CN109562835A - A kind of power device and flight wing suit with power device - Google Patents

Abstract

A kind of power device and the flying wing dress with power device, including control regulator (8) and sequentially connected high-oxygen water storeroom (1), catalytic reduction reaction room (9), it sprays piggyback pod (3), control regulator (8) is for regulating and controlling to be flowed into the high-oxygen water stoste of catalytic reduction reaction room (9) by high-oxygen water storeroom (1), the high-oxygen water stoste being stored in high-oxygen water storeroom (1), into after catalytic reduction reaction room (9), reduction reaction occurs in catalytic reduction reaction room (9), generated injection kinetic energy forms motive force by injection piggyback pod (3) in reduction reaction.Due to using high-oxygen water as the raw material for generating power, it can avoid in Traditional Transportation power as using the problem of environmental pollutions such as exhaust emissions brought by fossil fuel, to realize the cleaning power of no pollution, especially injection power is provided in rarefaction of air or lack oxygen in the environment of alternative fossil fuel, power device and flying wing assembling structure with power device are simple, it is at low cost, it is environmental-friendly, facilitate installation.

Description

A kind of power device and the flying wing clothes with power device

A kind of power device and the flying wing with power device take technical field

[0001] the flying wing dress this application involves aircraft more particularly to a kind of power device and with power device.

[0002] background technique

[0003] coal, oil and natural gas generate thermal energy and oxidation reaction burning occurs with oxygen in air and then provide power as carbon containing or hydrocarbon fossil fuel.Due in fossil fuel carbon, sulphur and other impurities in air oxygen, nitrogen reacts at high temperature can generate the pernicious gases such as carbon dioxide, sulfur dioxide, oxynitrides, and bring and cause the environmental problems such as Global climate change greenhouse effects, acid rain and soil denaturation, air photochemical pollution, largely destroy the ecological balance of the earth and the survival condition of the mankind.As the long-range consideration of energy security, the mankind there is an urgent need to find it is a kind of pollute small fungible energy source, especially in the field for applying the energy as transportation power.

[0004] liquid fossil-fuel fuel combination is to need sufficient oxygen supply ability normal combustion and work, as the activity space of the mankind is constantly expanded to the outer space and deep-sea, these local rarefaction of air even complete anoxics, conventional fossil fuel can not burn to losing use, this just needs a kind of not depending on oxidation reaction under anaerobic condition still and can provide the energy supply new model of power.

[0005] summary of the invention

[0006] the application provides a kind of power device and the flying wing dress with power device.

[0007] according to a first aspect of the present application, the application provides a kind of power device, including control regulator and sequentially connected high-oxygen water storeroom, catalytic reduction reaction room, spray piggyback pod, the control regulator is for regulating and controlling to flow into the high-oxygen water stoste of the catalytic reduction reaction room by the high-oxygen water storeroom, the high-oxygen water stoste being stored in the high-oxygen water storeroom, into after the catalytic reduction reaction room, reduction reaction occurs in the catalytic reduction reaction room, generated injection kinetic energy forms motive force by the injection piggyback pod in reduction reaction.

[0008] according to a second aspect of the present application, the application provides a kind of flying wing dress with power device, including flying wing clothes and flight monitor, it further include above-mentioned power device, on flying wing clothes, the power device is used to that catalytic reduction reaction room to occur by high-oxygen water stoste for the flight monitor and power device setting Afterwards, for generated injection kinetic energy by driving the flying wing dress, the flight monitor regulates and controls the flying speed of the flying wing dress for regulating and controlling the size of injection kinetic energy.

[0009] due to using above technical scheme, the beneficial effect for having the application is:

[0010] in a specific embodiment of the present application, due to using high-oxygen water as the raw material for generating power, it can avoid in Traditional Transportation power as using the problem of environmental pollutions such as exhaust emissions brought by fossil fuel, to realize the cleaning power of no pollution, injection power especially is provided in rarefaction of air or lack oxygen in the environment of alternative fossil fuel, the application structure is simple, at low cost, it is environmental-friendly, facilitate installation.

