阅读说明：本技术 一种可数据记录的垃圾水蒸汽催化气化装置及使用方法 (Garbage steam catalytic gasification device capable of recording data and use method ) 是由 王伟平 李俊杰 陈晓阳 屈文欢 黎国滨 于 2021-01-12 设计创作，主要内容包括：本发明公开了一种可数据记录的垃圾水蒸汽催化气化装置及使用方法,该装置包括气化炉,气化炉内自上而下依次设置有预进料腔、气化腔和出渣腔,气化腔顶部的腔体内壁上固定设置有凸台,凸台的上表面上可转动连接有转盘,转盘上表面同轴固定连接有转轴,贯穿转盘上下表面设置有开口；转盘底端面同轴可转动设置有转块,转块的圆周外表面水平固定连接有转板,转板下表面上固定设置有传感器,转板可以盖合转盘的开口,阻断预进料腔与气化腔的连通。本发明能够通过传感器监测垃圾温度,根据不同温度区域控制不同多少的垃圾投入,提高了气化炉内气化反应的效率。(The invention discloses a data-recordable garbage steam catalytic gasification device and a use method thereof, wherein the device comprises a gasification furnace, a pre-feeding cavity, a gasification cavity and a slag discharging cavity are sequentially arranged in the gasification furnace from top to bottom, a boss is fixedly arranged on the inner wall of a cavity at the top of the gasification cavity, a turntable is rotatably connected on the upper surface of the boss, a rotating shaft is coaxially and fixedly connected on the upper surface of the turntable, and an opening is arranged through the upper surface and the lower surface of the turntable; the coaxial rotatable commentaries on classics piece that is provided with of carousel bottom end face, the circumference surface level fixedly connected with commentaries on classics piece changes the board, changes the fixed sensor that is provided with on the board lower surface, changes the opening that the board can cover the carousel, blocks the intercommunication in feeding chamber in advance and gasification chamber. The invention can monitor the temperature of the garbage through the sensor, and control the amount of the garbage input according to different temperature areas, thereby improving the efficiency of gasification reaction in the gasification furnace.)

1. The utility model provides a but rubbish steam catalytic gasification device of data record which characterized in that: the gasification furnace is characterized by comprising a gasification furnace, wherein a pre-feeding cavity, a gasification cavity and a slag discharging cavity are sequentially arranged in the gasification furnace from top to bottom, and a grate is fixedly arranged between the gasification cavity and the slag discharging cavity, so that garbage in the gasification cavity can complete the gasification process under the action of the grate, and generated residues are discharged into the slag discharging cavity; a boss is fixedly arranged on the inner wall of the cavity at the top of the gasification cavity, a rotary table is rotatably connected on the upper surface of the boss, the rotary table is coaxially arranged with the gasification furnace, a rotary shaft is coaxially and fixedly connected on the upper surface of the rotary table, the rotary shaft can rotatably penetrate through a furnace cover of the gasification furnace to extend out of the top of the gasification furnace, and an opening is arranged on the upper surface and the lower surface of the rotary table, so that the pre-feeding cavity and the gasification cavity can be communicated through the opening; the coaxial rotatable commentaries on classics piece that is provided with of carousel bottom end face, in the circumference surface level fixedly connected with commentaries on classics piece changes the board, change the fixed sensor that is provided with on the board lower surface, so that the sensor can monitor the temperature of gasification intracavity rubbish, just it can close to change the board the carousel the opening blocks the pre-feeding chamber with the intercommunication in gasification chamber.

2. The garbage steam catalytic gasification device capable of recording data according to claim 1, wherein: the upper surface of the boss is provided with a first slide rail, the lower surface of the rotary table is provided with a rotary table lug corresponding to the position of the first slide rail, so that the rotary table lug can slide in the first slide rail, and the rotary table can rotate along the axis of the gasification furnace.

3. The garbage steam catalytic gasification device capable of recording data according to claim 2, wherein: the upper surface of the furnace cover is fixedly connected with a first motor through a support, and the output end of the first motor is coaxially and fixedly connected to the rotating shaft, so that the rotating shaft can drive the rotating disc to rotate under the driving of the first motor.

