CN113137294A

CN113137294A - Integrated multifunctional integrated gas power generation system

Info

Publication number: CN113137294A
Application number: CN202110449691.3A
Authority: CN
Inventors: 郭�东; 赖志雄
Original assignee: Guangzhou Shenfa Electromechanical Industry Development Co ltd
Current assignee: Guangzhou Shenfa Electromechanical Industry Development Co ltd
Priority date: 2021-04-25
Filing date: 2021-04-25
Publication date: 2021-07-20
Anticipated expiration: 2041-04-25
Also published as: CN113137294B

Abstract

The invention provides an integrated multifunctional integrated gas power generation system which comprises a box body, wherein an air inlet device and an air outlet device are arranged on the side wall of the box body, a gas generator and a waste gas treatment device are fixedly connected to the bottom in the box body, a fan and a louver are arranged in the air inlet device, an oxygen supply mechanism is arranged in the gas generator, the gas generator is communicated with the left wall of the box body through a first air inlet pipe, a gas leakage detection device is arranged at the joint of the gas generator and the first air inlet pipe, the gas generator is connected with the waste gas treatment device through a first air outlet pipe, the waste gas treatment device is communicated with the right wall of the box body through a second air outlet pipe, and a controller used for controlling the gas power generation system is further arranged in the box body. The invention can improve the combustion power generation efficiency and can detect whether the natural gas leaks.

Description

Integrated multifunctional integrated gas power generation system

Technical Field

The invention relates to the technical field of power generation, in particular to an integrated multifunctional integrated gas power generation system.

Background

The natural gas belongs to one of the gas, and the natural gas power generation at present is a technology of converting heat energy into electric energy by burning the natural gas, and the current gas power generation system has the following defects:

1. insufficient combustion of the gas results in waste of resources and low power generation efficiency.

2. The joint of the gas pipe and the generator is easy to cause gas leakage, and safety accidents and resource waste are easily caused when the joint is not discovered in time.

3. The container box air intake of loading power generation system generally is fixed knot structure, can't close, even if also be in the open mode when not starting always, is unfavorable for the heat preservation in the box in extremely cold north like this, and the low temperature just can cause the engine to start the difficulty. In bad weather such as sand storm, typhoon, rainstorm, etc., sand, dust, sundries and rainwater may enter the box body from the air inlet to cause damage to the engine and the generator. It also increases the likelihood of rats and some insects entering the device causing injury.

Disclosure of Invention

Aiming at the technical problems, the invention aims to provide an integrated multifunctional integrated gas power generation system, which is realized by adopting the following technical scheme for solving the technical problems:

an integrated multifunctional integrated gas power generation system comprises a box body, wherein an air inlet device and an air outlet device are arranged on the side wall of the box body, a gas generator and a waste gas treatment device are fixedly connected to the bottom in the box body, a fan and a shutter are arranged in the air inlet device, an oxygen supply mechanism is arranged in the gas generator, the gas generator is communicated with the left wall of the box body through a first air inlet pipe, a gas leakage detection device is arranged at the joint of the gas generator and the first air inlet pipe, the gas generator is connected with the waste gas treatment device through a first air outlet pipe, and the waste gas treatment device is communicated with the right wall of the box body through a second air outlet pipe;

and a controller for controlling the gas power generation system is also arranged in the box body.

Beneficially, a combustion cavity and an oxygen supply cavity are formed in the generator, the combustion cavity is communicated with the oxygen supply cavity through a heat transfer hole, and the oxygen supply mechanism is arranged in the oxygen supply cavity;

the oxygen supply mechanism comprises an elastic ball body, a packing box and a reaction box, wherein the elastic ball body is fixedly connected to the top wall of the oxygen supply cavity, the bottom of the elastic ball body is fixedly connected with a push rod, the lower end of the push rod abuts against the top of the packing box, the left wall of the packing box is connected with the left wall of the oxygen supply cavity through a first elastic part, and the right wall of the packing box is connected with the right wall of the oxygen supply cavity through another first elastic part;

