阅读说明：本技术 一种气化发生器和气化发生系统 (Gasification generator and gasification generation system ) 是由 苏德仁 于 2020-07-24 设计创作，主要内容包括：本发明公开了一种气化发生器和气化发生系统,气化发生器包括壳体、燃气通道、电场捕焦装置和转动炉排,壳体具有内腔和与内腔连通的进料口；燃气通道位于壳体的顶部,并与内腔连通；电场捕焦装置用于在燃气通道形成电场；转动炉排设在内腔的底部。气化发生系统包括储料装置和气化发生器,储料装置包括第一储料仓、第一阀门和第二阀门,进料口位于壳体的顶部,储料装置与进料口连接,第一阀门安装于第一储料仓的入口,第二阀门安装于第一储料仓的出口。当燃气和焦油的混合物在经过燃气通道时,电场对混合物中的焦油进行捕捉,使燃气与焦油分离,充分利用焦油的能量,保证燃气的纯净度,减少对燃气管道的堵塞和腐蚀,提高燃气使用设备的寿命。(The invention discloses a gasification generator and a gasification generating system, wherein the gasification generator comprises a shell, a gas channel, an electric field coke catching device and a rotating grate, and the shell is provided with an inner cavity and a feeding hole communicated with the inner cavity; the gas channel is positioned at the top of the shell and is communicated with the inner cavity; the electric field coke catching device is used for forming an electric field in the gas channel; the rotary grate is arranged at the bottom of the inner cavity. The gasification generating system comprises a storage device and a gasification generator, the storage device comprises a first storage bin, a first valve and a second valve, the feed inlet is located at the top of the shell, the storage device is connected with the feed inlet, the first valve is installed at the inlet of the first storage bin, and the second valve is installed at the outlet of the first storage bin. When the mixture of gas and tar is through the gas passageway, the electric field is caught the tar in the mixture, makes gas and tar separation, and the energy of make full use of tar guarantees the purity of gas, reduces the jam and the corruption to the gas pipeline, improves the life-span of gas service equipment.)

1. A gasification generator, comprising: comprises that

The device comprises a shell, a first sealing ring and a second sealing ring, wherein the shell is provided with an inner cavity and a feeding hole communicated with the inner cavity;

the gas channel is positioned at the top of the shell and is communicated with the inner cavity;

the electric field coke catching device is used for forming an electric field in the fuel gas channel;

and the rotating grate is arranged at the bottom of the inner cavity.

2. The gasification generator of claim 1, wherein: the periphery of the shell is provided with a water jacket, the top of the water jacket is provided with a first inlet and outlet cooling water pipe, and the bottom of the water jacket is provided with a second inlet and outlet cooling water pipe.

3. The gasification generator of claim 1, wherein: the explosion-proof device comprises an explosion-proof water tank and a vertical pipe, the explosion-proof water tank is arranged outside the shell, one end of the vertical pipe is communicated with the inner cavity, and the other end of the vertical pipe extends into the explosion-proof water tank.

4. A gasification generator in accordance with claim 3 wherein: the electric field coke catching device is used for forming an electric field in the coke catching channel, the accelerating channel is provided with an inlet and an outlet, the inlet is communicated with the coke catching channel, the outlet is smaller than the inlet, the separating channel is communicated with the outlet, the separating channel is provided with an inertia blocking component, and the inertia blocking component is located at a position opposite to the outlet.

5. The gasification generator of claim 1, wherein: install high-order material level ware and low level material level ware on the casing, high-order material level ware and low level material level ware are located the rotary grate with between the gas channel, high-order material level ware with have along the ascending interval in direction of height between the electric field coke catcher.

6. The gasification generator of claim 1, wherein: the rotary grate is provided with a rotating shaft, a first water seal device is arranged between the rotating shaft and a cavity of the rotary grate, the rotary grate is matched with the periphery of the shell through a second water seal device, and the second water seal device is in transmission connection with the rotating shaft through a transmission part.

