CN114851383B

CN114851383B - Autoclaved aerated concrete block production is with heat preservation pouring device

Info

Publication number: CN114851383B
Application number: CN202210511584.3A
Authority: CN
Inventors: 张建
Original assignee: Hunan Wuchuang Environmental Protection Building Materials Co ltd
Current assignee: Hunan Wuchuang Environmental Protection Building Materials Co ltd
Priority date: 2022-05-12
Filing date: 2022-05-12
Publication date: 2023-10-27
Anticipated expiration: 2042-05-12
Also published as: CN114851383A

Abstract

A heat preservation pouring device for autoclaved aerated concrete block production relates to the technical field of concrete block pouring, wherein a main body plate is provided with a discharge mechanism, a heating mechanism and a discharge mechanism respectively, two discharge ends of the discharge mechanism are provided with discharge pipes respectively, and the discharge ends of the discharge mechanism are positioned in the discharge pipes and are in sliding connection; according to the heat preservation pouring device for autoclaved aerated concrete block production, the concrete materials are stirred through the discharging mechanism, the heating mechanism is driven to work in the stirring process, the outside air is heated through the heating mechanism, the heated air is conveyed into the discharging barrel and the stirring blades of the discharging mechanism, so that the concrete is supplemented with a certain amount of heat in the stirring process, the concrete is preserved, the temperature of the moisture in the concrete is prevented from being reduced, the concrete is prevented from caking or an initial setting state is caused, and the discharging mechanism is used for controlling the amount of the concrete discharged through the discharging mechanism.

Description

Autoclaved aerated concrete block production is with heat preservation pouring device

Technical Field

The invention relates to the technical field of concrete block pouring, in particular to a heat preservation pouring device for autoclaved aerated concrete block production.

Background

The staff pours the concrete material that mixes into the building block mould in, through pressing the air entrainment shaping, current pouring device is the stirring and is arranged simultaneously, but can make the heat in the concrete material volatilize with higher speed in the stirring process, leads to the moisture temperature in the concrete to reduce, makes the concrete block even agglomerate in the stirring process, and the staff is because the noon eat or because other things delay time after longer, and the concrete in the pouring device appears the initial setting state very easily, influences the normal work of pouring device.

Disclosure of Invention

In order to overcome the defects in the background technology, the invention discloses a heat preservation pouring device for autoclaved aerated concrete block production, which is characterized in that a discharge mechanism is used for stirring concrete materials, a heating mechanism is driven to work in the stirring process, external air is heated through the heating mechanism, and the heated air is conveyed into a discharge cylinder and stirring blades of the discharge mechanism, so that the concrete is supplemented with a certain amount of heat in the stirring process, the concrete is preserved, the temperature of the moisture in the concrete is prevented from being reduced, the concrete is prevented from caking or an initial setting state is caused, and the discharge mechanism is used for controlling the discharge amount of the concrete.

In order to achieve the aim of the invention, the invention adopts the following technical scheme:

the utility model provides an evaporate and press heat preservation pouring device for aerated concrete block production, includes the main part board, install bin outlet mechanism, heating mechanism and discharge mechanism on the main part board respectively, and install row material pipe respectively on two row material ends of bin outlet mechanism, discharge end of discharge mechanism is located row material intraductal and sliding connection, heating mechanism's drive end is connected with bin outlet mechanism's drive end, and heating mechanism's air feed end and bin outlet mechanism's inlet end intercommunication, install the promotion frame on the main part board, and promote the shelf location and have switch, switch's input is connected with external power source's output, switch's output is connected with bin outlet mechanism's input electricity, the pulley is installed respectively in main part board's lower surface four corners.

The discharging mechanism comprises positioning blocks, sliding rods, sliding plates, springs and pressing plates, wherein the number of the positioning blocks is two, the two positioning blocks are located on the main body plate and are fixedly connected with each other, the sliding rods are connected to the positioning blocks in a sliding mode, one ends of the sliding rods are fixedly connected with the pressing plates, the springs are arranged between the pressing plates and the positioning blocks, the springs are sleeved with the sliding rods, the two sliding plates are fixedly connected to the pressing plates, one ends of the sliding plates penetrate through the discharging pipe and are fixedly connected with the sliding plates, and a discharging port is formed in each sliding plate.

