CN112335459B - Greenhouse temperature control device based on biomass energy - Google Patents

Abstract

The invention relates to the technical field of greenhouse temperature control, in particular to a greenhouse temperature control device based on biomass energy, which comprises a water tank, wherein an incineration box is arranged at the bottom of the water tank, the water tank is welded with the incineration box, a water supplementing port is arranged at the top of the water tank, the water tank is in threaded connection with the water supplementing port, a water inlet pipe is arranged on one side of the water tank, the water tank is in threaded connection with the water inlet pipe, a water outlet pipe is arranged on one side of the water tank, which is far away from the water inlet pipe, the water tank is in threaded connection with the water outlet pipe, an observation window is arranged on the outer surface of the water tank, the water tank is fixed with the observation window through a pin, a thermometer is arranged on one side of the observation window, and the thermometer is fixed with the water tank through a bolt.

Description

Greenhouse temperature control device based on biomass energy

Technical Field

The invention relates to the technical field of greenhouse temperature control, in particular to a greenhouse temperature control device based on biomass energy.

Background

Biomass energy is the energy form of solar energy stored in biomass in the form of chemical energy, namely, the energy taking biomass as a carrier is directly or indirectly derived from photosynthesis of green plants, and can be converted into conventional solid, liquid and gaseous fuels, so that the biomass energy is inexhaustible and is a renewable energy source and is the only renewable carbon source.

However, when the plants are incinerated, the plants in the central part are not thoroughly incinerated, carbon monoxide is easy to occur during incineration, the carbon monoxide is dangerous, the feeding is troublesome, and the burning is easy.

Disclosure of Invention

The greenhouse temperature control device based on biomass energy is reasonable in design, ingenious in structure, more thorough in burning, more convenient in feeding, effective in preventing burning, good in market competitiveness and worthy of recommendation through mutual coordination among the structures.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the greenhouse temperature control device based on biomass energy comprises a water tank, wherein a burning box is arranged at the bottom of the water tank, the water tank is welded with the burning box, a water supplementing port is arranged at the top of the water tank, the water tank is in threaded connection with the water supplementing port, a water inlet pipe is arranged on one side of the water tank, the water tank is in threaded connection with the water inlet pipe, a water outlet pipe is arranged on one side of the water tank, which is far away from the water inlet pipe, the water tank is in threaded connection with the water outlet pipe, an observation window is arranged on the outer surface of the water tank, the water tank is fixed with the observation window through a pin, a thermometer is arranged on one side of the observation window, the thermometer is fixed with the water tank through a bolt, a fixing frame is arranged between the water outlet pipe and the water tank, one side of the fixing frame, which is close to the water outlet pipe, is fixed with the water outlet pipe through a bolt, the utility model discloses a water tank, including burning case, fixed disk, rotary rod, motor case, heat conduction block, extension rod, placing bin, first fixture block and placing bin are installed to the top of burning case one side that is close to the inlet tube installs the fixed disk in the top of burning case one side that is close to the inlet tube, fixed disk and burning case fixed connection, the internally mounted of fixed disk has the rotary rod, fixed disk and rotary rod welding, the motor case is installed at one side top that the fixed disk was kept away from to burning case, the one end that the motor case is close to burning case passes through the bolt fastening with burning case, install the heat conduction block between water tank and the burning case, heat conduction block and water tank fixed connection, the extension rod is integrated with the fixed disk design, the extension rod is fixed in the inside of burning case, the internally mounted of burning case has the placing bin, place bin sliding connection in the inside of burning case, one side of placing bin installs first fixture block, first fixture block is integrated with placing bin design, the filter plate is arranged at the bottom of the placing bin, the filter plate is welded with the placing bin, the collecting cavity is arranged at the bottom of the placing bin, the collecting cavity and the burning box are integrally designed, the inclined plate is arranged in the burning box, the burning box is attached to the inclined plate, the motor is arranged in the motor box, the motor box is fixed with the motor through bolts, the extrusion part is arranged at the end part of the output shaft of the motor, the extrusion part is welded with the output shaft of the motor, the top of the extrusion part is attached to the filter plate, half of the shaft section of the extrusion part is arc-shaped, the rotating plate is arranged in the water outlet pipe, the water outlet pipe is rotationally connected with the rotating plate, the turbine rod is arranged at one side of the rotating plate, the rotating plate is welded with the turbine rod, the shaft section of the rotating plate is in a cross shape, a first belt is arranged on the surface of an output shaft of the motor, one end of the first belt, which is far away from the motor, penetrates through the motor case and is sleeved with the rotating plate, the turbine rod is arranged in the first belt, the turbine rod is sleeved with the first belt, fan blades are arranged on one side of the turbine rod, the turbine pole is integrated with the flabellum, the movable rod is installed to one side that the turbine pole was kept away from to the flabellum, movable rod sliding connection is in the inside of burning the case, the internally mounted who burns the case has the ventilation groove, burn case and ventilation groove and be integrated with each other and design, the internally mounted in ventilation groove has the aviation baffle, the aviation baffle rotates with the ventilation groove and is connected.