7. A gasification generation system, comprising: the gasification generator comprises a storage device and any one of claims 1 to 6, wherein the storage device comprises a first storage bin, a first valve and a second valve, the feeding hole is positioned at the top of the shell, the storage device is connected with the feeding hole, the first valve is installed at the inlet of the first storage bin, and the second valve is installed at the outlet of the first storage bin.

8. The gasification generation system of claim 7, wherein: the material storage device further comprises a spring hanging device and a fixing component, a second material storage bin is arranged at the top of the first material storage bin, the first valve is located between the second material storage bin and the first material storage bin, the spring hanging device comprises a hanging rod and a spring connected with the hanging rod, and the spring is located at the top of the fixing component and is connected with the second material storage bin through the hanging rod.

9. The gasification generation system of claim 7, wherein: storage device still includes refining device, refining device install in the bottom of first storage silo, the second valve is located refining device with between the first storage silo, refining device's inside is equipped with a plurality of refining that stagger along direction of height and width direction and distributes and separates the fender part.

10. The gasification generation system of claim 9, wherein: still include feed arrangement, feed arrangement includes bucket elevator, middle hopper, belt conveyor and feeding funnel, the feeding funnel is located the top of belt conveyor's transmission belt, belt conveyor's delivery outlet is located the top of middle hopper, middle hopper with bucket elevator's pan feeding mouth is connected, bucket elevator's discharge gate with second storage silo intercommunication.

Technical Field

The invention is used in the technical field of waste materials, and particularly relates to a gasification generator and a gasification generating system.

Background

Industrial cotton waste, waste cloth in textile industry, biomass solid forming raw materials and the like are difficult to meet the environmental protection requirement in a direct combustion state, and are generally treated by a gasification generator and then are used as combustible gas to be conveyed to combustion equipment so as to provide energy. However, the fuel gas treated by the gasification generator still contains more tar impurities, and the components of the tar are complex and contain a large amount of substances such as methanol, yeast and other organic substances. The direct discharge of a large amount of tar not only erodes valuable land resources, but also causes different degrees of harm to the ecological environment, animals and plants, and even human beings. The tar itself also has a very high energy content, which is about 5% to 15% of the total energy in gasification, and if the tar is directly discharged, the energy is wasted. In addition, tar in the gas can block, pollute and corrode gas pipelines, gas cookers and the like, so that the service life of equipment is greatly shortened, and the normal operation of a gasification system can be limited.

Disclosure of Invention

The invention aims to at least solve one of the technical problems in the prior art, and provides a gasification generator and a gasification generating system, which can purify and separate fuel gas and tar, fully utilize the energy of the tar, save resources, ensure the purity of the fuel gas, reduce the blockage and corrosion of a fuel gas pipeline, and prolong the service life of fuel gas using equipment.

The technical scheme adopted by the invention for solving the technical problems is as follows:

in a first aspect, a gasification generator comprises

The device comprises a shell, a first sealing ring and a second sealing ring, wherein the shell is provided with an inner cavity and a feeding hole communicated with the inner cavity;

the gas channel is positioned at the top of the shell and is communicated with the inner cavity;

the electric field coke catching device is used for forming an electric field in the fuel gas channel;

and the rotating grate is arranged at the bottom of the inner cavity.

With reference to the first aspect, in certain implementations of the first aspect, a water jacket is disposed on an outer periphery of the housing, a first cooling water inlet and outlet pipe is disposed at a top of the water jacket, and a second cooling water inlet and outlet pipe is disposed at a bottom of the water jacket.

With reference to the first aspect and the foregoing implementation manners, in some implementation manners of the first aspect, the explosion-proof device further includes an explosion-proof water tank and a vertical pipe, the explosion-proof water tank is disposed outside the housing, one end of the vertical pipe is communicated with the inner cavity, and the other end of the vertical pipe extends into the explosion-proof water tank.