The heating mechanism comprises a positioning frame, a rotating cylinder, a fixed plate, a bearing, an air supply pipe, a heating sleeve, a shunt tube, a sealing bearing, a transmission gear, a pushing plate, a first gear, a connecting frame, a T-shaped driving plate, a sliding rod, a connecting rod, a limiting plate, an air bag, a second gear, a magnet and a bevel gear, wherein the positioning frame is positioned on the main body plate and fixedly connected with the positioning frame, the heating sleeve is fixedly connected with the positioning frame, the rotating cylinder is rotationally connected with the heating sleeve, two fixed plates are respectively and fixedly connected with the inner walls of the two sides of the positioning frame, the bearing is fixedly connected between the two fixed plates, the rotating end of the bearing is connected with the rotating cylinder, the magnets are respectively and fixedly connected with the outer walls of the rotating cylinder and the heating sleeve, the magnets are not contacted with each other, the air bag and the air supply pipe are respectively installed at the air outlet of the air supply pipe and the shunt tube, the air outlet of the two sides of the shunt tube is communicated with the air inlet of the fixed end of the discharge mechanism, the air outlet in the middle of the shunt tube is communicated with the air inlet of the rotating end of the discharge mechanism through the sealing bearing, the second gear is fixedly connected with the two fixed plates, the two fixed plates are fixedly connected with the head ends of the T-shaped driving plate and the T-shaped driving plate, the T-shaped driving plate is fixedly connected with the T-shaped driving plate and fixedly connected with the T-shaped driving plate respectively and fixedly connected with the T-shaped driving plate, the T-shaped driving plate is characterized in that a connecting frame is fixedly connected to the middle position of the T-shaped driving plate, a pushing plate is rotationally connected to the connecting frame, a connecting rod is rotationally connected to one end of the pushing plate, a bevel gear is fixedly connected to one end of the connecting rod, the bevel gear is located on one of the limiting plates and rotationally connected to the limiting plate, and the position of the bevel gear is corresponding to the position of the transmission gear and is in meshed connection with the transmission gear.

The transmission gear comprises a support rod, a gear and a transmission bevel gear, wherein the support rod is positioned on the fixed end of the discharging mechanism and is fixedly connected with the fixed end of the discharging mechanism, the top end of the support rod is rotationally connected with the gear, the gear is respectively meshed with the first gear and the second gear, the transmission bevel gear is fixedly connected on the gear, and the transmission bevel gear is meshed with the bevel gear.

The gasbag comprises two movable plates and flexible plastic sleeve, and one movable plate is located the air inlet end of heating sleeve, and another movable plate is connected with the single head end of T type drive board and is connected, fixedly connected with flexible plastic sleeve between two movable plates is equipped with logical groove respectively on two movable plates, and the logical inslot of upper side movable plate is installed and is admitted air the check valve, and the logical groove of the movable plate of downside communicates with the air inlet end of heating sleeve, and logical inslot installs the exhaust check valve.

The utility model provides a discharge mechanism includes row feed cylinder, stirring leaf, motor, support frame and rotates the sleeve, row feed cylinder is located main part board and fixed connection, be equipped with spiral air inlet groove on the section of thick bamboo wall of row feed cylinder, and spiral air inlet groove communicates with heating mechanism's air feed end, install heating mechanism's drive end on the row feed cylinder, the intermediate position rotation of row feed cylinder is connected with rotates the sleeve, and rotates telescopic top and motor connection, rotate telescopic bottom and heating mechanism's air feed end intercommunication, the motor passes through the support frame and is connected with row feed cylinder, the stirring leaf that fixedly connected with equidistance was arranged on the rotation sleeve, and stir the leaf and be located row feed cylinder, stirring leaf is hollow mesh board, and stir the cavity of leaf and rotate the sleeve intercommunication, two discharge gates of row feed cylinder are fixedly connected with row material pipe respectively.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

according to the heat preservation pouring device for autoclaved aerated concrete block production, the concrete materials are stirred through the discharging mechanism, the heating mechanism is driven to work in the stirring process, the outside air is heated through the heating mechanism, the heated air is conveyed into the discharging barrel and the stirring blades of the discharging mechanism, so that the concrete is supplemented with a certain amount of heat in the stirring process, the concrete is preserved, the temperature of the moisture in the concrete is prevented from being reduced, the concrete is prevented from caking or an initial setting state is caused, and the discharging mechanism is used for controlling the amount of the concrete discharged through the discharging mechanism.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is an enlarged schematic view of the structure of the invention at A;