offer storage cavity and first transmission chamber in the gland packing, potassium permanganate powder is equipped with in the storage cavity, the storage cavity passes through discharge opening and gland packing right wall intercommunication, the discharge opening slope sets up, first transmission chamber passes through first through-hole and gland packing bottom intercommunication, first through-hole from top to bottom runs through the discharge opening, first transmission intracavity is equipped with the swinging arms, the swing gears, straight-gear and slip rack, the swinging arms upper end is articulated through articulated portion and first transmission chamber roof, swinging arms lower extreme and swing gears rigid coupling, the straight-gear passes through axis of rotation and first transmission chamber back wall and rotates the connection, swing gears and straight gear meshing, slip rack and first transmission chamber right wall sliding connection, first connecting hole has been seted up on the slip rack, slip rack and straight gear meshing, slip rack lower extreme extends to in the first through-hole, the reaction box rigid coupling is in oxygen supply chamber bottom.

Beneficially, a partition plate is erected in the gas leakage detection device, the partition plate divides the gas leakage detection device into an upper cavity and a lower cavity, a second transmission cavity is formed in the partition plate, a second through hole is formed in the partition plate, the second transmission cavity is communicated with the second through hole through a second connecting hole, the left wall of the second transmission cavity is fixedly connected with an inflating device, the inflating device is connected with an inflating airbag, a sliding plate is slidably connected in the second connecting hole, and the left end of the sliding plate extends into the second transmission cavity;

the epicoele right wall is equipped with flame sensor and ignition ware, and the ventilation hole has been seted up to the epicoele left wall, cavity of resorption left wall and right wall are run through in proper order to first intake pipe right-hand member, and first intake pipe right-hand member with gas generator connects.

Beneficially, a third through hole is formed in the air inlet device, a U-shaped hole is formed in the top of the third through hole, the left end of the U-shaped hole is communicated with the top of the third through hole, the right end of the U-shaped hole is communicated with the top of the third through hole, the fan and the shutter are arranged in the third through hole, and a wind power transmission mechanism is arranged in the U-shaped hole;

wind power transmission mechanism includes the foam block, the head rod, the second connecting rod, second elastic component and third connecting rod, second connecting rod right-hand member and head rod upper end are connected, head rod lower extreme and foam block rigid coupling, the foam block top is plane, the foam block bottom is the curved surface form, the head rod lower extreme extends to in the third through hole, second connecting rod left end and third connecting rod upper end rigid coupling, third connecting rod lower extreme extends to in the shutter, and all vanes in third connecting rod and the shutter are connected, second connecting rod top is passed through second elastic component and U type hole top and is connected.

Advantageously, an alarm is fixedly connected to the outer wall of the gas leakage detection device.

Advantageously, the igniter is provided above the flame sensor.

Advantageously, a wireless transceiver is provided on the controller.

Beneficially, the gas generator is connected to the bottom of the tank body through a vibration-proof base.

The invention has the following beneficial effects:

1. the invention utilizes the igniter and the flame sensor to quickly detect whether natural gas leakage occurs, the detection is accurate and quick, the sliding plate is quickly sealed on the second through hole through the inflating device and the inflating airbag, flame is prevented from spreading to the first air inlet pipe, and the invention is safe and reliable;

2. according to the principle of thermal expansion and cold contraction, the elastic ball body drives the push rod and the packing box to move, so that the swing gear moves under the action of gravity to drive the straight gear and the sliding rack to move, potassium permanganate powder is gradually and automatically added into the reaction box to generate oxygen, the potassium permanganate powder is heated by using the heat of the combustion chamber, the potassium permanganate powder is promoted to react to generate oxygen by using the heat of natural gas, resources are saved, and the design is ingenious;

3. by utilizing the relation between the flow rate and the pressure, when the fan is started, gaps are automatically generated between the window leaves through the design of the special shape of the foam block, the window leaves are automatically closed after the fan stops working, no electric part is required to be additionally installed to control the window blind, the power is saved, and the fan is environment-friendly and economical.