4. The garbage steam catalytic gasification device capable of recording data according to claim 1, wherein: the turntable bottom end face and the turntable are coaxially provided with an annular turntable sliding rail, the upper surface of the rotating block corresponds to the turntable sliding rail and is provided with a rotating block protrusion, so that the rotating block protrusion can slide along the turntable sliding rail, and the rotating block can drive the rotating plate to rotate around the turntable axis.

5. The garbage steam catalytic gasification device capable of recording data according to claim 4, wherein: the lower surface of the rotary disc is fixedly connected with a second motor through a connecting frame, and the output end of the second motor is coaxially and fixedly connected with the bottom end face of the rotary block, so that the rotary block can drive the rotary plate to rotate around the axis of the rotary disc under the driving of the second motor.

6. The garbage steam catalytic gasification device capable of recording data according to claim 5, wherein: the one end of changeing the board and keeping away from changeing the piece axis is provided with to change the board protruding, in the boss is close to correspond on the terminal surface of gasifier axis change the bellied position department of board and be provided with the second slide rail, so that it can follow to change the board arch the second slide rail slides, change the board and can wind the gasifier axis rotates.

7. The garbage steam catalytic gasification device capable of recording data according to claim 1, wherein: run through the bell is provided with the feed inlet, in the bell top be provided with sealed feeding subassembly on the feed inlet, sealed feeding subassembly includes the movable plate, so that the movable plate can block and communicate the feed inlet runs through the feed inlet is followed the fixed mount that is provided with of cross section of feed inlet, just the mount is perpendicular lateral wall of feed inlet outwards extends, in be provided with the spout on two relative extended inner walls of mount, the movable plate can be followed spout parallel sliding set up in inside the mount, so that the movable plate can be followed the spout is in slide in the mount.

8. The garbage steam catalytic gasification device capable of recording data according to claim 7, wherein: and a push rod is fixedly arranged on the end face, far away from the feed port, of the moving plate and penetrates through the side wall of the fixing frame, so that the moving plate can be blocked and communicated with the feed port under the pushing and pulling of the push rod.

9. A data recordable catalytic gasification unit for water vapor of refuse according to any of claims 1 to 8, characterized in that: the upper surface of carousel is provided with inclination, and it is close to the open-ended height is less than keeps away from the open-ended height to make rubbish on the carousel can slide down under the action of gravity and fall the opening part.

10. A use method of a garbage steam catalytic gasification device capable of recording data is characterized in that: the garbage steam catalytic gasification device capable of recording data is used in the method for using the garbage steam catalytic gasification device capable of recording data according to any one of claims 1 to 9, and comprises a sensor, a control chamber, a first motor and a second motor, wherein the first motor is used for controlling the rotation of the rotating disc, the second motor is used for controlling the rotation of the rotating plate, and the sensor, the first motor and the second motor are respectively and electrically connected with the control chamber; presetting a preset temperature in the control room, acquiring a garbage surface detection temperature value by the sensor, comparing the garbage surface detection temperature value with the preset temperature, starting the first motor to operate when the detection temperature value is less than the preset temperature, and stopping the second motor to operate; and when the detected temperature value is greater than the preset temperature, starting the second motor to operate, and simultaneously stopping the first motor to operate.

Technical Field

The invention relates to the technical field of garbage treatment, in particular to a garbage water vapor catalytic gasification device capable of recording data and a using method thereof.

Background

Along with the acceleration of urban modern construction, the emission of raw garbage wastes is increased day by day, the traditional garbage treatment method causes serious land and atmosphere pollution and is difficult to meet the requirement of environmental management, so the existing garbage treatment mostly adopts a garbage gasification mode, the garbage gasification refers to the worry of people about energy safety and climate warming, and the cost for treating global garbage is gradually increased, the household garbage is converted into combustible gas through anoxic combustion, and then is converted into energy, namely, the garbage is subjected to anoxic combustion in a closed container, air and steam are used as mixed gasification agents, the furnace temperature is controlled at 800 ℃, so that the garbage releases a large amount of combustible gases such as carbon monoxide, hydrogen, methane and the like, and the gases can be converted into electric energy or heat energy for utilization after being filtered and cleaned; however, the existing gasification furnace can not well control the temperature of the surface of the garbage in the furnace, the garbage is often heated unevenly, local garbage can not be gasified, even local garbage can be burnt through directly, and the like, so that the gasification effect of garbage treatment is seriously influenced, and meanwhile, the feeding position can not be accurately controlled when the garbage is fed into the gasification furnace, and the burning through point can not be controlled to recover to a reduction layer.