FIG. 3 is a cross-sectional view of the present invention;

1. a main body plate; 2. a discharging mechanism; 201. a discharge cylinder; 202. stirring blades; 203. a motor; 204. a support frame; 205. rotating the sleeve; 3. a heating mechanism; 301. a positioning frame; 302. a rotating cylinder; 303. a fixing plate; 304. a bearing; 305. an air supply pipe; 306. heating the sleeve; 307. a shunt; 308. sealing the bearing; 309. a transmission gear; 310. a pushing plate; 311. a first gear; 312. a connecting frame; 313. a T-shaped driving plate; 314. a slide bar; 315. a connecting rod; 316. a limiting plate; 317. an air bag; 318. a second gear; 319. a magnet; 320. bevel gears; 4. a pushing frame; 5. a power switch; 6. a discharging mechanism; 601. a positioning block; 602. a slide bar; 603. a sliding plate; 604. a spring; 605. pressing the plate; 7. a pulley; 8. and a discharge pipe.

Detailed Description

The invention will be explained in more detail by the following examples, the purpose of which is to protect all technical improvements within the scope of the invention.

According to the heat preservation pouring device for autoclaved aerated concrete block production, the device comprises a main body plate 1, a material discharging mechanism 2, a heating mechanism 3 and a material discharging mechanism 6 are respectively installed on the main body plate 1, a material discharging pipe 8 is respectively installed on two material discharging ends of the material discharging mechanism 2, the material discharging end of the material discharging mechanism 6 is located in the material discharging pipe 8 and is in sliding connection, the driving end of the heating mechanism 3 is connected with the driving end of the material discharging mechanism 2, the air supplying end of the heating mechanism 3 is communicated with the air inlet end of the material discharging mechanism 2, concrete is stirred through the material discharging mechanism 2, the heating mechanism 3 is driven to work while stirring, air outside is pumped and heated through the heating mechanism 3, the heated air is conveyed into the material discharging mechanism 2, the concrete in the material discharging mechanism 2 is preserved in heat, a pushing frame 4 is installed on the main body plate 1, a power switch 5 is installed on the pushing frame 4, the input end of the power switch 5 is connected with the output end of an external power supply, the output end of the power switch 5 is connected with the material discharging mechanism 2 through the power supply switch 5, and the air is connected with the air discharging mechanism 2 through the air inlet end of the air discharging mechanism 7, and the air is convenient to pour four corners of the concrete block through the air discharging mechanism 2, and the air is convenient to use by a worker to control the air discharging pulley 7.

The discharging mechanism 6 comprises positioning blocks 601, sliding rods 602, sliding plates 603, springs 604 and pressing plates 605, the number of the positioning blocks 601 is two, the two positioning blocks 601 are both located on the main body plate 1 and fixedly connected with each other, the sliding rods 602 are connected to the positioning blocks 601 in a sliding mode, one ends of the sliding rods 602 are fixedly connected with the pressing plates 605, the springs 604 are arranged between the pressing plates 605 and the positioning blocks 601, the springs 604 are sleeved with the sliding rods 602, the two sliding plates 603 are fixedly connected to the pressing plates 605, one ends of the sliding plates 603 penetrate through the discharging pipe 8 and are connected in a sliding mode, and discharging ports are formed in the sliding plates 603.