Drawings

The invention is further illustrated by means of the attached drawings, but the embodiments in the drawings do not constitute any limitation to the invention, and for a person skilled in the art, other drawings can be obtained on the basis of the following drawings without inventive effort.

FIG. 1 is a schematic structural diagram of an integrated multifunctional integrated gas power generation system of the present invention;

FIG. 2 is an enlarged cross-sectional view of the gas generator of FIG. 1 of the present invention at A;

FIG. 3 is an enlarged view of the gas generator of FIG. 2 of the present invention at B;

FIG. 4 is a schematic view showing the construction of the gas leakage detecting device according to the present invention;

fig. 5 is a schematic structural view of the air intake device of the present invention.

Reference numerals: the device comprises a box body 1, a shockproof base 2, a gas generator 3, a combustion chamber 31, a heat transfer hole 32, an oxygen supply chamber 33, an elastic ball 34, a push rod 35, a stuffing box 36, a storage chamber 361, potassium permanganate powder 3611, a first transmission chamber 362, a hinge portion 3621, a swing rod 3622, a swing gear 3623, a straight gear 3624, a rotating shaft 3625, a sliding rack 3626, a first connecting hole 3627, a discharge hole 363, a first through hole 364, a reaction chamber 37, a first elastic part 38, a gas leakage detection device 4, a lower chamber 41, a vent hole 411, an upper chamber 42, a partition plate 43, a second through hole 44, a second connecting hole 45, a sliding plate 451, a second transmission chamber 46, an inflation device 461, an inflation airbag 462, a flame sensor 47, an igniter 48, an alarm 49, a first air inlet pipe 5, an exhaust gas treatment device 6, a first air outlet pipe 7, a second air outlet pipe 8, an air inlet device 9, a third through hole 91, a U-shaped hole 92 and a fan 93, the air conditioner comprises a foam block 94, a first connecting rod 95, a second connecting rod 96, a second elastic piece 97, a third connecting rod 98, a shutter 99, a window vane 991, an air outlet device 10, a wireless transceiver 11 and a controller 12.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, "first," "second," "third," and "fourth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be further noted that, unless otherwise specifically stated or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, integrally connected, mechanically connected, electrically connected, directly connected, connected through an intermediate medium, or connected through the insides of two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

As shown in fig. 1-5, an integrated multifunctional integrated gas power generation system comprises a box body 1, wherein a wind inlet device 9 and a wind outlet device 10 are arranged on the side wall of the box body 1, a gas generator 3 and a waste gas treatment device 6 are fixedly connected to the bottom of the box body 1, a fan 93 and a louver 991 are arranged in the wind inlet device 9, an oxygen supply mechanism is arranged in the gas generator 3, the gas generator 3 is communicated with the left wall of the box body 1 through a first air inlet pipe 5, a gas leakage detection device 4 is arranged at the joint of the gas generator 3 and the first air inlet pipe 5, the gas generator 3 is connected with the waste gas treatment device 6 through a first air outlet pipe 7, and the waste gas treatment device 6 is communicated with the right wall of the box body 1 through a second air outlet pipe 8;

the box body 1 is also internally provided with a controller 12 for controlling the gas power generation system.

According to an alternative embodiment of the present invention, a combustion chamber 31 and an oxygen supply chamber 33 are formed in the generator 3, the combustion chamber 31 is communicated with the oxygen supply chamber 33 through a heat transfer hole 32, and the oxygen supply mechanism is arranged in the oxygen supply chamber 33;

the oxygen supply mechanism comprises an elastic ball 34, a packing box 36 and a reaction box 37, wherein the elastic ball 34 is fixedly connected to the top wall of the oxygen supply cavity 33, the bottom of the elastic ball 34 is fixedly connected with a push rod 35, the lower end of the push rod 35 abuts against the top of the packing box 36, the left wall of the packing box 36 is connected with the left wall of the oxygen supply cavity 33 through a first elastic piece 38, and the right wall of the packing box 36 is connected with the right wall of the oxygen supply cavity 33 through another first elastic piece 38;