Disclosure of Invention

The invention aims to provide a garbage steam catalytic gasification device capable of recording data and a using method thereof, and solves the problems that in the prior art, garbage in a gasification furnace is not uniformly heated, and the gasification effect is influenced because the feeding position cannot be accurately controlled during feeding.

In order to solve the technical problems, the invention adopts the following technical scheme:

the garbage steam catalytic gasification device capable of recording data comprises a gasification furnace, wherein a pre-feeding cavity, a gasification cavity and a slag discharging cavity are sequentially arranged in the gasification furnace from top to bottom, and a grate is fixedly arranged between the gasification cavity and the slag discharging cavity, so that garbage in the gasification cavity can complete a gasification process under the action of the grate, and generated residues are discharged into the slag discharging cavity; a boss is fixedly arranged on the inner wall of the cavity at the top of the gasification cavity, a rotary table is rotatably connected on the upper surface of the boss, the rotary table is coaxially arranged with the gasification furnace, a rotary shaft is coaxially and fixedly connected on the upper surface of the rotary table, the rotary shaft can rotatably penetrate through a furnace cover of the gasification furnace to extend out of the top of the gasification furnace, and an opening is arranged on the upper surface and the lower surface of the rotary table, so that the pre-feeding cavity and the gasification cavity can be communicated through the opening; the coaxial rotatable commentaries on classics piece that is provided with of carousel bottom end face, in the circumference surface level fixedly connected with commentaries on classics piece changes the board, change the fixed sensor that is provided with on the board lower surface, so that the sensor can monitor the temperature of gasification intracavity rubbish, just it can close to change the board the carousel the opening blocks the pre-feeding chamber with the intercommunication in gasification chamber.

Furthermore, the boss upper surface is provided with first slide rail, the carousel lower surface corresponds first slide rail position department is provided with the carousel lug, so that the carousel lug can slide in first slide rail, the carousel can be followed the gasifier axis rotates.

Furthermore, a first motor is fixedly connected to the upper surface of the furnace cover through a support, and the output end of the first motor is coaxially and fixedly connected to the rotating shaft, so that the rotating shaft can drive the rotating disc to rotate under the driving of the first motor.

Furthermore, the bottom end face of the rotary table and the rotary table are coaxially provided with an annular rotary table slide rail, the upper surface of the rotary table is provided with a rotary table bulge corresponding to the rotary table slide rail, so that the rotary table bulge can slide along the rotary table slide rail, and the rotary table can drive the rotary plate to rotate around the rotary table axis.

Furthermore, a second motor is fixedly connected to the lower surface of the rotary table through a connecting frame, and the output end of the second motor is coaxially and fixedly connected to the bottom end face of the rotary block, so that the rotary block can drive the rotary plate to rotate around the axis of the rotary table under the driving of the second motor.

Furthermore, the one end of changeing the board and keeping away from change a piece axis is provided with to change the board protruding, in the boss is close to correspond on the terminal surface of gasifier axis change the bellied position department of board and be provided with the second slide rail, so that it can follow to change the board arch the second slide rail slides, change the board and can wind the gasifier axis rotates.

Further, run through the bell is provided with the feed inlet, in the bell top be provided with sealed feeding subassembly on the feed inlet, sealed feeding subassembly includes the movable plate, so that the movable plate can block and communicate the feed inlet runs through the feed inlet is followed the fixed mount that is provided with of cross section of feed inlet, just the mount is perpendicular lateral wall outside extension of feed inlet, in be provided with the spout on two relative extended inner walls of mount, the movable plate can be followed spout parallel sliding set up in inside the mount, so that the movable plate can be followed the spout is in slide in the mount.