The heating mechanism 3 comprises a positioning frame 301, a rotating cylinder 302, a fixing plate 303, a bearing 304, an air supply pipe 305, a heating sleeve 306, a shunt pipe 307, a sealing bearing 308, a transmission gear 309, a pushing plate 310, a first gear 311, a connecting frame 312, a T-shaped driving plate 313, a sliding rod 314, a connecting rod 315, a limiting plate 316, an air bag 317, a second gear 318, a magnet 319 and a bevel gear 320, wherein the positioning frame 301 is positioned on the main body plate 1 and fixedly connected with the heating sleeve 306, the heating sleeve 306 is fixedly connected with the rotating cylinder 302 in a rotating way, two fixing plates 303 are respectively and fixedly connected with the inner walls on two sides of the positioning frame 301, a bearing 304 is fixedly connected between the two fixing plates 303, the rotating end of the bearing 304 is connected with the rotating cylinder 302, the inner wall of the rotating cylinder 302 and the outer wall of the heating sleeve 306 are respectively and fixedly connected with magnets 319 which are equidistantly arranged, the magnets 319 are not contacted with each other, the magnets 319 on the rotating cylinder 302 are opposite to the magnets 319 on the heating sleeve 306 in magnetism, the rotating cylinder 302 drives the magnets 319 to rotate, friction heat is generated, the magnets 319 have good heat conductivity, the heating sleeve 306 can be heated, air is heated when passing through the heated heating sleeve 306, an air inlet and an air outlet of the heating sleeve 306 are respectively provided with an air bag 317 and an air supply pipe 305 and are communicated, an air outlet of the air supply pipe 305 is communicated with the shunt pipe 307, air outlets on two sides of the shunt pipe 307 are communicated with an air inlet at the fixed end of the discharging mechanism 2, an air outlet in the middle of the shunt pipe 307 is communicated with an air inlet at the rotating end of the discharging mechanism 2 through a sealing bearing 308, the second gear 318 is positioned on the rotating cylinder 302 and is fixedly connected, the transmission gear 309 is positioned at the fixed end of the discharging mechanism 2 and is rotationally connected, the first gear 311 is located at the rotating end of the discharging mechanism 2 and is fixedly connected with the second gear 318 through the transmission gear 309, the number of the limiting plates 316 is two, the two limiting plates 316 are located at the fixed end of the discharging mechanism 2 and are fixedly connected with each other, the two sliding rods 314 are slidably connected to the limiting plates 316, the T-shaped driving plate 313 is fixedly connected to the top ends of the sliding rods 314, the single end of the T-shaped driving plate 313 is fixedly connected with one end of the air bag 317, the connecting frame 312 is fixedly connected to the middle position of the T-shaped driving plate 313, the pushing plate 310 is rotatably connected to the connecting frame 312, one end of the pushing plate 310 is rotatably connected with the connecting rod 315, one end of the connecting rod 315 is fixedly connected with the bevel gear 320, the bevel gear 320 is located on one of the limiting plates 316 and is rotatably connected with the bevel gear 320, and the position of the bevel gear 320 is corresponding to the position of the transmission gear 309 and is in meshed connection.

The transmission gear 309 is composed of a support rod, a gear and a transmission bevel gear, the support rod is located at the fixed end of the discharging mechanism 2 and is fixedly connected with the fixed end, the top end of the support rod is rotatably connected with the gear, the gear is respectively engaged and connected with the first gear 311 and the second gear 318, the transmission bevel gear is fixedly connected with the gear, and the transmission bevel gear is engaged and connected with the bevel gear 320.

The air bag 317 is composed of two moving plates and a telescopic plastic sleeve, wherein one moving plate is positioned on the air inlet end of the heating sleeve 306, the other moving plate is connected with a single head end of the T-shaped driving plate 313, the telescopic plastic sleeve is fixedly connected between the two moving plates, through grooves are respectively formed in the two moving plates, an air inlet one-way valve is arranged in the through groove of the upper moving plate, the through groove of the lower moving plate is communicated with the air inlet end of the heating sleeve 306, and an air outlet one-way valve is arranged in the through groove.

The discharging mechanism 2 comprises a discharging barrel 201, stirring blades 202, a motor 203, a supporting frame 204 and a rotating sleeve 205, wherein the discharging barrel 201 is located on a main body plate 1 and is fixedly connected, a feeding hole is formed in the discharging barrel 201, a worker can pour concrete into the discharging barrel 201 conveniently, a spiral air inlet groove is formed in the barrel wall of the discharging barrel 201 and is communicated with the air supply end of the heating mechanism 3, the driving end of the heating mechanism 3 is mounted on the discharging barrel 201, the rotating sleeve 205 is rotationally connected to the middle position of the discharging barrel 201, the top end of the rotating sleeve 205 is connected with the motor 203, the bottom end of the rotating sleeve 205 is communicated with the air supply end of the heating mechanism 3, the motor 203 is connected with the discharging barrel 201 through the supporting frame 204, stirring blades 202 which are equidistantly arranged are fixedly connected to the rotating sleeve 205, the stirring blades 202 are located in the discharging barrel 201, the stirring blades 202 are hollow mesh plates, the hollow parts of the stirring blades 202 are communicated with the rotating sleeve 205, and two discharging holes of the discharging barrel 201 are fixedly connected with discharging pipes 8 respectively.

