CN204637361U - Emergency rescue device equipped with air battery - Google Patents

Abstract

The utility model discloses an emergency rescue device equipped with air battery. The emergency rescue device comprises: an air battery, a lighting device, a container, and a voltage conversion device. The lighting device is powered by the air battery to emit light, and the lighting device comprises a filling groove. The container is filled with a saline solution of a certain volume in advance, and when in use, the saline solution in the container is filled in the filling tank to react the saline solution with the air battery to generate electricity. The voltage conversion device is arranged in the lighting device and is electrically connected to the air battery to provide at least one output voltage. The utility model can make the air battery react to provide continuous electric power by using the saline solution (such as the original physiological saline solution or seawater, river water and the like of the emergency rescue device) and the outside air which can be obtained everywhere. The air battery is arranged in the lighting device to provide emergency lighting, and the lighting device can also be provided with a USB interface to supply power to an external device or provide emergency charging.

Description

The emergency rescue device of air cell is equipped with

Technical field

The utility model relates to a kind of emergency rescue device, particularly a kind of emergency rescue device being equipped with air cell.

Background technology

Emergency rescue device provides necessary disposal in an emergency situation.In it, major part is equipped with the various first-aid applicance such as normal saline solution, liquid medicine, bandage for dressing that can process wound.And except the various medical supplies that the above-mentioned wound to injury carries out first aid process, also separately have and be equipped with as the lighting device promptly such as flashlight.

Above-mentioned lighting device all needs power supply can be luminous.Be generally the convenience asked in use, its power source is all provided by electrochemical cell.The electrochemical cell kind more widely used at present is lithium ion battery and Ni-MH battery etc., and more high efficiency high-polymer lithium battery is provided in recent more development.

Above-mentioned electrochemical cell utilizes the redox principle of chemical reaction to produce electric energy, generally comprises cathode electrode (positive electrode), anode electrode (negative electrode), and electrolyte aqueous solution in its structure.Usually isolate with separate layer between cathode electrode and anode electrode.Now to be changed by cathode electrode and the ion formed transfers to anode electrode via electrolyte aqueous solution.During battery discharge, it is then oxidized that cathode electrode is reduced anode electrode, rear release water outlet and electronics and can provide electric energy.During battery discharge, cathode electrode constantly disengages oxygen, and anode electrode is then constantly oxidized.Because known disposable electrochemical cell is closed leak-tight system, so when cathode electrode disengages all available oxygen or anode electrode complete oxidation gradually, namely life-span of this electrochemical cell comes to an end knot.And based on its reaction mechanism, even if when not using, its reaction still can occur; Thus, after long-time placement, often its loss of power is made because of continuous discharge.Though the active material having research improvement electrochemical cell to include follow-up, ites is desirable to extend the life of a cell under the situation not making volume become large.But these closed leak-tight systems are limited to because supplementing active material from the external world all the time, thus cannot significantly enhanced performance.If by this electrochemical cell application in emergency rescue device, then without the risk that electricity is available when may cause urgent.

Therefore, the electric power generator that development can replace above-mentioned disposable electrochemical cell is badly in need of, to the active demand of electric power when meeting Emergency Assistance.

Utility model content

For solving the problem of the above-mentioned electric power very easily shortage when Emergency Assistance.The utility model provides a kind of emergency rescue device being equipped with air cell.Utilize obtainable saline solution (normal saline solution had as emergency rescue device first wife or seawater, river etc.) and outside air everywhere, air cell can be made to react and provide forever continuous electric power.Can provide Emergency Light by air cell configuration to lighting device, lighting device also can arrange USB interface again, supplies power to external device or provides the use of urgent charging.

For reaching above-mentioned purpose, the utility model provides a kind of emergency rescue device being equipped with air cell, and it comprises lighting device, container and voltage conversion device.Lighting device is luminous by air cell, and it comprises filling slot.Container is pre-charged with the saline solution of some volumes.In use, the saline solution in container is filled in filling slot to react to make saline solution and air cell and generate electricity.Voltage conversion device is arranged in lighting device, and is electrically connected to air cell to provide at least one output voltage.

