can't save oneself through the device appears.

(3) This intelligence is dressed and is prevented drowned equipment assembly device through the mechanism of aerifing that sets up, can utilize the increasingly big principle of water pressure at the drowned in-process of personnel in aqueous, makes the device pass through the water pressure automatic triggering of fixed value, to the inside release air who bindes the mechanism to make drowned personnel have ascending buoyancy in the twinkling of an eye.

(4) This intelligence is dressed and is prevented drowned equipment assembly device through the mechanism of binding that sets up with aerify the mechanism, can will bind the inside air of mechanism and emit through the left and right sides of binding the mechanism at the time that the device is idle to can will aerify the inside air complement of mechanism through aerifing the mechanism, make things convenient for subsequent use.

(5) This drowned equipment assembly device is prevented to intelligence wearing through the mechanism of binding that sets up, can be full of the air in the inside of binding the mechanism before the device uses, wears the device on the personnel that the waterborne is not good, and the people that the prevention can not swim produces danger in the incomplete aquatic activities of safety measure such as taking boats or kayaks.

Drawings

FIG. 1 is an isometric view of the structure of the present invention;

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

FIG. 3 is a cross-sectional view of the structure of FIG. 2 taken along line A-A thereof in accordance with the present invention;

FIG. 4 is an enlarged view of the structure at B in FIG. 3 according to the present invention;

FIG. 5 is an enlarged view of the structure at C of FIG. 4 according to the present invention;

FIG. 6 is a schematic front view of the structure of the present invention;

fig. 7 is a cross-sectional view of the structure of fig. 6 taken along line D-D in accordance with the present invention.

In the figure: 1. a binding mechanism; 11. a first strap; 12. a first air bag; 13. shoulder straps; 14. a second air bag; 2. a retracting mechanism; 21. a contraction bin; 22. a telescopic bar; 23. rotating the knob; 3. an inflation mechanism; 31. a gas storage bin; 32. a gas supplementing mechanism; 321. a first choke plate; 322. a first air outlet pipe; 323. a first air outlet hole; 324. a valve rib; 325. an inflating mechanism; 3251. an elastic sealing plate; 3252. an air inlet; 3253. a second choke plate; 3254. an elastic support; 33. an automatic air release mechanism; 331. a pressure gauge; 332. a gas block; 333. a vent channel; 334. a third choke plate.

Detailed Description

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

Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides an intelligence is dressed and is prevented drowned equipment assembly device, includes and trusses up mechanism 1, and the outer wall of trussing up mechanism 1 is close to the rigidity of position of two sides and is connected with shrink mechanism 2, and the rigidity of position that the back of trussing up mechanism 1 is close to the left and right sides is connected with and aerifys mechanism 3, and the outer wall swing joint of binding mechanism 1 and shrink mechanism 2 of aerifing mechanism 3 through setting up, and shrink mechanism 2 is provided with two, divide into and is located the front of trussing up mechanism 1 and the back and is close to the position at center.

The binding mechanism 1 structurally comprises a first binding belt 11, a first air bag 12, a shoulder belt 13 and a second air bag 14, the first air bag 12 is arranged inside the first binding belt 11, the top end of the first binding belt 11 is fixedly connected with the shoulder belt 13 at the position close to the left side and the right side, the second air bag 14 is arranged inside the shoulder belt 13, and the inner wall of the second air bag 14 is communicated with the inner wall of the first air bag 12 through the arranged shoulder belt 13.

The structure of shrink mechanism 2 includes shrink storehouse 21, telescopic bar 22 and turn round 23, the outer wall of binding mechanism 1 is close to left position fixedly connected with shrink storehouse 21, the outer wall of binding mechanism 1 is close to the position fixedly connected with telescopic bar 22 of shrink storehouse 21, the outer wall of telescopic bar 22 is through the inner wall swing joint who binds mechanism 1 and shrink storehouse 21 that sets up, the outer wall of shrink storehouse 21 is close to the position fixedly connected with turn round 23 of telescopic bar 22, the outer wall of turn round 23 is through the outer wall swing joint of shrink storehouse 21 and telescopic bar 22 that sets up.