[0011] Detailed description of the invention

[0012] Fig. 1 is the structural schematic diagram of the power device of the application in one embodiment；

[0013] Fig. 2 is the functional block diagram of the control regulator of the application in one embodiment；

[0014] Fig. 3 is the structural schematic diagram of flying wing dress in one embodiment with power device of the application.

[0015] specific embodiment

[0016] the application is described in further detail below by specific embodiment combination attached drawing.

[0017] the application proposes the injection kinetic energy discharged in catalytic reduction reaction using multi-oxygen water, and based on the discharged Dynamic characteristic of the chemical reaction it is completely new utilize thinking, in order to improve the content of oxygen element in unit volume multi-oxygen water to promote the intensity of releasable kinetic energy, the application is using the multi-oxygen water of high concentration as acting working medium, its concentration requires >=5%, to distinguish in the market as medical disinfecting water and civilian low concentration hydrogen peroxide, and the multi-oxygen water of this high concentration is known as " high-oxygen water ".Due to that can not only discharge newborn oxygen gasified new unboiled water in high-oxygen water morning catalytic reduction reaction and form injection kinetic energy, and there is no the substance of any poisonous and harmful element in product, is completely environmentally protective process, therefore the injection kinetic energy of referred to here as no pollution.

[0018] embodiment one:

[0019] as shown in Figure 1, the power device of the application, a kind of its embodiment, including control regulator 8, high-oxygen water storeroom 1, catalytic reduction reaction room 9, spray piggyback pod 3, high-oxygen water storeroom 1, catalytic reduction reaction room 9, injection piggyback pod 3 is sequentially connected, control regulator 8 is for regulating and controlling to be flowed into the high-oxygen water stoste of catalytic reduction reaction room by high-oxygen water storeroom, the high-oxygen water stoste being stored in high-oxygen water storeroom 1, into after the catalytic reduction reaction room 9, reduction reaction occurs in catalytic reduction reaction room 9, generated injection kinetic energy forms motive force by injection piggyback pod 3 in reduction reaction.In one embodiment, high-oxygen water storeroom is equipped with feed inlet 0, and catalytic reduction reaction room 9 can be equipped with switching mouth 6, and switching mouth 6 is for putting into or removing catalyst. [0020] in one embodiment, control regulator 8 may include terminal and the disconnected valve 4 of stoste Jian, terminal includes processor 203, stoste Jian breaks the setting of valve 4 between high-oxygen water storeroom 1 and catalytic reduction reaction room 9, and processor 203 is used to control the disconnected valve of stoste Jian according to the instruction of user.

[0021] in one embodiment, the also packet flow-rate adjustment pump 5 of control regulator 8, flow-rate adjustment pump 5 is also disposed between high-oxygen water storeroom 1 and catalytic reduction reaction room 9, flow-rate adjustment pump 5 is connected with the disconnected valve 4 of stoste Jian, and processor 203 is also used to control flow-rate adjustment pump 5 according to the instruction of user.

[0022] in another embodiment, flow-rate adjustment pump 5 can be equipped with multiple regulation stalls including 0 to MAX, and terminal is also used to control flow-rate adjustment pump according to the instruction of user, to adjust the flow of high-oxygen water.

[0023] as shown in Figure 2, the terminal of the application can also include running state parameter sampling input module 201, control instruction parameter input module 202, processor 203, control parameter output module 204 and communication module 205, the input terminal of processor 203 samples input module 201 with running state parameter and 202 both-way communication of control instruction parameter input module is connect, and the output end of processor 203 is connect with control parameter output module 204 and 205 both-way communication of communication module.Running state parameter samples input module 201 for the liquid level size of hyperoxia aqueous solution in high-oxygen water storeroom 1, the parameters such as flow rate pump size are input to processor 203, control instruction parameter input module 202 is by device starting/stopping, the order parameters such as injection power acceleration/deceleration are input to processor 203, signal sent respectively stoste Jian break valve 4 by control parameter output module 204 after the processing of processor 203, flow-rate adjustment pump 5 is with the combustion adjustment of realization device, so that the jet power plant and the application system where it are connected.Upper server 206 is connect by wired or wireless mode with communication module 205, and user can also send to send to processor 203 and instruct by upper server 206 through communication module 205.