Above-mentioned saline solution can be normal saline solution, or takes from seawater, stream, lake water, pond water, ditch water or PET bottle water.Physiological saline water concentration can be 0.9% to 10%.

Above-mentioned emergency rescue device also can comprise bag.Bag can for putting lighting device and container, and can be plastic cement material and reusable.Bag vacuumizes so that the permanent saline solution preserved in container.Lighting device can be placed in bag to be provided in the use of throwing light in water.Bag can provide waterproof effect.

Above-mentioned emergency rescue device also can comprise filter, and it is for filtering the saline solution reacted with air cell.Saline solution can recycle after filtering and react with air cell, and maybe can produce can for the recycled water promptly drunk.Lighting device can be equiped with radio receiver module, and radio receiver module comprises the loudspeaker be arranged on lighting device.Emergency rescue device also can comprise satellite positioning module (GPS) or tracing module, and it is electrically connected to voltage conversion device.Voltage conversion device outwards provides output voltage by the USB interface be arranged on lighting device.

In above-mentioned emergency rescue device, lighting device comprises insulation crust, and form spacer portion in insulation crust, filling slot relative spacing portion is configured in insulation crust, and on insulation crust, being configured with some passages, this little passage is to tilt to run through and parallel arrangement mode formation.

Above-mentioned air cell comprises anode electrode part and cathode electrode part.Anode electrode part comprises the peripheral conductive part that central supported portion and bonding are coated on central supported portion.Anode electrode part is arranged in filling slot and part is exposed to the use of spacer portion for conduction.Cathode electrode part is arranged in filling slot and the position of more close passage.Central supported portion and peripheral conductive part bond can use electric welding method, dot welding method, casting method, immersion plating, spraying process, ultrasonic burning-on method or roll and prolong composite algorithm.Also adhesive layer can be comprised, adhesive layer bonding central supported portion and peripheral conductive part between central supported portion and peripheral conductive part.Adhesive layer can be cementing layer, magnetic absorption layer, organic film or nano adsorption layer.

In above-mentioned air cell, also can comprise osmotic membrane layer, it is coated on outside anode electrode part.Central supported portion material can be iron or cobalt, and peripheral conductive part material can be magnesium.Cathode electrode part can comprise first and go pole piece, second to remove pole piece and conductive part.First goes pole piece to be placed in relatively near insulation crust, and it is ventilative but waterproof.Second goes pole piece to be arranged at relatively near osmotic membrane layer.Conductive part is arranged at first and goes pole piece and second to go between pole piece.Conductive part is electrically connected first and goes pole piece and second to remove pole piece.

Above-mentioned emergency rescue device also can comprise light emitting module, and it coordinates spacer portion assembling.Light emitting module also can use inorganic LED light source or organic LED light source.Light emitting module comprises circuit board, and circuit board is electrically connected voltage conversion device, and circuit board also configures boosting IC to provide the output voltage of 5V.

In above-mentioned lighting device, spacer portion is equipped with the female cap nut made with stainless steel, and the one end in central supported portion can by thread lock to female cap nut.Anode electrode part is electrically connected the negative pole of light emitting module by female cap nut, and cathode electrode part is electrically connected the positive pole of light emitting module by copper sheet.Anode electrode part is electrically connected the negative pole of female cap nut and light emitting module by elastic component.

The utility model provides a kind of emergency rescue device being equipped with air cell.Utilizing the characteristic of air cell, the demand of emergency power can be provided at any time, solving disposable electrochemical cell because placing the problem of loss of power for a long time.Moreover, based on all right air cell, be assembled on lighting device, and borrow lighting device to reoffer electric power to external device, the range of application of expansion emergency rescue device.

Accompanying drawing explanation

Fig. 1 is the emergency rescue device schematic diagram according to the utility model embodiment.

The lighting device decomposing schematic representation configured in the emergency rescue device that Fig. 2 is Fig. 1.