Preferably, the heat conducting block is made of copper, a first spring is mounted in the rotary rod, one end, close to the fixed disc, of the first spring is welded with the fixed disc, and one end, far away from the fixed disc, of the first spring is welded with the rotary rod.

Preferably, the first clamping groove is arranged at the position, corresponding to the first clamping block, of the inner part of the incineration box, the first clamping block is matched with the first clamping groove, the first clamping groove is designed integrally with the incineration box, the first clamping block is slidably connected to the inner part of the first clamping groove, the second spring is arranged in the inner part of the first clamping groove, one end, close to the first clamping block, of the second spring is welded with the first clamping block, and one end, far away from the first clamping block, of the second spring is welded with the incineration box.

Preferably, the impurity outlet is arranged at the bottom of one side of the incineration box far away from the motor box, the impurity outlet and the incineration box are integrally designed, the cross section of the inclined plate is right trapezoid, and one side of the top of the inclined plate close to the impurity outlet is obliquely arranged downwards.

Preferably, the bull stick is installed to one side of aviation baffle, the aviation baffle passes through the bull stick rotation with burning the case and is connected, the connecting plate is installed to one side of carriage release lever, the jack-up post is installed to the positive side of connecting plate, the connecting plate is integrated with the jack-up post design, the top of jack-up post is laminated mutually with the aviation baffle.

Preferably, the cross is installed in the ventilation groove, the cross is fixedly connected with the turbine rod, the cross is in a cross shape in the shaft section, a second clamping block is installed on one side of the moving rod, and the moving rod and the second clamping block are integrally designed.

Preferably, the screw thread section of thick bamboo is installed at the top of carriage release lever, carriage release lever passes through threaded connection with the screw thread section of thick bamboo, the cross passes through the bearing with burn the case and rotates to be connected, burn the inside of case and correspond the position of second fixture block and install the second draw-in groove, second draw-in groove and second fixture block assorted, the second draw-in groove is integrated with burn the case and is the design, second fixture block sliding connection is in the inside of second draw-in groove.

Preferably, the second gear is installed to the surface of screw thread section of thick bamboo, second gear and screw thread section of thick bamboo fixed connection, first gear is installed to one side of second gear, first gear and screw thread section of thick bamboo meshing, the flitch is installed to one side of burning case, burn the case and throw the flitch and rotate and be connected, the fire-proof strip is all installed to the both sides of throwing the flitch, throw flitch and two fire-proof strips and all pass through the bolt fastening.

The greenhouse temperature control device based on biomass energy provided by the invention has the beneficial effects that: through turning over the feeding plate, thereby opening the fire-proof belt on the side surface of the feeding plate, preventing the material from being spilled, and the opening is upward after the feeding plate rotates, preventing the user from burning when opening again, the material is convenient to drop in the inside of the placing bin due to the inclination on the surface of the feeding plate, the bottom of the placing bin is a filter plate, the lighter or other objects are convenient to ignite, water in the water tank is heated, the motor is used for carrying the extrusion part to extrude the filter plate, the placing bin is moved, ash after the combustion at the top of the filter plate is shaken off, the motor is used for carrying the first belt to rotate, the first belt is used for carrying the rotating plate, the rotating plate is used for carrying the turbine rod to rotate, the water tank can circulate through the water outlet pipe, the water reaches the inside of the water inlet pipe through the water outlet pipe, and finally the inside of the water tank circulates, the invention has reasonable design, ingenious structure, more thorough burning, more convenient feeding and effective burn prevention through mutual matching among structures, has good market competitiveness and is worth recommending.