When the heat-insulating pouring device for autoclaved aerated concrete block production is used, a worker pours concrete into a cylinder body through a feed inlet of a discharge cylinder 201, a motor 203 is started through a power switch 5, a rotating sleeve 205 is driven to rotate through the motor 203, the rotating sleeve 205 stirs the concrete material in the discharge cylinder 201 through a stirring blade 202, the rotating sleeve 205 drives a first gear 311 to rotate in the rotating process, the first gear 311 drives a transmission gear 309 to rotate, a bevel gear 320 and a second gear 318 are respectively driven to rotate through the transmission gear 309, a rotating cylinder 302 is driven to rotate through the second gear 318, a magnet 319 on the rotating cylinder 302 rubs with a magnet 319 on the heating sleeve 306 to generate heat, the heating sleeve 306 is heated through the magnet with good heat conductivity, a connecting rod 315 provided with a pushing plate 310 is driven to reciprocate through the rotation of the bevel gear 320, the pushing plate 310 reciprocates up and down through a connecting frame 312, the sliding plate 314 drives the T-shaped driving plate 313 to move to the air inlet sleeve 306 through the sliding plate 313, the air is driven to flow into the air inlet sleeve 306 through the stirring blade 307 and the air inlet sleeve 306, the air is conveyed into the air inlet sleeve 306 through the air inlet pipe 307 and the air inlet pipe 306, and the air inlet pipe 306 is heated through the air inlet pipe 307 is driven to be heated through the air inlet pipe 307, and the air inlet pipe 306 is heated through the heating sleeve 306, the concrete in the discharge cylinder 201 is insulated, a worker pushes the pressing plate 605 through the leg, the sliding plate 603 is driven to move through the pressing plate 605, a discharge hole on the sliding plate 603 is overlapped with the discharge pipe 8, the concrete in the discharge cylinder 201 is discharged, the discharge pipe 8 is positioned on two sides, the worker can conveniently control the discharge amount of the concrete, the worker releases the pressing plate 605, and the pressing plate 605 is reset through the spring 604, so that the discharge pipe 8 is closed.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides an evaporate and press aerated concrete block production with heat preservation pouring device, includes main part board (1), characterized by: the automatic feeding device is characterized in that a discharging mechanism (2), a heating mechanism (3) and a discharging mechanism (6) are respectively arranged on a main body plate (1), discharging pipes (8) are respectively arranged on two discharging ends of the discharging mechanism (2), the discharging ends of the discharging mechanism (6) are positioned in the discharging pipes (8) and are in sliding connection, the driving end of the heating mechanism (3) is connected with the driving end of the discharging mechanism (2), the air supply end of the heating mechanism (3) is communicated with the air inlet end of the discharging mechanism (2), a pushing frame (4) is arranged on the main body plate (1), a power switch (5) is arranged on the pushing frame (4), the input end of the power switch (5) is connected with the output end of an external power supply, the output end of the power switch (5) is electrically connected with the input end of the discharging mechanism (2), and pulleys (7) are respectively arranged at four corners of the lower surface of the main body plate (1);

the discharging mechanism (6) comprises two positioning blocks (601), two sliding rods (602), two sliding plates (603), a spring (604) and a pressing plate (605), wherein the two positioning blocks (601) are both positioned on the main body plate (1) and fixedly connected with each other, the sliding rods (602) are connected to the positioning blocks (601) in a sliding mode, one ends of the sliding rods (602) are fixedly connected with the pressing plate (605), the spring (604) is installed between the pressing plate (605) and the positioning blocks (601), the spring (604) is sleeved with the sliding rods (602), the two sliding plates (603) are fixedly connected to the pressing plate (605), one ends of the sliding plates (603) penetrate through the discharging pipe (8) and are fixedly connected with each other, and a discharging hole is formed in the sliding plate (603);