Furthermore, a push rod is fixedly arranged on the end face, far away from the feed port, of the moving plate and penetrates through the side wall of the fixing frame, so that the feed port can be blocked and communicated by the moving plate under the pushing and pulling of the push rod.

Furthermore, the upper surface of carousel is provided with inclination, and its be close to the height of opening is less than keep away from the height of opening, so that rubbish on the carousel can slide down under the action of gravity and fall the opening part.

The invention also provides a use method of the data-recordable garbage steam catalytic gasification device, which adopts the data-recordable garbage steam catalytic gasification device, and comprises a sensor, a control chamber, a first motor and a second motor, wherein the first motor is used for controlling the rotation of the rotary disc, the second motor is used for controlling the rotation of the rotary plate, and the sensor, the first motor and the second motor are respectively and electrically connected with the control chamber; presetting a preset temperature in the control room, acquiring a garbage surface detection temperature value by the sensor, comparing the garbage surface detection temperature value with the preset temperature, starting the first motor to operate when the detection temperature value is less than the preset temperature, and stopping the second motor to operate; and when the detected temperature value is greater than the preset temperature, starting the second motor to operate, and simultaneously stopping the first motor to operate.

Compared with the prior art, the invention has the beneficial technical effects that:

according to the garbage steam catalytic gasification device capable of recording data and the using method, the temperature of the surface of garbage is monitored by the sensor, and the opening and closing of the opening of the rotary disc are controlled according to the temperatures of different positions, so that the garbage feeding position can be controlled, and the gasification effect is greatly improved; the pre-feeding cavity is arranged, so that garbage can be fed continuously at any time, and the situations of untimely feeding and the like are avoided; through the dual cooperation of opening respectively of the sealed feeding subassembly of feeding chamber of feeding in advance and feed inlet for the gasification chamber reaches the totally enclosed state, provides better sealed environment for the gasification.

Drawings

The invention is further illustrated in the following description with reference to the drawings.

FIG. 1 is a schematic perspective view of a data recordable catalytic gasification device for garbage steam according to the present invention;

FIG. 2 is a schematic cross-sectional structural diagram of a data recordable catalytic gasification device for garbage steam;

FIG. 3 is a schematic diagram of the assembly structure of the turntable and the rotating shaft of the garbage steam catalytic gasification device capable of recording data according to the present invention;

FIG. 4 is a schematic diagram of the assembly structure of the turntable, the boss and the rotating block of the garbage steam catalytic gasification device capable of recording data according to the present invention;

FIG. 5 is a schematic cross-sectional structural diagram of a turntable, a boss and a rotating block of the data recordable garbage steam catalytic gasification device of the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 5 at A;

FIG. 7 is a schematic view of the three-dimensional structure of the turntable of the garbage steam catalytic gasification device capable of recording data according to the present invention;

fig. 8 is a schematic perspective view of a sealed feeding assembly of the garbage steam catalytic gasification device capable of recording data according to the present invention.

Description of reference numerals: 1. a base; 101. a frame; 2. a gasification furnace; 201. a gasification chamber; 202. a slag discharging cavity; 203. a pre-feeding chamber; 204. a furnace cover; 205. a boss; 206. a first slide rail; 207. a second slide rail; 3. a first motor; 4. a rotating shaft; 5. a support; 6. a turntable; 601. a turntable bump; 602. a turntable slide rail; 603. an opening; 7. rotating the block; 8. a connecting frame; 9. a second motor; 10. rotating the plate; 11. a sensor; 12. a grate; 13. a feed inlet; 14. sealing the feed assembly; 141. moving the plate; 142. a fixed mount; 143. a push rod.