With reference to the first aspect and the foregoing implementation manners, in certain implementation manners of the first aspect, the gas channel includes a coke capturing channel, an accelerating channel and a separating channel, which are sequentially distributed along a flowing direction of the gas, the electric field coke capturing device is configured to form an electric field in the coke capturing channel, the accelerating channel has an inlet and an outlet, the inlet is communicated with the coke capturing channel, the outlet is smaller than the inlet, the separating channel is communicated with the outlet, the separating channel is provided with an inertia blocking member, and the inertia blocking member is located opposite to the outlet.

With reference to the first aspect and the foregoing implementation manners, in certain implementation manners of the first aspect, a high level material level indicator and a low level material level indicator are installed on the casing, the high level material level indicator and the low level material level indicator are located between the rotary grate and the gas channel, and an interval in the height direction is formed between the high level material level indicator and the electric field coke capture device.

With reference to the first aspect and the foregoing implementation manners, in some implementation manners of the first aspect, a rotating shaft is disposed on the rotating grate, a first water seal device is disposed between the rotating shaft and a cavity of the rotating grate, the rotating grate is matched with the periphery of the housing through a second water seal device, and the second water seal device is in transmission connection with the rotating shaft through a transmission component.

In a second aspect, a gasification generation system comprises a storage device and a gasification generator in any one of the implementation manners of the first aspect, wherein the storage device comprises a first storage bin, a first valve and a second valve, a feed inlet is formed in the top of a shell, the storage device is connected with the feed inlet, the first valve is installed at an inlet of the first storage bin, and the second valve is installed at an outlet of the first storage bin.

With reference to the second aspect, in certain implementations of the second aspect, the storage device further includes a spring hanging device and a fixing component, a second storage bin is disposed at the top of the first storage bin, the first valve is located between the second storage bin and the first storage bin, the spring hanging device includes a suspension rod and a spring connected to the suspension rod, and the spring is located at the top of the fixing component and is connected to the second storage bin through the suspension rod.

With reference to the second aspect and the foregoing implementation manners, in certain implementation manners of the second aspect, the storing device further includes a refining device, the refining device is installed at the bottom of the first storing bin, the second valve is located between the refining device and the first storing bin, and a plurality of refining partition components distributed along the height direction and the width direction in a staggered manner are arranged inside the refining device.

In combination with the second aspect and the above implementation manners, in some implementation manners of the second aspect, the device further comprises a feeding device, the feeding device comprises a bucket elevator, an intermediate hopper, a belt conveyor and a feeding hopper, the feeding hopper is located above a conveying belt of the belt conveyor, an output port of the belt conveyor is located above the intermediate hopper, the intermediate hopper is connected with a feeding port of the bucket elevator, and a discharge port of the bucket elevator is communicated with the second storage bin.

One of the above technical solutions has at least one of the following advantages or beneficial effects: when the gasification generator is used for gasifying solid raw materials and the like, the solid raw materials are combusted and gasified under the action of the rotary grate to be changed into a mixture of fuel gas and tar, and then the mixture flows in the direction of the fuel gas channel. When the mixture of the fuel gas and the tar passes through the fuel gas channel, the electric field captures the tar in the mixture, so that the fuel gas is separated from the tar. The gas continues to flow out towards the gas channel, the tar is adsorbed by the electric field and slides down under the action of gravity to return to the gasification generation area for cracking again so as to be converted into gas, and the gas flows out after being separated by the gas channel and is continuously circulated. According to the technical scheme, the gasification generator and the gasification generation system purify and separate fuel gas and tar by the electric field tar capturing device, the energy of the tar is fully utilized, resources are saved, the purity of the fuel gas is guaranteed, the blockage and corrosion of a fuel gas pipeline are reduced, and the service life of fuel gas using equipment is prolonged.