Drawings

FIG. 1 is a schematic diagram of a greenhouse temperature control device based on biomass energy;

FIG. 2 is a cross-sectional view of a greenhouse temperature control device based on biomass energy provided by the invention;

FIG. 3 is a partial cross-sectional view of a greenhouse temperature control device based on biomass energy provided by the invention;

FIG. 4 is a partial side cross-sectional view of a biomass energy-based greenhouse temperature control device according to the present invention;

FIG. 5 is a top view of a feeding plate of a greenhouse temperature control device based on biomass energy;

FIG. 6 is a top cross-sectional view of a biomass energy-based greenhouse temperature control device according to the present invention;

fig. 7 is a schematic diagram of an extrusion structure of a greenhouse temperature control device based on biomass energy.

In the figure: 1. a water tank; 2. a water supplementing port; 3. an observation window; 4. a thermometer; 5. a first belt; 6. a fixing frame; 7. a water outlet pipe; 8. a motor case; 9. an incineration box; 10. a rotating rod; 11. a water inlet pipe; 12. a fixed plate; 13. a heat conduction block; 14. a first spring; 15. a projecting rod; 16. a first clamping block; 17. a first clamping groove; 18. a impurity outlet; 19. an extrusion; 20. a collection chamber; 21. a filter plate; 22. a sloping plate; 23. a motor; 24. placing a bin; 25. a second spring; 26. a rotating plate; 27. a turbine rod; 28. a first gear; 29. a thread cylinder; 30. a second gear; 31. a moving rod; 32. a second clamping groove; 33. a second clamping block; 34. an air deflector; 35. a rotating rod; 36. a connecting plate; 37. a top column; 38. a ventilation groove; 39. a cross; 40. a fan blade; 41. a feeding plate; 42. a fire-proof belt.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-7, a greenhouse temperature control device based on biomass energy, including water tank 1, burn case 9 is installed to the bottom of water tank 1, burn the inside of case 9 and correspond the position of first fixture block 16 and install first draw-in groove 17, first fixture block 16 and first draw-in groove 17 assorted, first draw-in groove 17 is integrated with burn case 9 and is the design, first fixture block 16 sliding connection is in the inside of first draw-in groove 17, the internally mounted of first draw-in groove 17 has second spring 25, the one end that second spring 25 is close to first fixture block 16 and first fixture block 16 welding, the one end that second spring 25 kept away from first fixture block 16 and burns case 9 welding, make the fixing more firm.

The impurity outlet 18 is arranged at the bottom of one side of the incineration box 9 far away from the motor box 8, the impurity outlet 18 and the incineration box 9 are integrally designed, the shaft section of the inclined plate 22 is in a right trapezoid shape, and one side of the top of the inclined plate 22 close to the impurity outlet 18 is obliquely arranged downwards, so that residues are conveniently discharged.

The water tank 1 with burn case 9 welding, the moisturizing mouth 2 is installed at the top of water tank 1, water tank 1 passes through threaded connection with moisturizing mouth 2, inlet tube 11 is installed to one side of water tank 1, water tank 1 passes through threaded connection with inlet tube 11, outlet tube 7 is installed to one side that water tank 1 kept away from inlet tube 11, water tank 1 passes through threaded connection with outlet tube 7, the observation window 3 is installed to the surface mounting of water tank 1, water tank 1 passes through the pin fastening with observation window 3, thermometer 4 passes through the bolt fastening with water tank 1, install mount 6 between outlet tube 7 and the water tank 1, one side that mount 6 is close to water tank 1 welds with water tank 1, one side that mount 6 is close to outlet tube 7 passes through the bolt fastening with outlet tube 7, the top of burning case 9 is close to one side of inlet tube 11 and is installed fixed disk 12, fixed disk 12 and burns case 9 fixed connection, the internally mounted of fixed disk 12 has rotary rod 10, fixed disk 12 and rotary rod 10 welding, the one side top of burning case 9 is kept away from fixed disk 12 installs motor case 8, the one end that burns case 9 is close to burning case 9 passes through the bolt fastening with burning case 9, the heat conduction block 13 is installed between water tank 1 and the case 9, the heat conduction block 13 is fixed disk 13, the inside spring 14 is kept away from with the first end 14, the fixed disk is fixed spring 14 is kept away from with the fixed disk, the fixed disk is fixed spring 14, the first end is more is fixed with the inside spring 14.