Fig. 3 is the sectional view of the lighting device according to Fig. 2.

Fig. 4 is another embodiment schematic diagram of lighting device according to Fig. 2.

The anode electrode part structural representation of air cell of Fig. 5 for using according to the lighting device of another embodiment of the utility model.

Fig. 6 is another schematic shapes of the anode electrode part according to Fig. 5.

Fig. 7 is another embodiment schematic diagram of structure according to the anode electrode part of Fig. 5.

Fig. 8 is the anode electrode part using state schematic diagram according to Fig. 5.

Fig. 9 is the air cell STRUCTURE DECOMPOSITION schematic diagram according to another embodiment of the utility model.

Figure 10 is the profile after combining according to the air cell of Fig. 9.

Figure 11 is the decomposing schematic representation of the lighting device of the air cell of application drawing 9.

Figure 12 is the combination schematic diagram of the lighting device according to Figure 11.

Detailed description of the invention

Below will disclose multiple embodiment of the present utility model with accompanying drawing, as clearly stated, many concrete details will be explained in the following description.But should be appreciated that, these concrete details shall not be applied to restriction the utility model.That is, in the utility model section Example, these concrete details are non-essential.In addition, for simplifying for the purpose of accompanying drawing, some known usual structures and element describe in the mode simply illustrated in the accompanying drawings.

Air cell that emergency rescue device of the present utility model uses, its operation principle and general electrochemical cell similar, be all utilize redox reaction produce electric energy.Air cell is generally provided with passage and passes in cathode electrode for outside air, oxygen in recycling air produces conversion reaction at cathode electrode and generates hydroxyl ion, hydroxyl ion also produces oxidation reaction in anode electrode (sacrificial anode), and in course of reaction, produces water and electronics and provide electric energy.Because air cell utilizes inexhaustible air for reaction source, be therefore able to significantly extending battery life, and there is quite high energy-volume ratio.If it can be combined with emergency rescue device, the range of application of emergency rescue device significantly can be expanded.

Please with reference to Fig. 1 to Fig. 4.Fig. 1 is emergency rescue device 400 schematic diagram according to the utility model embodiment.Lighting device 410 decomposing schematic representation configured in the emergency rescue device 400 that Fig. 2 is Fig. 1.Fig. 3 is the sectional view of the lighting device 410 according to Fig. 2.Fig. 4 is another embodiment schematic diagram of lighting device 410 according to Fig. 2.

Emergency rescue device 400 comprises lighting device 410, container 420 and bag 430 substantially.

Lighting device 410 is powered by air cell 100 and luminous, and it also comprises filling slot 414.

Container 420 is pre-charged with the saline solution 421 of some volumes.In use, the saline solution 421 in container 420 is filled in filling slot 414, and with bottle cap 610, saline solution 421 is closed in filling slot 414, generate electricity to make saline solution 421 and air cell 100 react.

Lighting device 410 is provided with voltage conversion device 416, and voltage conversion device 416 is electrically connected to air cell 100 to provide at least one output voltage.

In a preference, above-mentioned saline solution 421 uses normal saline solution, and its concentration is 0.9% to 10%.In the present embodiment, normal saline solution is medical grade saline solution, except the wound that can provide cleaning-sterilizing injury, also can provide and reacts with air cell 100 and generate electricity.In all the other examples, if meet with very urgent situation and cause and cannot obtain normal saline solution, then saline solution 421 also can take from seawater, stream, lake water, pond water, ditch water or PET bottle water.Whereby, the effect of namely getting and namely using can being reached, make the air cell 100 of the present embodiment can provide continuous continuous electric power forever, solving general disposable battery because putting the problem of loss of power for a long time.

Above-mentioned bag 430 can for putting lighting device 410 and container 420.Bag 430 can be plastic cement material and reusable.Bag 430 vacuumizes so that the permanent saline solution 421 preserved in container 420.