Drawings

The invention will be further described with reference to the accompanying drawings in which:

fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the present invention, if directions (up, down, left, right, front, and rear) are described, it is only for convenience of describing the technical solution of the present invention, and it is not intended or implied that the technical features referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, it is not to be construed as limiting the present invention.

In the invention, the meaning of "a plurality" is one or more, the meaning of "a plurality" is more than two, and the terms of "more than", "less than", "more than" and the like are understood to exclude the number; the terms "above", "below", "within" and the like are understood to include the instant numbers. In the description of the present invention, if there is description of "first" and "second" only for the purpose of distinguishing technical features, it is not to be understood as indicating or implying relative importance or implicitly indicating the number of indicated technical features or implicitly indicating the precedence of the indicated technical features.

In the present invention, unless otherwise specifically limited, the terms "disposed," "mounted," "connected," and the like are to be understood in a broad sense, and for example, may be directly connected or indirectly connected through an intermediate; can be fixedly connected, can also be detachably connected and can also be integrally formed; may be mechanically coupled, may be electrically coupled or may be capable of communicating with each other; either as communication within the two elements or as an interactive relationship of the two elements. The specific meaning of the above-mentioned words in the present invention can be reasonably determined by those skilled in the art in combination with the detailed contents of the technical solutions.

Referring to fig. 1, an embodiment of the present invention provides a gasification generator for combustion gasification of industrial cotton waste, waste cloth in textile industry, biomass solid forming raw material, and the like. The gasification generator comprises a shell, a gas channel, an electric field coke catching device 2 and a rotary grate 3, wherein the shell is provided with an inner cavity 11 and a feed inlet communicated with the inner cavity 11, solid raw materials enter the inner cavity 11 through the feed inlet, and the rotary grate 3 is arranged at the bottom of the inner cavity 11 so as to perform work such as gasification combustion on the solid raw materials entering the inner cavity 11. The gas channel is positioned at the top of the shell and is communicated with the inner cavity 11, and when the solid raw materials are gasified and combusted to be a mixture of gas and tar, the gas and tar mixture rises and flows into the gas channel.

The electric field coke catching device 2 is used for forming an electric field in the gas channel, when a gas tar mixture passes through the gas channel with the electric field, tar is adsorbed by the electric field and slides down to a gasification generation area in the inner cavity 11 under the action of self gravity to be cracked, and then the tar is separated by the gas channel and flows out, so that the energy of the tar is fully utilized, and the purity of the gas is ensured. It is understood that the electric field generating device 2 may be connected to the positive and negative electrodes of the power supply to form an electric field, such as an electrode plate, an electrode wire, a power grid, etc., so that the electric field is formed in the coke-catching channel. Further, the electric field generating device 2 may be disposed in the coke capturing passage, may be disposed outside the housing, or the like. In addition, the steam injection device 20 is arranged at the top of the electric field coke catching device 2, so that tar layers adhered to the electric field coke catching device 2 can be removed at regular time, the service life of the electric field coke catching device 2 is prolonged, the electric field coke catching device has a self-cleaning function, and the high-efficiency operation of the electric field coke catching device 2 is maintained. Wherein the number of the steam injection devices 20 can be set according to the actual requirements of the electric field coke-catching device 2.

When a gasification generator is used for gasifying solid raw materials and the like, the solid raw materials are combusted and gasified under the action of the rotary grate 3 to be changed into a mixture of fuel gas and tar, and then the mixture flows in the direction of a fuel gas channel, and the reference is made to fig. 1. When the mixture of the fuel gas and the tar passes through the fuel gas channel, the electric field captures the tar in the mixture, so that the fuel gas is separated from the tar. The gas continues to flow out towards the gas channel, the tar is adsorbed by the electric field and slides down under the action of gravity to return to the gasification generation area for cracking again so as to be converted into gas, and the gas flows out after being separated by the gas channel and is continuously circulated. According to the technical scheme, the gasification generator and the gasification generation system purify and separate the fuel gas and the tar through the electric field tar capturing device 2, the energy of the tar is fully utilized, resources are saved, the purity of the fuel gas is guaranteed, the blockage and corrosion of a fuel gas pipeline are reduced, and the service life of fuel gas using equipment is prolonged.