Detailed Description

Example 1

As shown in fig. 1 to 8, a garbage steam catalytic gasification device capable of recording data comprises a base 1, a gasification furnace 2 is fixedly installed above the base 1 through a rack 101, the gasification furnace 2 is set to be a hollow barrel structure, a furnace cover 204 is hermetically arranged above the gasification furnace 2, a pre-feeding cavity 203, a gasification cavity 201 and a slag discharging cavity 202 are sequentially arranged in the hollow cavity of the gasification furnace 2 from top to bottom, a grate 12 is fixedly arranged between the gasification cavity 201 and the slag discharging cavity 202, the grate 12 is fixedly connected to the inner wall of the gasification furnace 2 through the grate 12, so that garbage in the gasification cavity 201 can complete a gasification process under the action of the grate 12, and simultaneously, generated residues are discharged into the slag discharging cavity 202 and are discharged out of the gasification furnace 2 through a bottom outlet of the slag discharging cavity 202.

Specifically, a rotating shaft 4 is coaxially arranged on the upper surface of a furnace cover 204 penetrating through the gasification furnace 2, a rotary table 6 is coaxially and fixedly connected to the lower end of the rotating shaft 4, a support 5 is fixedly arranged on the upper surface of the furnace cover 204, a first motor 3 is fixedly connected to the top end of the support 5, and the output end of the first motor 3 is coaxially and fixedly connected to the top of the rotating shaft 4, so that the rotating shaft 4 can drive the rotary table 6 to rotate along the axis of the gasification furnace 2 under the driving of the first motor 3; the boss 205 is fixedly arranged on the inner wall of the cavity at the top of the gasification cavity 201, the first sliding rail 206 is coaxially arranged on the upper surface of the boss 205 and the gasification furnace 2, and the turntable bump 601 is arranged at the position of the lower surface of the turntable 6 corresponding to the first sliding rail 206, so that the turntable bump 601 can slide in the first sliding rail 206, and the turntable 6 can rotate without departing from the boss 205 of the gasification furnace 2.

Specifically, a connecting frame 8 is fixedly arranged on the lower surface of the rotary table 6, a second motor 9 is fixedly connected to the connecting frame 8, an output end of the second motor 9 is coaxially and fixedly connected with a rotary block 7, the rotary block 7 is coaxially arranged with the rotary table 6, a rotary plate 10 is horizontally and fixedly connected to the outer circumferential surface of the rotary block 7, an annular rotary table slide rail 602 is coaxially arranged on the bottom end surface of the rotary table 6 and the rotary table 6, a rotary block 7 protrusion is arranged on the upper surface of the rotary block 7 corresponding to the rotary table slide rail 602, so that the rotary block 7 protrusion can not slide away from the rotary table slide rail 602, and the rotary block 7 can drive the rotary plate 10 to rotate around the axis of the rotary table 6 under the driving action of; here, the rotary block 7 may be provided in any shape, such as a cylindrical shape, an inverted bottle cap shape, etc., and the distance of the protrusion of the rotary block 7 from the axis of the rotary block 7 is greater than the radius of the rotary shaft 4, so that the rotation of the rotary block 7 and the rotation of the rotary shaft 4 do not affect each other.

Specifically, the one end of commentaries on classics board 10 that keeps away from 4 axes of pivot is provided with commentaries on classics board 10 arch, corresponds commentaries on classics board 10 protruding position department on the terminal surface that boss 205 is close to gasifier 2 axes and is provided with second slide rail 207 to it can not break away from second slide rail 207 to change the protruding board 10 and slide, guarantees to change board 10 and can be around gasifier 2 axes pivoted steady.

Specifically, an opening 603 is formed through the upper surface and the lower surface of the turntable 6, so that the pre-feeding cavity 203 and the gasification cavity 201 can be communicated through the opening 603, the upper surface of the turntable 6 is provided with an inclination angle, and the height of the inclination angle close to the opening 603 is smaller than the height far away from the opening 603, so that the garbage on the turntable 6 can slide down to the position above the opening 603 under the action of gravity; meanwhile, the cross-sectional size of the rotating plate 10 is larger than that of the opening 603, so that the opening 603 can be communicated and blocked after the rotating plate 10 rotates, and the communication and the blocking of the pre-feeding chamber 203 and the gasification chamber 201 can be controlled.