The structure of the inflation mechanism 3 comprises a gas storage bin 31, a gas supplementing mechanism 32 and an automatic gas releasing mechanism 33, the gas storage bin 31 is internally and fixedly connected with the gas supplementing mechanism 32 at the bottom end, the gas storage bin 31 is internally and fixedly connected with the automatic gas releasing mechanism 33 at the top end, and the inner wall of the automatic gas releasing mechanism 33 is communicated with the inner wall of the binding mechanism 1 through the arranged gas storage bin 31.

The structure of tonifying qi mechanism 32 includes first choke plate 321, first outlet duct 322, first venthole 323, air valve muscle 324 and mechanism 325 inflates, the position fixedly connected with first outlet duct 322 that the inner bottom end of first choke plate 321 is close to the center, first venthole 323 has been seted up to the outer wall of first outlet duct 322 and has been the equidistance encircleed form, the position fixedly connected with air valve muscle 324 that the inner bottom end of first choke plate 321 is close to first outlet duct 322, the position fixedly connected with mechanism 325 inflates that the bottom of first choke plate 321 is close to the center, the inner wall of mechanism 325 inflates link up through the inner wall of first venthole 323 that sets up with gas storage bin 31.

The structure of the inflating mechanism 325 includes an elastic sealing plate 3251, an air inlet 3252, a second air blocking plate 3253 and an elastic support 3254, the air inlet 3252 is circumferentially provided at a position of an outer wall of the elastic sealing plate 3251 close to the air storage chamber 31 in an equidistant manner, the elastic support 3254 is fixedly connected at a position of an inner wall of the elastic sealing plate 3251 close to the air inlet 3252 in an equidistant manner, the second air blocking plate 3253 is fixedly connected at an outer wall of the elastic support 3254, and an outer wall of the second air blocking plate 3253 is movably connected with an inner wall of the air inlet 3252 through the arranged elastic support 3254.

The automatic air release mechanism 33 comprises a pressure gauge 331, an air blocking block 332, an air groove 333 and a third air blocking plate 334, wherein the outer wall of the first binding belt 11, through which the outer wall of the pressure gauge 331 penetrates, is fixedly connected with the air blocking block 332 at a position, close to the binding mechanism 1, of the inner wall of the air storage bin 31, the air groove 333 is formed in the inner wall of the air blocking block 332, the inner wall of the air groove 333 is through with the inner wall of the binding mechanism 1, the third air blocking plate 334 is movably connected at a position, close to the air blocking block 332, of the outer wall of the pressure gauge 331, and the outer wall of the third air blocking plate 334 is movably connected with the inner wall of the air groove 333 through the arranged pressure gauge 331.

After the device is assembled, before the device is used, the inner wall of the air storage bin 31 is filled with air by pressing the outer wall of the inflating mechanism 325, the air pressure of the inner wall of the elastic sealing plate 3251 is increased in the process of pressing the outer wall of the inflating mechanism 325, so that the second air blocking plate 3253 is more sealed with the inner wall of the elastic sealing plate 3251, the air flow of the inner wall of the elastic sealing plate 3251 pushes open the air blocking rib 324 through the inner wall of the first air outlet hole 323 to enter the inside of the air storage bin 31, when the elastic sealing plate 3251 is loosened, the elastic sealing plate 3251 rebounds, the air blocking rib 324 of the outer wall of the first air outlet pipe 322 blocks and seals the first air outlet hole 323 in the rebounding process, so that the negative pressure inside the elastic sealing plate 3251 pushes open the second air blocking plate 3253 of the outer wall of the elastic support 3254, the air flow enters the inside of the elastic sealing plate 3251 through the air inlet 3252, and the air supplement to the inner wall of the air storage bin 31 is facilitated subsequently, during the use, enclose the device's first bandage 11 in the armpit, tie up shoulder belt 13 in the shoulder simultaneously, twist simultaneously and turn round 23, make telescopic bar 22 get into the inside of shrink storehouse 21, make first bandage 11 tie up in the wearing personnel armpit tightly, in the heavy in-process of wearing personnel drowning, ambient pressure produces pressure to the pressure gauge 331 on mechanism 3 top of aerifing, thereby make third choke plate 334 extrude downwards, the inside air release of extruded in-process messenger gas storage tank 31, the inside of getting into first gasbag 12 and second gasbag 14 through air channel 333 of choke piece 332 inner wall, make the drowned personnel armpit and the shoulder of wearing the device produce buoyancy, make drowned personnel have the ability of saving oneself, more facilitate the use.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.