The heat conducting block 13 is fixedly connected with the water tank 1, one side of the fixed disk 12 close to the incineration box 9 is provided with an extension rod 15, the extension rod 15 and the fixed disk 12 are integrally designed, the extension rod 15 is fixed in the incineration box 9, a placing bin 24 is arranged in the incineration box 9, the placing bin 24 is slidably connected in the incineration box 9, one side of the placing bin 24 is provided with a first clamping block 16, the first clamping block 16 and the placing bin 24 are integrally designed, the bottom of the placing bin 24 is provided with a filter plate 21, the filter plate 21 is welded with the placing bin 24, the bottom of the placing bin 24 is provided with a collecting cavity 20, the collecting cavity 20 and the incineration box 9 are integrally designed, an inclined plate 22 is arranged in the incineration box 9, the incineration box 9 is attached to the inclined plate 22, a motor 23 is arranged in the motor box 8, the motor box 8 and the motor 23 are fixedly connected through bolts, the end part of an output shaft of the motor 23 is provided with an extrusion 19, the extrusion 19 is welded with the output shaft of the motor 23, the top of the extrusion 19 is attached to the filter plate 21, half of the shaft section of the extrusion 19 is arc-shaped, a rotating plate 26 is arranged in the water outlet pipe 7, the water outlet pipe 7 is rotationally connected with the rotating plate 26, a turbine rod 27 is arranged on one side of the rotating plate 26, the rotating plate 26 is welded with the turbine rod 27, the shaft section of the rotating plate 26 is cross-shaped, a first belt 5 is arranged on the surface of the output shaft of the motor 23, one end of the first belt 5 far away from the motor 23 penetrates through the motor case 8 and is sleeved with the rotating plate 26, a turbine rod 27 is arranged in the interior of the first belt 5, the turbine rod 27 is sleeved with the first belt 5, a fan blade 40 is arranged on one side of the turbine rod 27, the turbine rod 27 and the fan blade 40 are integrally designed, a moving rod 31 is arranged on one side of the fan blade 40 far away from the turbine rod 27, the moving rod 31 is slidingly connected in the interior of the incineration case 9, the internally mounted who burns case 9 has ventilation groove 38, and ventilation groove 38's internally mounted has cross 39, and cross 39 and turbo bar 27 fixed connection, cross 39's axle cross-section shape be the cross, and second fixture block 33 is installed to one side of movable rod 31, and movable rod 31 and second fixture block 33 are integrated into one piece design, conveniently fix.

The screw thread section of thick bamboo 29 is installed at the top of movable rod 31, movable rod 31 passes through threaded connection with screw thread section of thick bamboo 29, cross 39 passes through the bearing rotation with burn case 9 and is connected, the second draw-in groove 32 is installed to the inside of burn case 9 corresponding to the position of second fixture block 33, second draw-in groove 32 and second fixture block 33 assorted, second draw-in groove 32 is integrated with burn case 9 and designs, second fixture block 33 sliding connection is in the inside of second draw-in groove 32, increase the stability of device, and it is fixed more firm.

The second gear 30 is installed to the surface of screw thread section of thick bamboo 29, second gear 30 and screw thread section of thick bamboo 29 fixed connection, first gear 28 is installed to one side of second gear 30, first gear 28 and screw thread section of thick bamboo 29 meshing, the flitch 41 is installed to one side of burning case 9, burning case 9 rotates with flitch 41 to be connected, fire belts 42 are all installed to the both sides of flitch 41 of throwing, flitch 41 and two fire belts 42 are all fixed through the bolt, conveniently remove, and it is more convenient to remove.

The utility model discloses a burn case 9 and ventilation groove 38 and be integrated into one piece design, ventilation groove 38's internally mounted has aviation baffle 34, and bull stick 35 is installed to one side of aviation baffle 34, and aviation baffle 34 passes through bull stick 35 rotation with burn case 9 and is connected, and connecting plate 36 is installed to one side of carriage release lever 31, and jack-prop 37 is installed to the positive side of connecting plate 36, and connecting plate 36 is integrated into one piece design with jack-prop 37, and the top of jack-prop 37 is laminated mutually with aviation baffle 34, conveniently heats.

The air deflector 34 is rotatably connected to the ventilation slot 38.