Referring to fig. 1, in some embodiments, the gas channel includes a tar catching channel, an accelerating channel 4 and a separating channel 5 which are sequentially distributed along a flowing direction of the gas, the electric field tar catching device 2 is configured to form an electric field in the tar catching channel, when the gas-tar mixture passes through the gas channel, the mixture first passes through the tar catching channel, the tar is adsorbed by the electric field in the tar catching channel to separate the gas from the tar, the gas continues to rise through the tar catching channel, and the adsorbed tar slides down to a gasification generating area in the inner cavity 11 under the action of its own gravity to be gasified.

The accelerating channel 4 is provided with an inlet and an outlet, the inlet is communicated with the coke catching channel, the separating channel 5 is communicated with the outlet, and the fuel gas enters the accelerating channel 4 through the inlet after being separated by the electric field and then flows into the separating channel 5 through the outlet. The outlet is smaller than the inlet, so that the circulation speed of the fuel gas is increased. The separation channel 5 is provided with an inertia blocking part 51, the inertia blocking part 51 is positioned at a position opposite to the outlet, the gas accelerated through the acceleration channel 4 collides with the inertia blocking part 51 at a high speed, the gas which is not completely separated is separated from tar again, the tar content in the gas is reduced to the minimum, and the purity of the gas is ensured. The separated tar flows back to the inner cavity 11 through the fuel gas channel for gasification, thereby improving the utilization rate of the tar, saving resources and being green and environment-friendly. It is understood that the inertial blocking member 51 may employ an inertial blocking plate, an inertial blocking mount, or the like.

Referring to fig. 1, in some embodiments, a high level indicator 12 and a low level indicator 13 are installed on the housing, and the feeding is started when the low level indicator 13 outputs a signal, and the feeding is stopped when the high level indicator 12 outputs a signal, so that the raw material in the inner cavity 11 is always kept within a certain range, and the normal operation of gasification is ensured. The high level material level device 12 and the low level material level device 13 are positioned between the rotating fire grate 3 and the fuel gas channel, and the high level material level device 12 and the electric field coke catching device 2 are spaced in the height direction for tar precipitation. It can be understood that the interval is not less than 3 meters, the gas speed is not more than 1 meter/second, so that the gas has the retention time of not less than 3 seconds in the interval, the tar can be separated out, and the tar and dust particles with larger particle sizes can not rise along with the gas, thereby forming the pretreatment of electric tar capture.

When the raw materials are gasified in the gasification generation area to generate a gas and tar mixture, the gas and tar mixture firstly flows to the gas channel through the interval in the ascending process, so that part of tar is settled at the interval, the gasification is continued, and the purity of the gas and the utilization rate of the tar are improved. The arrangement of the high level material level device 12 and the low level material level device 13 can ensure the interval size of tar settlement, thereby ensuring that tar is more fully settled.

When the raw materials enter the gasification generation area of the inner cavity 11 for gasification, the tar and gas mixture is subjected to first purification and separation at intervals, tar is settled and falls into the gasification generation area to be continuously gasified into gas, and the content of tar in the tar and gas mixture is reduced. The tar and gas mixture which continuously rises enters the tar catching channel and is caught by the electric field tar catching device 2, so that secondary purification and separation of gas tar are realized, the tar is adsorbed by the electric field, and when the tar reaches a certain weight, the tar can be separated from the electric field and fall into the gasification generation area under the action of self gravity to be continuously gasified into gas, so that the purity of the gas is ensured. The gas subjected to secondary purification and separation continuously rises in an accelerated manner and enters the separation channel 5, finally, the gas still containing part of tar is subjected to tertiary purification and separation by the inertia blocking part 51, and the gas tar mixture collides with the inertia blocking part 51 under the action of high speed, so that the tar is separated from the gas, leaves the gas channel and returns to the gasification generation area for gasification again, the tar content in the gas is reduced to the minimum, and the purity of the gas is ensured. And the process is continuously circulated.