a storage cavity 361 and a first transmission cavity 362 are arranged in the stuffing box 36, potassium permanganate powder 3611 is filled in the storage cavity 361, the storage cavity 361 is communicated with the right wall of the stuffing box 36 through a discharge hole 363, the discharge hole 363 is obliquely arranged, the first transmission cavity 362 is communicated with the bottom of the stuffing box 36 through a first through hole 364, the first through hole 364 penetrates through the discharge hole 363 from top to bottom, a swing rod 3622, a swing gear 3623, a straight gear 3624 and a sliding rack 3626 are arranged in the first transmission cavity 362, the upper end of the swing rod 3622 is hinged with the top wall of the first transmission cavity 362 through a hinge portion 3621, the lower end of the swing rod 3622 is fixedly connected with the swing gear 3623, the straight gear 3624 is rotatably connected with the rear wall of the first transmission cavity 362 through a rotating shaft 3625, the swing gear 3623 is meshed with the straight gear 3624, the sliding rack 3626 is slidably connected with the right wall of the first transmission cavity 362, a first connecting hole 3627 is formed in the sliding rack 3626, and the sliding rack 3624 is meshed with the straight gear 3624, the lower end of the sliding rack 3626 extends into the first through hole 364, and the reaction box 37 is fixedly connected to the bottom of the oxygen supply chamber 33.

According to an alternative embodiment of the present invention, a partition plate 43 is erected inside the gas leakage detection device 4, the partition plate 43 divides the gas leakage detection device 4 into an upper chamber 42 and a lower chamber 41, a second transmission chamber 46 is formed inside the partition plate 43, a second through hole 44 is formed in the partition plate 43, the second transmission chamber 46 is communicated with the second through hole 44 through a second connecting hole 45, an inflation device 461 is fixedly connected to a left wall of the second transmission chamber 46, an inflation airbag 462 is connected to the inflation device 461, a sliding plate 451 is slidably connected to the second connecting hole 45, and a left end of the sliding plate 451 extends into the second transmission chamber 46;

upper chamber 42 right side wall is equipped with flame sensor 47 and igniter 48, and ventilation hole 411 has been seted up to upper chamber 42 left side wall, the 5 right-hand members of first intake pipe run through 41 left side walls and right side walls in the lower chamber in proper order, and 5 right-hand members of first intake pipe with gas generator 3 connects.

According to an optional embodiment of the present invention, a third through hole 91 is formed in the air intake device 9, a U-shaped hole 92 is formed at the top of the third through hole 91, the left end of the U-shaped hole 92 is communicated with the top of the third through hole 91, the right end of the U-shaped hole 92 is communicated with the top of the third through hole 91, the fan 93 and the louver 99 are disposed in the third through hole 91, and a wind power transmission mechanism is disposed in the U-shaped hole 92;

the wind power transmission mechanism comprises a foam block 94, a first connecting rod 95, a second connecting rod 96, a second elastic piece 97 and a third connecting rod 98, the right end of the second connecting rod 96 is connected with the upper end of the first connecting rod 95, the lower end of the first connecting rod 95 is fixedly connected with the foam block 94, the top of the foam block 94 is planar, the bottom of the foam block 94 is curved, the lower end of the first connecting rod 95 extends into a third through hole 91, the left end of the second connecting rod 96 is fixedly connected with the upper end of the third connecting rod 98, the lower end of the third connecting rod 98 extends into a louver 99, all the louvers 991 in the third connecting rod 98 and the louver 99 are connected, and the top of the second connecting rod 96 is connected with the top of the U-shaped hole 92 through the second elastic.

In an alternative embodiment of the present invention, an alarm 49 is fixed to an outer wall of the gas leakage detecting device 4.