[0024] the injection piggyback pod 3 of the application uses bell-mouth structure of air, the input terminal of injection piggyback pod 3 is connect with the output end of catalytic reduction reaction room 9, the mixture of generated new unboiled water and newborn oxygen in reduction reaction, osculum end through the injection piggyback pod 3 enters injection piggyback pod 3, and generates the motive force advanced by big opening end and external agency interaction.

[0025] embodiment two:

[0026] as shown in Figure 3, the flying wing dress with power device of the application, a kind of its embodiment, 18 are taken including flying wing, power device in flight monitor 12 and embodiment one, flight monitor 12 and power device setting take on 18 in flying wing, after power device is used to that catalytic reduction reaction to occur by high-oxygen water stoste, generated injection kinetic energy by driving flying wing to fill 18, flight monitor 12 for regulate and control to spray the size of kinetic energy with Regulation flying wing fills 18 flying speed.Control regulator 8 in the present embodiment in power device can be separately provided, and an entirety can also be embodied by with flight monitor 12.

[0027] the flying wing dress with power device of the application, it can also include knapsack 21, knapsack 21 includes backpack body, harness 17 and waistband 16, backpack body bottom is equipped with Jian mouthfuls, power setting part is placed in backpack body and injection piggyback pod 3 is placed in outside backpack body by Jian mouthfuls, and harness 17 and waistband 16 are used to backpack body being strapped in flying wing and take 18.

[0028] in one embodiment, flying wing, which takes 18, can be integral structure.The oxter that flying wing takes 18 can be equipped with batswing tab 19, and flying wing, which take, can be equipped with connection empennage 20 under 19 crotch.

[0029] flight monitor 12 includes flight monitoring box, hand controller 13 and digital display and voice unit (VU) (not shown), flight monitoring box 12, the monitoring of real inch, the adjustment of flow control valve and the display of process status parameter, hand controller and digital display for flight status parameter are connect with flight monitoring box 12 respectively with voice unit (VU).

[0030] flight monitoring box 12, hand controller 13 and clothing built-in earphone 14 collectively constitute flight monitor to realize flight course monitoring and safety instruction, wherein, flight monitoring box 12 is in addition to having the fore-telling of the basic circuit structure sunset of terminal in upper example, running state parameter therein sampling input module include it is all kinds of can real inch acquisition data sensor, it can be achieved to include flying height, flying speed, between flight inch, ambient temperature and humidity, the monitoring of the state parameters such as flying power starting material left content, and it realizes when receiving the instruction of hand controller 13 to flow control valve reality inch on-line control, the power supply of flight monitor 12 is integrally supplied by battery.Flight monitoring box 12, which is bundled on waistband 16, to be placed in front of human body, it can be seen that the state parameter shown on flight monitoring box 12 by eye to facilitate to wait in flight inch, it can be selected flight status parameter by hand controller 13 through the earphone 14 of built-in clothing to aviator's acoustic notifications, even if the safety instruction of especially surplus stock, which is conducive to aviator, adjusts countermeasures, for convenience of flight, hand controller answers small and exquisite and can be placed in the blind operation of implementation in the transparent tiny pocket of the centre of the palm.

[0031] the foregoing is a further detailed description of the present application in conjunction with specific implementation manners, and it cannot be said that the specific implementation of the application is only limited to these instructions.For those of ordinary skill in the art to which this application belongs, without departing from the concept of this application, a number of simple deductions or replacements can also be made.

Technical problem

Solution to the problem

Advantageous effect of the invention

Claims (1)

1. Claims

   A kind of [claim 1] power device, it is characterized in that, including control regulator and sequentially connected high-oxygen water storeroom, catalytic reduction reaction room, spray piggyback pod, the control regulator is for regulating and controlling to flow into the high-oxygen water stoste of the catalytic reduction reaction room by the high-oxygen water storeroom, the high-oxygen water stoste being stored in the high-oxygen water storeroom, into after the catalytic reduction reaction room, reduction reaction occurs in the catalytic reduction reaction room, generated injection kinetic energy forms motive force by the injection piggyback pod in reduction reaction.