In an example, lighting device 410 also can be placed in bag 430 with the use providing waterborne or throw light in water.Now, there is the use of air for air cell 100 reaction in bag 430.Further, bag 430 may float on the water surface or dive in water, hold concurrently and waterproof effect is provided.

Above-mentioned emergency rescue device 400, also can comprise filter 440, and it is for filtering the saline solution 421 reacted with air cell 100.Saline solution 421 can be recycled after filtering and react with air cell 100, and maybe can produce can for the recycled water promptly drunk.An embodiment of above-mentioned filter 440 can use filter paper.Whereby, after saline solution 421 has reacted, by Filter paper filtering and by filter after saline solution be recycled.

Used the lighting device 410 of air cell 100 by configuration, emergency rescue device 400 of the present utility model also significantly can expand range of application, to obtain more how complete function.Such as, lighting device 410 can be equiped with radio receiver module (not shown), and radio receiver module comprises loudspeaker, and it is arranged on lighting device 410, can accept the various information play to the user of emergency rescue device 400 of helping out of distress.

Another embodiment may please refer to Fig. 4.Voltage conversion device 416 outwards provides output voltage by the USB interface 600 be arranged on lighting device 410.Now, satellite positioning module (GPS) 500 or tracing module by being electrically connected at USB interface to obtain required electric power, tracing and positioning can be carried out to emergency rescue device user.

In the above-mentioned various application modes disclosing emergency rescue device 400 of the present utility model.Continue the structure mutually combined with air cell 100 by open lighting device 410, please continue with reference to Fig. 2 and Fig. 3.

Lighting device 410 comprises insulation crust 411, forms spacer portion 413 in insulation crust 411.Filling slot 414 is close to spacer portion 413 and is configured in insulation crust 411, and on insulation crust 411, be configured with some passages 415.Passage 415 can tilt to run through and (such as blinds pane) arranged in parallel and formed, and protection air cell 100 avoids suffering outside destroy.

Air cell 100 comprises anode electrode part 110 and cathode electrode part 130.Anode electrode part 110 comprises central supported portion 111 and bonds the peripheral conductive part 112 being coated on central supported portion 111.Anode electrode part 110 is arranged in filling slot 414 and part is exposed to the use of spacer portion 413 for conduction.Cathode electrode part 130 is arranged in the filling slot 414 and position of close passage 415.In an example, central supported portion 111 material can be iron or cobalt, and peripheral conductive part 112 material can be magnesium.Central supported portion 111 and peripheral conductive part 112 bond can use electric welding method, dot welding method, casting method, immersion plating, spraying process, ultrasonic burning-on method or roll and prolong composite algorithm.In an example, central supported portion 111 uses stainless steel core, can avoid, by saline solution 421 corrosion, causing and not being drawn out easily.Cathode electrode part 130 periphery can plastic covering separation layer again, to promote the reaction efficiency of cathode electrode part 130.

Lighting device 411 configures light emitting module 417 to provide light source.Light emitting module 417 coordinates spacer portion 413 and assembles.Light emitting module 417 can use inorganic LED light source or organic LED light source.

Spacer portion 413 is equipped with the female cap nut 418 made with stainless steel, and the one end in central supported portion 111 can by thread lock to female cap nut 418.More particularly, female cap nut 418 is provided with internal thread 418a, and one end, central supported portion 111 is provided with screw thread 111b.Accordingly, central supported portion 111 can in a rotative pattern thread lock to female cap nut 418.The anode electrode part 110 being conducive to air cell 100 has reacted rear replacing new product.

Light emitting module 417 comprises circuit board 419.Circuit board 419 is electrically connected voltage conversion device 416, and configuration is boosted, IC can reach 5V to make the output voltage of voltage conversion device 416 to circuit board, can provide electrical power to the external device needing high voltage or the use providing charging.