In an alternative embodiment of the invention, the igniter 48 is provided above the flame sensor 47.

In an alternative embodiment of the present invention, the controller 12 is provided with a wireless transceiver 11.

In an alternative embodiment of the present invention, the gas generator 3 is connected to the bottom of the housing 1 through a vibration-proof base 2.

The implementation process comprises the following steps: in the natural gas got into box 1 from first intake pipe 5, at first revealed detection device 4 through the gas, reentrant gas generator 3, gas generator 3 generates electricity through burning natural gas, and the waste gas of production passes through exhaust treatment device 6 and handles the back, discharges to box 1 outside through second outlet duct 8.

The working principle of the gas leakage detection device 4 is as follows: if natural gas leaks at the joint of the first air inlet pipe 5 and the gas generator 3, the leaked natural gas can enter the lower cavity 41, a small amount of natural gas can enter the upper cavity 42 through the second through hole 44, because the igniter 48 can make sparks at intervals, the sparks can ignite the small amount of natural gas entering the upper cavity 42, after the flame sensor 47 detects flame, the controller 12 rapidly controls the inflator 461 to inflate the inflatable airbag 462, the inflatable airbag 462 expands and pushes the sliding plate 451 to the right, so that the second through hole 44 is closed, the flame is prevented from spreading to the lower cavity 41 to cause dangerous accidents, meanwhile, the controller 12 can control the alarm 49 to give an alarm sound and control the wireless transceiver 11 to send information to the terminal equipment of a user, and the user is reminded of dealing with the natural gas leakage situation in time. The right end of the sliding plate 451 may be provided with a sealing silicone rubber 452 to improve the sealing property when the second through hole 44 is closed.

The working principle of the gas generator 3 is as follows: as shown in fig. 2-3, natural gas is combusted in the combustion chamber 31, heat enters the oxygen supply chamber 33 through the heat transfer hole 32, the gas capable of expanding with heat and contracting with cold in the elastic ball 34 expands after being heated, so that the elastic ball 34 expands, the push rod 35 is driven to push the stuffing box 36 downwards, the stuffing box 36 tilts towards the right, the swing gear 3623 swings towards the right under the action of gravity, the spur gear 3624 rotates clockwise, the spur gear 3624 drives the sliding rack 3626 to move downwards, the first connection hole 3627 is aligned with the discharge hole 363, so that the discharge hole 363 is communicated, potassium permanganate powder 3611 powder in the storage chamber 361 gradually falls into the reaction chamber 37 along the inclined discharge hole 363, the potassium permanganate powder 3611 is heated by the heat from the combustion chamber in the reaction chamber 37, oxygen is gradually generated, the oxygen enters the combustion chamber through the heat transfer hole 32 to increase the combustion efficiency of the natural gas, and the natural gas is combusted more fully, the power generation efficiency is improved.

When combustion is stopped in the combustion chamber, the temperature in the oxygen supply chamber 33 becomes low gradually, the elastic ball 34 is reduced gradually, the stuffing box 36 returns to the horizontal state after being pushed by the push rod 35, the swing gear 3623 moves leftwards to return to the natural drooping state, meanwhile, the straight gear 3624 drives the sliding rack 3626 to move upwards, the first connecting hole 3627 is made to move upwards, the discharge hole 363 is closed again, the potassium permanganate powder 3611 stops being added into the reaction box 37, the potassium permanganate powder 3611 is prevented from being heated by waste heat, and waste of resources is caused.

The stuffing box 36 and the sliding rack 3626 can be made of materials with high heat insulation, so that the potassium permanganate powder 3626 in the storage cavity 361 is prevented from being heated.

The working principle of the air inlet device 9 is as follows: open fan 93, wind blows towards foam block 94 direction, and foam block 94 top is the curved surface, and the below is the plane, and the big pressure of top velocity of flow is little, and foam block 94 up moves under pressure, drives head rod 95, second connecting rod 96, third connecting rod 98 up move simultaneously, and third connecting rod 98 upwards stimulates the left end of window leaf 991, makes to produce the gap between the adjacent window leaf 991 to in the external wind gets into box 1. After the fan 93 stops working, the wind power transmission mechanism moves downwards under the action of gravity to close the adjacent window leaves 991, so that dust, small animals and the like are prevented from entering the box body 1.