the heating mechanism (3) comprises a positioning frame (301), a rotating cylinder (302), a fixed plate (303), a bearing (304), an air supply pipe (305), a heating sleeve (306), a shunt pipe (307), a sealing bearing (308), a transmission gear (309), a pushing plate (310), a first gear (311), a connecting frame (312), a T-shaped driving plate (313), a sliding rod (314), a connecting rod (315), a limiting plate (316), an air bag (317), a second gear (318), a magnet (319) and a bevel gear (320), wherein the positioning frame (301) is positioned on a main body plate (1) and is fixedly connected, the heating sleeve (306) is fixedly connected with the positioning frame (301), the heating sleeve (306) is rotationally connected with the rotating cylinder (302), two fixed plates (303) are respectively fixedly connected with the inner walls of the two sides of the positioning frame (301), the bearing (304) is fixedly connected with the bearing (304), the rotating end of the bearing (304) is connected with the rotating cylinder (302), the magnet (319) is respectively fixedly connected with the inner wall of the heating sleeve (306), and the magnet (319) is not equidistantly arranged, the air inlet and outlet of the heating sleeve (306) are respectively provided with an air bag (317) and an air supply pipe (305) which are communicated, the air outlet of the air supply pipe (305) is communicated with the shunt pipe (307), the air outlets of the two sides of the shunt pipe (307) are communicated with the air inlet of the fixed end of the discharging mechanism (2), the air outlet in the middle of the shunt pipe (307) is communicated with the air inlet of the rotating end of the discharging mechanism (2) through a sealing bearing (308), a second gear (318) is positioned on the rotating cylinder (302) and is fixedly connected, a transmission gear (309) is positioned on the fixed end of the discharging mechanism (2) and is rotationally connected, a first gear (311) is positioned on the rotating end of the discharging mechanism (2) and is fixedly connected with the first gear (311) through a transmission gear (309) and is in meshed connection with the second gear (318), the number of limiting plates (316) is two, the limiting plates (316) are both positioned on the fixed end of the discharging mechanism (2) and are fixedly connected with the air inlet of the rotating end, two sliding plates (314) are connected with the sliding plates (314), the top end of the T-shaped connecting rod (313) is fixedly connected with the T-shaped connecting plate (313), and link (312) rotation is connected with pushing plate (310), the one end rotation of pushing plate (310) is connected with connecting rod (315), the one end fixedly connected with bevel gear (320) of connecting rod (315), bevel gear (320) are located on one of them limiting plate (316) and rotate and connect, the position of bevel gear (320) is corresponding and the meshing is connected with the position of drive gear (309).

2. The heat preservation pouring device for producing autoclaved aerated concrete blocks according to claim 1, which is characterized in that: the transmission gear (309) is composed of a support rod, a gear and a transmission bevel gear, the support rod is located at the fixed end of the discharging mechanism (2) and is fixedly connected with the fixed end of the discharging mechanism, the top end of the support rod is rotationally connected with the gear, the gear is respectively meshed with the first gear (311) and the second gear (318), the transmission bevel gear is fixedly connected to the gear, and the transmission bevel gear is meshed with the bevel gear (320).

3. The heat preservation pouring device for producing autoclaved aerated concrete blocks according to claim 1, which is characterized in that: the air bag (317) is composed of two movable plates and a telescopic plastic sleeve, wherein one movable plate is positioned on the air inlet end of the heating sleeve (306), the other movable plate is connected with a single head end of the T-shaped driving plate (313), the telescopic plastic sleeve is fixedly connected between the two movable plates, through grooves are respectively formed in the two movable plates, an air inlet one-way valve is arranged in the through groove of the upper movable plate, the through groove of the lower movable plate is communicated with the air inlet end of the heating sleeve (306), and an air outlet one-way valve is arranged in the through groove.

4. The heat preservation pouring device for producing autoclaved aerated concrete blocks according to claim 1, which is characterized in that: the utility model provides a discharge mechanism (2) is including arranging feed cylinder (201), stirring leaf (202), motor (203), support frame (204) and rotating sleeve (205), arrange feed cylinder (201) and be located main part board (1) and fixed connection, be equipped with spiral air inlet groove on the section of thick bamboo wall of arranging feed cylinder (201), and spiral air inlet groove communicates with the air feed end of heating mechanism (3), install the drive end of heating mechanism (3) on arranging feed cylinder (201), the intermediate position rotation of arranging feed cylinder (201) is connected with rotating sleeve (205), and rotates the top of sleeve (205) and be connected with motor (203), the bottom of rotating sleeve (205) is connected with the air feed end of heating mechanism (3), motor (203) are connected with stirring leaf (202) of equidistance range on rotating sleeve (205), and stir leaf (202) and be located feed cylinder (201), stirring leaf (202) are hollow mesh board, and stir the hollow portion of leaf (202) and rotate feed cylinder (201) and two fixed connection feed pipes (8) respectively.