Circuit board 419 is equiped with some organic LEDs or the inorganic LED use as light source.Meanwhile, the electric power provided by air cell 100 is also provided by circuit board 419.Its connected mode is described below:

The anode electrode part 110 of air cell 100 is electrically connected the negative pole of light emitting module 417 by female cap nut 418, and cathode electrode part 130 is electrically connected the positive pole of light emitting module 417 by copper sheet 4112.More particularly, anode electrode part is electrically connected the negative pole of female cap nut 418 and light emitting module 417 by elastic component 4111.The positive and negative electrode of aforementioned light emitting module 417, is formed by the contact on circuit board 419; And circuit board separately has the corresponding organic LED of contact or inorganic LED light source.Elastic component 4111 can use spring or shell fragment etc., and there is no particular restriction.

The above-mentioned package assembly being openly applied to lighting device in emergency rescue device 400 410 and air cell 100.But air cell 100 of the present utility model is its range of application extensible also.The other application mode of air cell 100 of the present utility model is described with embodiment below, so that under emergency, its effect can also be played.

Anode electrode part 110 structural representation of air cell 100 of Fig. 5 for using according to another embodiment of the utility model.Anode electrode part 110 comprises central supported portion 111 and peripheral conductive part 112.Peripheral conductive part 112 bonds and is coated on the surperficial 111a in central supported portion 111.Peripheral conductive part 112 is as the use of the anodic oxidation reactions of air cell, and its material can be the alloy of aluminium, magnesium, zinc, iron, cobalt or aforementioned elements.The use that central supported portion 111 provides the support of peripheral conductive part 112 in oxidation reaction process fixing, its material can be metal or nonmetal.In one embodiment, when support portion, center 111 is metal material, the bonding of itself and peripheral conductive part 112 can adopt such as electric welding, spot welding, casting, immersion plating, spray, roll prolong compound, etc. method.

Fig. 6 is another schematic shapes of the anode electrode part 110 according to Fig. 5.In the utility model, the shape of anode electrode part 110 is not particularly limited, and can be cylindric or three-dimensional column.In Fig. 2, central supported portion 111 and the peripheral conductive part 112 of anode electrode part 110 are all rectangular column shape.

Fig. 7 is another embodiment schematic diagram of structure according to the anode electrode part 110 of Fig. 5.In Fig. 7, between the central supported portion 111 and peripheral conductive part 112 of anode electrode part 110, be provided with adhesive layer 113.Adhesive layer 113 can be cementing layer, magnetic absorption layer, organic film or nano adsorption layer, its object at the surperficial 111a in central supported portion 111, causes fracture to peel off to avoid peripheral conductive part 112 because of oxidation reaction gradually for making the fastening bonding in oxidation reaction process of peripheral conductive part 112.

Fig. 8 is the Another application view of the anode electrode part 110 according to Fig. 5.Anode electrode part 110 in the utility model, uses as sacrificial anode in air cell.Known sacrificial anode, refer to the metal (alloy etc. of aluminium, magnesium, zinc, iron, cobalt or aforementioned elements) that this sacrificial anode uses, constantly oxidized in the discharge process of air cell, and cause this sacrificial anode constantly produce metal oxide and consume.And in known air cell, its whole sacrificial anode is single integrally formed metalwork.The time used along with air cell is longer, and sacrificial anode will be constantly oxidized.In oxidizing process, the metal because of script sacrificial anode forms metal oxide and causes the change of material behavior, and then causes sacrificial anode to form the phenomenon of spalling.This phenomenon of peeling off will affect the operation of whole air cell, reduces the life-span of air cell.

Therefore, feature of the present utility model, is dividing into two parts by known integrally formed sacrificial anode (the anode electrode part 110 namely in the utility model), i.e. central supported portion 111 and peripheral conductive part 112.Further, central supported portion 111 and peripheral conductive part 112 select unlike material.Peripheral conductive part 112 major function is for participating in electrochemical reaction, the material that the alloy etc. that therefore its material can be aluminium, magnesium, zinc, iron or aforementioned elements can react with electrolyte aqueous solution.Central supported portion 111 major function, for supporting fixing peripheral conductive part 112, avoids peripheral conductive part 112 to peel off because being constantly oxidized.