The shock mount 2, inflator 461, flame sensor 47, igniter 48, alarm 49, exhaust gas treatment device 6, fan 93, wireless transceiver 11 and controller 12 are all common standard components or components known to those skilled in the art, the structure and principles of which are known to those skilled in the art through technical manuals or through routine experimentation.

The invention utilizes the igniter 48 and the flame sensor 47 to rapidly detect whether natural gas leakage occurs, the detection is accurate and rapid, the sliding plate 451 is rapidly sealed on the second through hole 44 through the inflating device 461 and the inflating airbag 462, the flame is prevented from spreading to the first air inlet pipe 5, and the invention is safe and reliable; by the principle of thermal expansion and cold contraction, the elastic ball 34 drives the push rod 35 and the stuffing box 36 to move, so that the swing gear 3623 moves under the action of gravity to drive the straight gear 3624 and the sliding rack 3626 to move, the potassium permanganate powder 3611 is gradually and automatically added into the reaction box 37 to generate oxygen, the potassium permanganate powder 3611 is heated by using the heat of the combustion chamber 31, the potassium permanganate powder 3611 is promoted to react to generate oxygen by using the heat of natural gas, resources are saved, and the design is ingenious; by utilizing the relationship between the flow rate and the pressure, when the fan 93 is started, gaps are automatically generated between the window blades 991 through the design of the special shape of the foam block 94, and the window blades 991 are automatically closed after the fan 93 stops working, so that an electric component is not required to be additionally installed to control the shutter 99, the power supply is saved, and the environment is protected and economical.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the protection scope of the present invention, although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. The integrated multifunctional integrated gas power generation system is characterized by comprising a box body (1), wherein an air inlet device (9) and an air outlet device (10) are arranged on the side wall of the box body (1), a gas generator (3) and a waste gas treatment device (6) are fixedly connected to the bottom in the box body (1), a fan (93) and a louver (991) are arranged in the air inlet device (9), an oxygen supply mechanism is arranged in the gas generator (3), the gas generator (3) is communicated with the left wall of the box body (1) through a first air inlet pipe (5), a gas leakage detection device (4) is arranged at the joint of the gas generator (3) and the first air inlet pipe (5), the gas generator (3) is connected with the waste gas treatment device (6) through a first air outlet pipe (7), and the waste gas treatment device (6) is communicated with the right wall of the box body (1) through a second air outlet pipe (8);

the box body (1) is also internally provided with a controller (12) for controlling the gas power generation system.

2. The integrated multifunctional integrated gas power generation system as claimed in claim 1, wherein a combustion chamber (31) and an oxygen supply chamber (33) are formed in the power generator (3), the combustion chamber (31) is communicated with the oxygen supply chamber (33) through a heat transfer hole (32), and the oxygen supply mechanism is arranged in the oxygen supply chamber (33);

the oxygen supply mechanism comprises an elastic ball body (34), a packing box (36) and a reaction box (37), wherein the elastic ball body (34) is fixedly connected to the top wall of an oxygen supply cavity (33), the bottom of the elastic ball body (34) is fixedly connected with a push rod (35), the lower end of the push rod (35) is abutted against the top of the packing box (36), the left wall of the packing box (36) is connected with the left wall of the oxygen supply cavity (33) through a first elastic part (38), and the right wall of the packing box (36) is connected with the right wall of the oxygen supply cavity (33) through another first elastic part (38);