Specifically, a sensor 11 is fixedly arranged on the lower surface of the rotating plate 10, the sensor 11 is electrically connected to a control chamber, the control chamber is electrically connected to the first motor 3 and the second motor 9 respectively, the sensor 11 can select the types of an infrared temperature sensor, a radiation pyrometer and the like, so that the sensor 11 can monitor the surface temperature of the garbage in the gasification chamber 201, and further control the operation of the first motor 3 and the second motor 9 according to the temperature, a preset temperature is input into the control chamber, when the temperature of the garbage is detected to be lower than the preset temperature, only the first motor 3 is controlled to operate to drive the rotating plate 6 to rotate, the temperature of the garbage at each position in the gasification chamber 201 is continuously detected, and at the moment, the rotating plate 10 completely shields the opening 603, so that the garbage on the rotating plate 6 cannot enter the gasification chamber 201; when the detected temperature of the garbage is higher than the preset temperature, the first motor 3 is controlled to stop running, the rotating disc 6 stops running, the second motor 9 is controlled to run, the rotating block 7 is driven to drive the rotating plate 10 to rotate, so that the opening 603 is opened, the garbage falls into the gasification cavity 201 from the opening 603, the opening and closing size of the opening 603 can be further controlled according to the measured temperature, the amount of the garbage entering the gasification cavity 201 is controlled, the total amount of the garbage at each position in the gasification cavity 201 is controlled more accurately, and the gasification reaction effect is ensured; after feeding is finished, the second motor 9 is controlled to drive the rotating plate 10 to cover the opening 603, the first motor 3 continues to operate, so that the rotating disc 6 continues to rotate, and the sensor 11 continues to detect.

But the rubbish steam catalysis gasification equipment of data record of this embodiment 1 passes through the rotation of carousel 6 and drives the rotation of changeing board 10 and sensor 11, and then detects the temperature on rubbish surface through sensor 11, controls the cooperation function of first motor 3 and second motor 9, realizes opening and shutting of 6 openings 603 of carousel, and the total amount and the position of rubbish in accurate control drops into gasification chamber 201, improves the effect of gasification reaction greatly.

Specifically, a feed port 13 is formed through the furnace cover 204, a sealing feed assembly 14 is arranged on the feed port 13 above the furnace cover 204, the sealing feed assembly 14 includes a moving plate 141, a fixing frame 142 and a push rod 143, the fixing frame 142 transversely penetrates through the feed port 13, and extends outwards along a cross section of the feed port 13 and perpendicular to a side wall of the feed port 13, sliding grooves are formed in two inner walls of the fixing frame 142 extending oppositely, the moving plate 141 can be arranged inside the fixing frame 142 along the sliding grooves in a parallel sliding manner, the push rod 143 is fixedly connected to an end face, away from the feed port 13, of the moving plate 141, the push rod 143 penetrates through the side wall of the fixing frame 142, under the pushing and pulling action of the push rod 143, the moving plate 141 can be close to and away from the feed port 13 along.

The garbage steam catalytic gasification device capable of recording data of the embodiment 1 is matched with the sealing feeding assembly 14 and the pre-feeding cavity 203 through the arrangement of the feeding port 13, so that the whole feeding process is performed in a sealing manner, when feeding is needed, the rotating plate 10 is rotated to the position where the opening 603 is covered, so that the gasification cavity 201 is sealed, the pushing rod 143 is used for pulling the moving plate 141 to open the feeding port 13, garbage enters the pre-feeding cavity 203 from the feeding port 13, the pushing rod 143 is used for pushing the moving plate 141 to close the feeding port 13, the first motor 3 is started to drive the rotating disc 6 to rotate, the garbage in the pre-feeding cavity 203 falls to the opening 603 under the action of gravity to prepare feeding, full-sealing feeding is realized, and the gasification sealing environment of the gasification cavity 201 is further ensured.