Moreover, (please refer to Fig. 5 and Fig. 7) in previous embodiment, disclose at least two kinds of methods of being binded in central supported portion 111 and peripheral conductive part 112.In Figure 5, central supported portion 111 and peripheral conductive part 112 with electric welding, spot welding, casting, immersion plating, spray, roll prolong the method such as compound or ultrasonic welding bind; And in the figure 7, between central supported portion 111 and peripheral conductive part 112, set up adhesive layer 113, for being binded in central supported portion 111 and peripheral conductive part 112; Adhesive layer 113 can be cementing layer, magnetic absorption layer, organic film or nano adsorption layer.Above-mentioned 1st kind of mode, with the bond power between central supported portion 111 and peripheral conductive part 112 unlike material, even if make peripheral conductive part 112 be oxidized with the increase of service time, but fixed by the support of bond power, the be full of cracks after oxidation can be slowed down, and prevent from peeling off.Above-mentioned 2nd kind of mode, by the adhesive force of adhesive layer 113, makes peripheral conductive part 112 can fit tightly in central supported portion 111, unlikelyly to peel off after making peripheral conductive part 112 be oxidized be full of cracks.Therefore, by above-mentioned two kinds of modes, in fig. 8, even if peripheral conductive part 112 partial reaction form oxidation section 112a produce crack, but oxidation section 112a still can fit tightly peel off unlikely in central supported portion 111.When use the 2nd kind of mode, due to the adhesive force by adhesive layer 113, therefore central supported portion 111 material can there is more evolutions, such as, can use the non-metallic materials such as insulator.

Please refer to Fig. 9 and Figure 10, Fig. 9 is the air cell 100 STRUCTURE DECOMPOSITION schematic diagram according to another embodiment of the utility model.Figure 10 is the profile after combining according to the air cell 100 of the 9th figure.Air cell 100 in the present embodiment, its structure is similar but be not exclusively same as in previous embodiment the air cell 100 be applied in emergency rescue device 400.Under it is applied to the situation of different occasions.

Air cell 100 comprises body 140, anode electrode part 110, osmotic membrane layer 120, cathode electrode part 130 and detachable cell body 150.

Body 140 comprises insulation crust 141, accommodation space 142 and multiple passage 143.Accommodation space 142 is formed in insulation crust 141, and on insulation crust 141, be formed with multiple passage 143.

Anode electrode part 110 comprises central supported portion 111 and peripheral conductive part 112.Peripheral conductive part 112 binds the surperficial 111a being coated on central supported portion 111.Anode electrode part 110 is arranged in accommodation space 142 and part is exposed to the outer use for conduction of body 140.

Osmotic membrane layer 120 is coated on that anode electrode part 110 is outer and part is exposed to body 140.Osmotic membrane layer 120 is made up of the material of fluid-absorbing, and class of liquids is not limited to water.

Cathode electrode part 130 is coated on outside osmotic membrane layer 120, and cathode electrode part 130 is arranged at the position of passage 143 relatively in accommodation space 142.Cathode electrode part 130 comprise first remove pole piece 131, conductive part 132 and second removes pole piece 133.First goes pole piece 131 to have breathes freely but fluid-tight characteristic.Conductive part 132 is arranged at first and goes pole piece 131 and second to go between pole piece 133, and is electrically connected first and goes pole piece 131 and second to go pole piece 133 as the use of conduction.

Be filled with electrolyte aqueous solution 151 in detachable cell body 150, it has opening 152 and to insert in it for being exposed to the anode electrode part 110 of body 140 and osmotic membrane layer 120 and contacting electrolyte aqueous solution 151.

The work of air cell 100, first, by the absorption of osmotic membrane layer 120, makes the electrolyte aqueous solution 151 of splendid attire in detachable cell body 150 be riddled by absorption between anode electrode part 110 and cathode electrode part 130.Electrolyte aqueous solution 151 can be potassium hydroxide (KOH) or normal saline solution etc.Now, after outside air is entered by passage 143, oxygen in air forms hydroxyl ion, and contact anode electrode part 110 by the transmission of electrolyte aqueous solution 151, make the peripheral conductive part 112 of anode electrode part 110 produce oxidation reaction, and the air oxygen near script cathode electrode part 130 produce reduction reaction.In oxidation-reduction reaction process, namely can produce electronics, and then produce electric energy.