a storage cavity (361) and a first transmission cavity (362) are arranged in the stuffing box (36), potassium permanganate powder (3611) is filled in the storage cavity (361), the storage cavity (361) is communicated with the right wall of the stuffing box (36) through a discharge hole (363), the discharge hole (363) is obliquely arranged, the first transmission cavity (362) is communicated with the bottom of the stuffing box (36) through a first through hole (364), the first through hole (364) penetrates through the discharge hole (363) from top to bottom, a swing rod (3622) is arranged in the first transmission cavity (362), a swing gear (3623), a straight gear (3624) and a sliding rack (3626) are arranged, the upper end of the swing rod (3622) is hinged with the top wall of the first transmission cavity (362) through a hinge part (3621), the lower end of the swing rod (3622) is fixedly connected with a swing gear (3623), the straight gear (3624) is rotatably connected with the rear wall of the first transmission cavity (362) through a rotating shaft (3625), the swing gear (3623) is meshed with the straight gear (3624), the sliding rack (3626) is in sliding connection with the right wall of the first transmission cavity (362), a first connecting hole (3627) is formed in the sliding rack (3626), the sliding rack (3626) is meshed with the straight gear (3624), the lower end of the sliding rack (3626) extends into the first through hole (364), and the reaction box (37) is fixedly connected to the bottom of the oxygen supply cavity (33).

3. The integrated multifunctional integrated gas power generation system as claimed in claim 2, wherein a partition plate (43) is erected in the gas leakage detection device (4), the partition plate (43) divides the gas leakage detection device (4) into an upper chamber (42) and a lower chamber (41), a second transmission chamber (46) is formed in the partition plate (43), a second through hole (44) is formed in the partition plate (43), the second transmission chamber (46) is communicated with the second through hole (44) through a second connecting hole (45), an inflation device (461) is fixedly connected to the left wall of the second transmission chamber (46), an inflation airbag (462) is connected to the inflation device (461) and a sliding plate (451) is slidably connected to the second connecting hole (45), and the left end of the sliding plate (451) extends into the second transmission chamber (46);

upper chamber (42) right wall is equipped with flame sensor (47) and igniter (48), and ventilation hole (411) have been seted up to upper chamber (42) left side wall, cavity of resorption (41) left side wall and right wall are run through in proper order to first intake pipe (5) right-hand member, and first intake pipe (5) right-hand member with gas generator (3) are connected.

4. The integrated multifunctional integrated gas power generation system as claimed in claim 3, wherein a third through hole (91) is formed in the air intake device (9), a U-shaped hole (92) is formed in the top of the third through hole (91), the left end of the U-shaped hole (92) is communicated with the top of the third through hole (91), the right end of the U-shaped hole (92) is communicated with the top of the third through hole (91), the fan (93) and the louver (99) are arranged in the third through hole (91), and a wind power transmission mechanism is arranged in the U-shaped hole (92);

wind power transmission mechanism includes foam block (94), head rod (95), second connecting rod (96), second elastic component (97) and third connecting rod (98), second connecting rod (96) right-hand member and head rod (95) upper end are connected, head rod (95) lower extreme and foam block (94) rigid coupling, foam block (94) top is planar, foam block (94) bottom is the curved surface form, head rod (95) lower extreme extends to in third through-hole (91), second connecting rod (96) left end and third connecting rod (98) upper end rigid coupling, third connecting rod (98) lower extreme extends to in shutter (99), and all windows leaf (991) in third connecting rod (98) and shutter (99) are connected, second elastic component (97) and U type hole (92) top are passed through to second connecting rod (96) top and are connected.

5. The integrated multifunctional integrated gas power generation system as claimed in claim 4, wherein an alarm (49) is fixedly connected to the outer wall of the gas leakage detection device (4).

6. The integrated multifunctional integrated gas power generation system as claimed in claim 5, wherein the igniter (48) is provided above the flame sensor (47).

7. The integrated multifunctional integrated gas power generation system as claimed in claim 6, wherein the controller (12) is provided with a wireless transceiver (11).

8. The integrated multifunctional integrated gas power generation system as claimed in claim 7, wherein the gas generator (3) is connected with the bottom in the box body (1) through a shockproof base (2).