Working principle: the fire-proof belt 42 on the side surface of the feeding plate 41 is opened by overturning the feeding plate 41, so that the material is prevented from being spilled, the opening is upward after the feeding plate 41 rotates, when the fire-proof belt is prevented from being reopened, a user is burnt, the material is convenient to fall into the placing bin 24 due to the inclination of the surface of the feeding plate 41, the bottom of the placing bin 24 is the filter plate 21, the lighter or other objects are convenient to ignite, the water in the water tank 1 is heated, the extruding piece 19 is rotated by the motor 23, the filter plate 21 is extruded by the extruding piece 19, the placing bin 24 is moved, ash burnt at the top of the filter plate 21 is shaken off, the motor 23 is rotated by the first belt 5, the first belt 5 is rotated by the rotating plate 26, the rotating plate 26 is rotated by the turbine rod 27, the water in the water tank 1 reaching the water outlet pipe 7 can circulate, the water passes through the water outlet pipe 7 to reach the inside of the water inlet pipe 11 and finally reaches the inside of the water tank 1 to circulate, thereby heating objects to be heated, the first belt 5 rotates with the turbine rod 27 to rotate the fan blades 40, oxygen in the inside is increased, the second gear 30 rotates by rotating the first gear 28 to rotate the thread cylinder 29, one side of the moving rod 31 is slidably connected to the inside of the incineration tank 9, the moving rod 31 moves with the connecting plate 36, the connecting plate 36 moves with the jacking column 37, the air deflector 34 tilts, the direction of the air is changed, the combustion is more complete, and when the proper temperature is reached, the heat preservation effect is achieved by rotating the rotating rod 10 to block the contact area of the fire and the heat conducting block 13.

The present invention is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present invention and the novel concept of the present invention, can be equivalently replaced or changed within the scope of the present invention.

Claims (8)

1. The utility model provides a greenhouse temperature regulating device based on biomass energy, includes water tank (1), its characterized in that, burn case (9) are installed to the bottom of water tank (1), water tank (1) and burn case (9) welding, moisturizing mouth (2) are installed at the top of water tank (1), water tank (1) and moisturizing mouth (2) pass through threaded connection, inlet tube (11) are installed to one side of water tank (1), water tank (1) and inlet tube (11) pass through threaded connection, outlet pipe (7) are installed to one side that water tank (1) kept away from inlet tube (11), water tank (1) and outlet pipe (7) pass through threaded connection, observation window (3) are installed to the surface of water tank (1), water tank (1) and observation window (3) pass through the pin to be fixed, thermometer (4) are installed to one side of observation window (3), thermometer (4) and water tank (1) pass through bolted connection, install inlet tube (6) between water tank (1), outlet pipe (1) and water tank (1) pass through threaded connection, outlet pipe (7) are installed to one side that water tank (1) is kept away from inlet tube (7) and outlet pipe (7) pass through welded with water tank (7) and one side that is close to water tank (1), the utility model discloses a water tank, including burning case (9), fixed disk (12) are installed to one side that burns case (9) top and is close to inlet tube (11), fixed disk (12) and burn case (9) fixed connection, the internally mounted of fixed disk (12) has rotary rod (10), fixed disk (12) and rotary rod (10) welding, one side top that burns case (9) kept away from fixed disk (12) is installed motor case (8), one end that burns case (8) are close to burns case (9) and pass through the bolt fastening, install heat conduction block (13) between water tank (1) and burns case (9), heat conduction block (13) and water tank (1) fixed connection, one side that fixed disk (12) are close to burns case (9) is installed and is stretched into pole (15), stretch into pole (15) and fixed disk (12) are integrated into the design, stretch into pole (15) and be fixed in the inside of burning case (9), the internally mounted who burns case (9) places storehouse (24), place storehouse (24) and place one side (16) and place the fixture block (16), the utility model discloses a filter plate (21) is installed to the bottom of placing storehouse (24), filter plate (21) and place storehouse (24) welding, collection chamber (20) is installed to the bottom of placing storehouse (24), collection chamber (20) are the integral type design with burn case (9), the internally mounted who burns case (9) has swash plate (22), burn case (9) and swash plate (22) laminating mutually, the internally mounted of motor case (8) has motor (23), motor case (8) and motor (23) pass through the bolt fastening, extrusion piece (19) are installed to the output shaft tip of motor (23), extrusion piece (19) and the output shaft welding of motor (23), the top of extrusion piece (19) and filter plate (21) laminating mutually, the half shape of shaft cross section of extrusion piece (19) is convex, the internally mounted of outlet pipe (7) has rotor plate (26), turbine pole (27) are installed with rotor plate (26) rotation, turbine pole (26) are installed to one side of rotor plate (26), turbine pole (26) and turbine pole (27) are cross-shaped shaft (26) are the cross-shaped, rotor plate (5) cross section shape is welded, the one end that motor (23) was kept away from to first belt (5) runs through motor case (8) to cup joint with rotor plate (26), internally mounted of first belt (5) has turbine pole (27), turbine pole (27) cup joint with first belt (5), flabellum (40) are installed to one side of turbine pole (27), turbine pole (27) are integrated with flabellum (40) and design, movable rod (31) are installed to one side that turbine pole (27) was kept away from to flabellum (40), movable rod (31) sliding connection is in the inside that burns case (9), the internally mounted who burns case (9) has ventilation groove (38), burn case (9) and ventilation groove (38) and be integrated with each other design, internally mounted of ventilation groove (38) has aviation baffle (34), aviation baffle (34) are rotated with ventilation groove (38) and are connected.