Please refer to Figure 11 and Figure 12, Figure 11 is the decomposing schematic representation of the lighting device 300 applying air cell 100 of the present utility model.Figure 12 is the combination schematic diagram of the lighting device 300 according to the 11st figure.Lighting device 300 comprises light emitting module 200 and air cell 100.Light emitting module 300 can be Organic Light Emitting Diode module or inorganic light-emitting diode module.Light emitting module 200 is electrically connected at air cell 100, connected mode is electrically connected with the cathode electrode part 130 of air cell 100 and anode electrode part 110 respectively with the positive and negative electrode of light emitting module 200 (not shown), and cathode electrode part 130 also has outstanding conductive part 132 for conduction.Osmotic membrane layer 120 and anode electrode part 110 are placed in the opening 152 of detachable cell body 150, and contact electrolyte aqueous solution 151 and can complete required electrochemical reaction; Insulation crust 140 can design if cylindric or other three-dimensional columns are to be with the installation of opening 152.It is worth mentioning that, electrolyte aqueous solution 151 like the known practice, is not sealed in closed cell body, but uses detachable cell body 150 by the utility model.So, when electrolyte aqueous solution 151 will exhaust, detachable cell body 150 can be pulled down and again loads.Further, detachable cell body 150 can select the PET bottle seen as usual, therefore can reach the convenient effect used.

More than comprehensive, the utility model provides a kind of emergency rescue device 400 being equipped with air cell 100.Utilizing the characteristic of air cell 100, the demand of emergency power can be provided at any time, solving disposable electrochemical cell because placing the problem of loss of power for a long time.Moreover, based on all right air cell 100, be assembled on lighting device 410, and borrow lighting device 410 to reoffer electric power to external device, the range of application of expansion emergency rescue device 400.

Although the utility model with embodiment openly as above; so it is not intended to limit the utility model; any those skilled in the art; not departing from spirit and scope of the present utility model; can do various different selection and amendment, therefore protection domain of the present utility model limited by claims and equivalents thereof.

Claims (23)

1. be equipped with an emergency rescue device for air cell, it is characterized in that, described in be equipped with the emergency rescue device of air cell to comprise:

Air cell;

Lighting device, it is luminous by described air cell, and described lighting device comprises filling slot;

Container, it is pre-charged with the saline solution of some volumes, wherein in use, the described saline solution in described container is filled in described filling slot and reacts to make described saline solution and described air cell and generate electricity; And

Voltage conversion device, it is arranged in described lighting device, and is electrically connected to described air cell to provide at least one output voltage.

2. be equipped with the emergency rescue device of air cell as claimed in claim 1, it is characterized in that, described saline solution is normal saline solution, and described physiological saline water concentration is 0.9% to 10%.

3. be equipped with the emergency rescue device of air cell as claimed in claim 1, it is characterized in that, described saline solution takes from seawater, stream, lake water, pond water, ditch water or PET bottle water.

4. the emergency rescue device of air cell is equipped with as claimed in claim 1, it is characterized in that, the described emergency rescue device of air cell that is equipped with also comprises bag, described bag vacuumizes for putting described lighting device and described container, and wherein said bag is plastic cement material and can reuses.

5. be equipped with the emergency rescue device of air cell as claimed in claim 4, it is characterized in that, described lighting device can be placed in be provided in water the use of throwing light in described bag, and with described bag waterproof.

6. the emergency rescue device of air cell is equipped with as claimed in claim 1, it is characterized in that, the described emergency rescue device of air cell that is equipped with also comprises filter, it is for filtering the described saline solution reacted with described air cell, and described saline solution can recycle that to react with described air cell or produce can for the recycled water promptly drunk after filtering.