   [claim 2] power device as described in claim 1, it is characterized in that, the control regulator includes terminal and the disconnected valve of stoste Jian, the stoste Jian breaks valve setting between the high-oxygen water storeroom and catalytic reduction reaction room, and the terminal is used to control the disconnected valve of the stoste Jian according to the instruction of user.

   [claim 3] power device as claimed in claim 2, it is characterized in that, the control regulator further includes flow-rate adjustment pump, the flow-rate adjustment pump is connected with the disconnected valve of the stoste Jian, and the processor is also used to control the flow-rate adjustment pump according to the instruction of user.

   [claim 4] power device as described in claim 1, it is characterized in that, the control regulator includes flow-rate adjustment pump, stoste Jian described in the flow-rate adjustment pump breaks valve setting between the high-oxygen water storeroom and catalytic reduction reaction room, the flow-rate adjustment pump is equipped with multiple regulation stalls including 0 to MAX, and the terminal is for controlling the flow-rate adjustment pump according to the instruction of user

   The power device of [claim 5] as described in any one of claim 2-4, it is characterized in that, the terminal includes processor, running state parameter samples input module, control instruction parameter input module, control parameter output module and communication module, the input terminal of the processor samples input module with running state parameter and control instruction parameter input module both-way communication is connect, the output end of the processor is connect with control parameter output module and communication module both-way communication, the processor controls the disconnected valve of the stoste Jian and the flow-rate adjustment pump by the output of the control parameter output module.

   [claim 6] such as power device of any of claims 1-4, which is characterized in that the injection piggyback pod uses bell-mouth structure of air, the input terminal and the catalytic reduction reaction of the injection piggyback pod The output end of room connects, the mixture of generated new unboiled water and newborn oxygen in reduction reaction, and the osculum end through the injection piggyback pod enters the injection piggyback pod, and generates the motive force advanced by big opening end and external agency interaction.

   Power device as claimed in claim 6, which is characterized in that the high-oxygen water storeroom is equipped with feed inlet.

   Power device as claimed in claim 6, which is characterized in that the catalytic reduction reaction room is equipped with the switching mouth for putting into or removing catalyst.

   A kind of flying wing dress with power device, it is taken including flying wing, it is characterized in that, it further include flight monitor and such as power device described in any item of the claim 1 to 8, the flight monitor and power device setting are on flying wing clothes, generated injection kinetic energy drives the flying wing dress after the power device is used to occur by high-oxygen water stoste catalytic reduction reaction, and the flight monitor regulates and controls the flying speed of the flying wing dress for regulating and controlling the size of injection kinetic energy.

   Flying wing as claimed in claim 9 with power device fills, it is characterized in that, it further include knapsack, the knapsack includes backpack body, harness and waistband, the backpack body bottom is equipped with Jian mouthfuls, the power setting part is placed in the backpack body and the injection piggyback pod is placed in outside the backpack body by described Jian mouthfuls, and the harness and the waistband are used to for the backpack body to be strapped in the flying wing and take.

   Flying wing as claimed in claim 9 with power device fills, which is characterized in that the flying wing clothes are integrated.

   Flying wing as claimed in claim 9 with power device fills, which is characterized in that the oxter of the flying wing clothes sets batswing tab.

   Flying wing as claimed in claim 12 with power device fills, which is characterized in that the crotch of the flying wing clothes has connection empennage.

   Flying wing as claimed in claim 9 with power device fills, it is characterized in that, the flight monitor includes flight monitoring box, hand controller and digital display and voice unit (VU), the flight monitors box, for the monitoring of real inch, the adjustment of flow control valve and the display of process status parameter of flight status parameter, the flight monitor box, hand controller and the digital display and voice unit (VU) respectively with The processor connection