2. The greenhouse temperature control device based on biomass energy according to claim 1, wherein the heat conducting block (13) is made of copper, a first spring (14) is installed in the rotary rod (10), one end, close to the fixed disc (12), of the first spring (14) is welded with the fixed disc (12), and one end, far away from the fixed disc (12), of the first spring (14) is welded with the rotary rod (10).

3. The greenhouse temperature control device based on biomass energy according to claim 1, wherein the first clamping groove (17) is installed in the position, corresponding to the first clamping block (16), of the inner portion of the incineration box (9), the first clamping block (16) is matched with the first clamping groove (17), the first clamping groove (17) is integrally designed with the incineration box (9), the first clamping block (16) is slidably connected to the inner portion of the first clamping groove (17), the second spring (25) is installed in the inner portion of the first clamping groove (17), one end, close to the first clamping block (16), of the second spring (25) is welded with the first clamping block (16), and one end, far away from the first clamping block (16), of the second spring (25) is welded with the incineration box (9).

4. The greenhouse temperature control device based on biomass energy according to claim 1, wherein a trash outlet (18) is arranged at the bottom of one side of the incineration box (9) far away from the motor box (8), the trash outlet (18) and the incineration box (9) are integrally designed, the shaft section of the inclined plate (22) is in a right trapezoid shape, and one side of the top of the inclined plate (22) close to the trash outlet (18) is arranged in a downward inclined mode.

5. The biomass energy-based greenhouse temperature control device according to claim 1, wherein a rotating rod (35) is installed on one side of the air deflector (34), the air deflector (34) is rotationally connected with the incineration box (9) through the rotating rod (35), a connecting plate (36) is installed on one side of the moving rod (31), a jacking column (37) is installed on the positive side of the connecting plate (36), the connecting plate (36) and the jacking column (37) are integrally designed, and the top of the jacking column (37) is attached to the air deflector (34).

6. The biomass energy-based greenhouse temperature control device according to claim 1, wherein a cross (39) is installed in the ventilation groove (38), the cross (39) is fixedly connected with the turbine rod (27), the cross (39) is in a cross shape in axial section, a second clamping block (33) is installed on one side of the moving rod (31), and the moving rod (31) and the second clamping block (33) are integrally designed.

7. The biomass energy-based greenhouse temperature control device according to claim 6, wherein the screw thread cylinder (29) is installed at the top of the movable rod (31), the movable rod (31) is connected with the screw thread cylinder (29) through screw threads, the cross (39) is rotationally connected with the incineration box (9) through a bearing, the second clamping groove (32) is installed in the incineration box (9) at a position corresponding to the second clamping block (33), the second clamping groove (32) is matched with the second clamping block (33), the second clamping groove (32) is integrally designed with the incineration box (9), and the second clamping block (33) is slidably connected in the second clamping groove (32).

8. The biomass energy-based greenhouse temperature control device according to claim 7, wherein a second gear (30) is mounted on the outer surface of the threaded cylinder (29), the second gear (30) is fixedly connected with the threaded cylinder (29), a first gear (28) is mounted on one side of the second gear (30), the first gear (28) is meshed with the threaded cylinder (29), a feeding plate (41) is mounted on one side of the incineration tank (9), the incineration tank (9) is rotationally connected with the feeding plate (41), fire belts (42) are mounted on two sides of the feeding plate (41), and the feeding plate (41) and the two fire belts (42) are fixed through bolts.

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