When the garbage steam catalytic gasification device capable of recording data in the embodiment 1 is used, the first motor 3 is started, the first motor 3 drives the rotary disc 6 to rotate around the axis of the gasification furnace 2 on the boss 205, since the connecting frame 8 fixedly connects the second motor 9, the rotating block 7 and the rotating plate 10 to the rotating disc 6, the rotating plate 10 will rotate together with the rotating disc 6, at this time, the rotating plate 10 will cover the opening 603 of the rotating disc 6, so that the garbage can not fall into the gasification cavity 201, the sensor 11 on the lower surface of the rotating plate 10 detects the surface temperature of the garbage, when the detected temperature is higher than the preset temperature, the rotation of the first motor 3 is stopped, the rotating disc 6 and the rotating plate 10 are stopped at the detection position, the second motor 9 is started, the rotating block 7 drives the rotating plate 10 to rotate along the axis of the rotating disc 6, so that the opening 603 of the rotating disc 6 is opened, and the garbage falls into the gasification cavity 201 from the opening 603 of the rotating disc 6; after the garbage falls into the gasification chamber, the second motor 9 is started to rotate the rotating block 7 and the rotating plate 10 to cover the opening 603, the garbage is stopped to fall into the gasification chamber 201, the first motor 3 is started to drive the electric rotating disc 6, the rotating plate 10 and the sensor 11 to continue rotating, the temperature of each position in the gasification chamber 201 is detected, the detection result is transmitted into the control chamber, at the moment, the push rod 143 can be utilized to pull the moving plate 141 to open the feed port 13, the garbage is thrown into the pre-feeding chamber 203, the garbage in the pre-feeding chamber 203 slides to the position of the opening 603 under the action of the inclined angle of the upper surface of the rotating disc 6, after the feeding is completed, the push rod 143 pushes the moving plate 141 to close the feed port 13, so that the two processes of feeding and blanking are performed in a fully sealed state, the sealed environment of the gasification.

Example 2

The application method of the garbage steam catalytic gasification device capable of recording data in the embodiment 2 comprises a sensor, a control room, a first motor and a second motor, wherein the first motor is used for controlling the rotation of the rotary plate, the second motor is used for controlling the rotation of the rotary plate, the sensor, the first motor and the second motor are respectively electrically connected with the control room, a preset temperature is preset in the control room, a garbage surface detection temperature value is obtained by the sensor and compared with the preset temperature, and a comparison result is transmitted into the control room.

The method for using the garbage steam catalytic gasification device capable of recording data in embodiment 2 includes the steps of firstly starting the first motor 3, driving the rotary plate 6 to rotate on the boss 205 around the axis of the gasification furnace 2 through the first motor 3, fixedly connecting the second motor 9, the rotary block 7 and the rotary plate 10 to the rotary plate 6 through the connecting frame 8, enabling the rotary plate 10 to rotate together with the rotary plate 6, enabling the rotary plate 10 to cover the opening 603 of the rotary plate 6 at the moment, enabling garbage not to fall into the gasification cavity 201, detecting the surface temperature of the garbage through the sensor 11 on the lower surface of the rotary plate 10, transmitting the detected temperature into the control chamber, comparing the detected temperature with the preset temperature, starting the rotation of the first motor 3 and the detection of the sensor 11 when the detected temperature is lower than the preset temperature, stopping the rotation of the first motor 3 when the detected temperature is higher than the preset temperature, enabling the rotary plate 6 and the rotary plate 10 to stay at the detection position, the second motor 9 is started, so that the rotating block 7 drives the rotating plate 10 to rotate along the axis of the rotating disc 6, the opening 603 of the rotating disc 6 is opened, and the garbage falls into the gasification cavity 201 from the opening 603 of the rotating disc 6; the opening degree and the time of the rotating plate 10 can be further accurately controlled according to the detected temperature, so that the total amount of the garbage falling into the detected position is controlled, and the effect of gasification reaction is ensured; after the garbage falls into the pre-feeding cavity 203, the garbage in the pre-feeding cavity 203 slides to the position of the opening 603 under the action of the inclined angle of the upper surface of the rotating disc 6, and after the feeding is finished, the push rod 143 pushes the moving plate 141 to close the feeding port 13, the two processes of feeding and blanking are carried out in a fully sealed state, the sealed environment of gasification reaction is ensured, and the gasification effect is improved.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solutions of the present invention can be made by those skilled in the art without departing from the spirit of the present invention, and the technical solutions of the present invention are within the scope of the present invention defined by the claims.