Referring to fig. 1, in some embodiments, a water jacket 6 is disposed on the outer periphery of the housing, the water jacket 6 has the characteristics of high temperature resistance, corrosion resistance, and lightness and thinness, and the water jacket 6 replaces a traditional refractory brick structure, so that corrosion of slag in the gasification generator to refractory bricks can be avoided, the maintenance work amount can be reduced, the service life of the gasification generator can be prolonged, and heat radiation generated by the gasification generator to the outside can be reduced, which is safe. The top of the water jacket 6 is provided with a first inlet and outlet cooling water pipe 61, the bottom of the water jacket 6 is provided with a second inlet and outlet cooling water pipe 62, and the water jacket 6 is supplied with water through the first inlet and outlet cooling water pipe 61 and the second inlet and outlet cooling water pipe 62, so that the water jacket 6 is convenient and quick to use, the water jacket 6 is favorably supplied with water in a back suction mode, and the safety of water circulation is ensured. The top of the water jacket 6 can adopt arc transition, namely the top of the cross section of the water jacket 6 is semicircular, so that the safety and water tightness during hot-state operation are ensured.

Referring to fig. 1, in some embodiments, the gasification generator further comprises an explosion-proof device, the explosion-proof device comprises an explosion-proof water tank 71 and a vertical pipe 72, the explosion-proof water tank 71 is arranged outside the housing, one end of the vertical pipe 72 is communicated with the inner cavity 11, the other end of the vertical pipe 72 extends into the explosion-proof water tank 71, namely, extends into water, and the inner cavity 11 is sealed by the water in the explosion-proof water tank 71. The top of the explosion-proof water tank 71 is communicated with the outside, i.e., in an open state, so that the water in the explosion-proof water tank 71 is communicated with the outside atmosphere. When the gasification generator explodes, the inner cavity 11 is decompressed through the vertical pipe 72, and an explosion-proof effect is achieved. It can be understood that the explosion-proof device is also provided with a water level sensing device, and when water in the explosion-proof device leaks, water level sensing measurement can feed back water level information to add water.

Referring to fig. 1, in some embodiments, the rotating grate 3 is provided with a rotating shaft 31, and the rotating shaft 31 drives the rotating grate 3 to rotate relative to the housing to stir the raw material. Meanwhile, the rotating fire grate 3 can realize uniform air distribution, reduce material layer air channeling, avoid over-high local oxygen content of the electric field coke catching device 2 and reduce the risk of deflagration. A first water seal device 32 is arranged between the rotating shaft 31 and the inner cavity of the rotating grate 3, so that external heat radiation can be reduced, meanwhile, gas can be isolated, and the gas is prevented from being discharged outwards. The rotating grate 3 is matched with the periphery of the shell through the second water seal device 33, the shell extends into the second water seal device 33, namely extends into the water of the second water seal device 33, the top of the second water seal device 33 is in an open state, the water in the second water seal device 33 is communicated with the atmosphere, the water plays a sealing role on the inner cavity 11, the gas in the gasification generator can be isolated, the gas is not discharged outside, and the smooth operation of gasification work is ensured. The second water sealing device 33 is in transmission connection with the rotating shaft 31 through the transmission part 34, so as to drive the rotating grate 3 to rotate, so as to complete the operations of stirring and gasifying raw materials.