7. be equipped with the emergency rescue device of air cell as claimed in claim 1, it is characterized in that, described lighting device is equiped with radio receiver module, described radio receiver module comprises the loudspeaker be arranged on described lighting device.

8. be equipped with the emergency rescue device of air cell as claimed in claim 1, it is characterized in that, described in be equipped with the emergency rescue device of air cell also to comprise:

Satellite positioning module or tracing module, it is electrically connected to described voltage conversion device.

9. be equipped with the emergency rescue device of air cell as claimed in claim 1, it is characterized in that, described voltage conversion device outwards provides described output voltage by the USB interface be arranged on described lighting device.

10. the emergency rescue device of air cell is equipped with as claimed in claim 1, it is characterized in that, described lighting device comprises insulation crust, spacer portion is formed in described insulation crust, the relatively described spacer portion of described filling slot is configured in described insulation crust, and some passages are configured with on described insulation crust, described some passages are to tilt to run through and arranged in parallel and formed.

11. emergency rescue devices being equipped with air cell as claimed in claim 10, it is characterized in that, described air cell comprises:

Anode electrode part, it comprises the peripheral conductive part that central supported portion and bonding are coated on described central supported portion, and described anode electrode part is arranged in described filling slot and part is exposed to the use of described spacer portion for conduction; And

Cathode electrode part, described cathode electrode part is arranged in described filling slot and the position of close described some passages.

12. emergency rescue devices being equipped with air cell as claimed in claim 11, it is characterized in that, described air cell also comprises osmotic membrane layer, and it is coated on outside described anode electrode part.

13. emergency rescue devices being equipped with air cell as claimed in claim 11, it is characterized in that, described central supported portion material is iron or cobalt.

14. emergency rescue devices being equipped with air cell as claimed in claim 11, it is characterized in that, described peripheral conductive part material is magnesium.

15. emergency rescue devices being equipped with air cell as claimed in claim 11, it is characterized in that, described cathode electrode part comprises:

First removes pole piece, and it is arranged at relatively near described insulation crust, and it is ventilative but waterproof;

Second removes pole piece, and it is arranged at relatively near described osmotic membrane layer; And

Conductive part, it is arranged at described first and goes pole piece and described second to go between pole piece, and described conductive part is electrically connected described first and goes pole piece and described second to remove pole piece.

16. emergency rescue devices being equipped with air cell as claimed in claim 10, it is characterized in that, described lighting device also comprises light emitting module, and described light emitting module coordinates described spacer portion to assemble.

17. emergency rescue devices being equipped with air cell as claimed in claim 16, it is characterized in that, described light emitting module uses inorganic LED light source or organic LED light source.

18. emergency rescue devices being equipped with air cell as claimed in claim 10, it is characterized in that, described spacer portion is equipped with the female cap nut made with stainless steel, and the one end in described central supported portion can by thread lock to described female cap nut.

19. emergency rescue devices being equipped with air cell as claimed in claim 17, it is characterized in that, described light emitting module comprises circuit board, and described circuit board is electrically connected described voltage conversion device, and described circuit board also configures boosting IC to provide the described output voltage of 5V.

20. emergency rescue devices being equipped with air cell as claimed in claim 17, it is characterized in that, described anode electrode part is electrically connected the negative pole of described light emitting module by described female cap nut, and described cathode electrode part is electrically connected the positive pole of described light emitting module by copper sheet.

21. emergency rescue devices being equipped with air cell as claimed in claim 20, it is characterized in that, described anode electrode part is electrically connected the described negative pole of described female cap nut and described light emitting module by elastic component.

22. emergency rescue devices being equipped with air cell as claimed in claim 11, is characterized in that, also comprise adhesive layer between described central supported portion and described peripheral conductive part, the bonding described central supported portion of described adhesive layer and described peripheral conductive part.

23. emergency rescue devices being equipped with air cell as claimed in claim 11, it is characterized in that, described adhesive layer is cementing layer, magnetic absorption layer, organic film or nano adsorption layer.