Referring to fig. 1, another embodiment of the present invention provides a gasification generation system, comprising a storage device 8 and a gasification generator, wherein the storage device 8 is used for feeding the gasification generator. The storage device 8 comprises a first storage bin 81, a first valve 82 and a second valve 83, the feeding hole is positioned at the top of the shell, the storage device 8 is connected with the feeding hole, the first valve 82 is installed at the inlet of the first storage bin 81, the second valve 83 is installed at the outlet of the first storage bin 81, and when the first valve 82 is opened and the second valve 83 is closed, the storage can be stored in the first storage bin 81; when the first valve 82 is closed and the second valve 83 is opened, the first storage bin 81 can feed the gasification generator. The purpose of feeding can be achieved while the sealing of the inner cavity 11 of the gasification generator is ensured.

Referring to fig. 1, in some embodiments, the storage device 8 further includes a refining device 9, the refining device 9 is installed at the bottom of the first storage bin 81, and the first storage bin 81 firstly uniformly disperses the raw material through the refining device 9 and then feeds the raw material to the gasification generator. The second valve 83 is located between the refining device 9 and the first storage bin 81, a plurality of refining separating and blocking parts 91 which are distributed along the height direction and the width direction in a staggered manner are arranged inside the refining device 9, the refining separating and blocking parts 91 located at a high position receive and disperse raw materials falling into the refining device 9, and the raw materials are dispersed on the refining separating and blocking parts 91 located at a lower position until the raw materials fall into the inner cavity 11, so that the raw materials are uniformly dispersed. Referring to fig. 1, the refining baffle member 91 has a plurality of inclined surfaces, and the bottom of each inclined surface is inclined to the outer side of the refining baffle member 91, so that the raw material falling on the refining baffle member 91 is dispersed by the plurality of inclined surfaces and falls on the lower refining baffle member 91 until falling into the inner cavity 11. The materials collide with each other in stages on the material homogenizing baffle part 91, so that the materials uniformly fall into the gasification generator, rapid gasification is facilitated, and the gas conversion rate is improved.

Referring to fig. 1, in some embodiments, the storage device 8 further comprises a spring hanger 84 and a fixing part 85, the second storage bin 86 is disposed on the top of the first storage bin 81, the first valve 82 is located between the second storage bin 86 and the first storage bin 81, the spring hanger 84 comprises a suspension rod 87 and a spring connected with the suspension rod 87, and the spring is located on the top of the fixing part 85 and connected with the second storage bin 86 through the suspension rod 87. Through the setting of spring cable suspension device 84, can alleviate the weight that storage device 8 acted on gasification generator, simultaneously, when gasification generator took place the thermal state inflation, the spring among the spring cable suspension device 84 can the absorptive expansion volume, realizes bearing and absorptive expansion's dual function, improves gasification generator's life.

Referring to fig. 1, in some embodiments, the gasification generation system further includes a feeding device, the feeding device includes a bucket elevator 92, an intermediate hopper 93, a belt conveyor 94 and an upper hopper 95, the upper hopper 95 is located above a conveying belt of the belt conveyor 94, an output port of the belt conveyor 94 is located above the intermediate hopper 93, the intermediate hopper 93 is connected to an input port of the bucket elevator 92, and an output port of the bucket elevator 92 is communicated with the second storage bin 86. The raw material such as a material distribution briquette is put into a feeding hopper 95, conveyed by a belt conveyor 94 and dropped into a middle hopper 93, and then enters a bucket elevator 92, and the raw material is lifted and conveyed by the bucket elevator 92 into a second storage bin 86, so that the storage work of the storage device 8 is completed, and the gasification generator is supplied with the material. The integrity of the raw materials such as the material distribution pressing block can be ensured through the arrangement of the feeding device, and the appearance of the raw materials is not damaged.

In the description herein, references to the description of the term "example," "an embodiment," or "some embodiments," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The invention is not limited to the above embodiments, and those skilled in the art can make equivalent modifications or substitutions without departing from the spirit of the invention, and such equivalent modifications or substitutions are included in the scope defined by the claims of the present application.