CN210671946U - Electric high-heat circulating air tea roller fixation machine - Google Patents

Abstract

The utility model relates to an electric high-heat circulating air tea roller fixation machine. Its characterized in that electricity high heat circulation wind tealeaves rotary drum machine of completing comprises one-level heater (1), secondary heater (2), row formula heater (3), wind scooper (4), a section of thick bamboo that keeps warm (5), the cylinder of completing (6), support (7), supporting wheel (8), support power wheel (9) and motor (10), the beneficial effects of the utility model are that: the utility model discloses structural design is simple, uses convenient operation, can realize improving fast the cylinder temperature that completes, adopts the circulated air heating to improve the thermal efficiency.

Description

Electric high-heat circulating air tea roller fixation machine

Technical Field

The utility model relates to an electric high-heat circulating air tea roller fixation machine.

Background

At present, the existing electric heaters are various in types, and when a heating medium passes through an electric heater heating cavity under the action of pressure, the fluid thermodynamic principle is adopted to uniformly take away huge heat generated in the working process of an electric heating element, so that the temperature of the heated medium meets the process requirements of users. The air electric heater generally refers to that air passes through the air electric heater to raise the temperature of the air and then is conveyed to the next working link. Due to the particularity of the air medium, the consumed energy is also high, and the heat energy is easily lost and wasted. The tea enzyme deactivating machine has high temperature requirement, and the temperature is required to be constant, and the temperature fluctuation influences the enzyme deactivating quality.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide an electric high thermal cycle wind tea drum machine of completing.

The technical scheme of the utility model is that: an electric high-heat circulation air tea leaf roller enzyme deactivating machine is characterized in that the electric high-heat circulation air tea leaf roller enzyme deactivating machine consists of a primary heater, a secondary heater, a row-type heater, an air guide cover, a heat preservation cylinder, an enzyme deactivating roller, a support, support wheels, support power wheels and a motor, wherein the enzyme deactivating roller is supported by two pairs of support wheels and support power wheels which are arranged on the support and is driven to rotate by the support power wheels connected with the motor; the water-removing roller is wrapped with a heat-insulating cylinder which provides heat for the water-removing roller, a row-type heater which inputs hot air for the water-insulating cylinder is arranged below the heat-insulating cylinder, an air guide cover is connected below the row-type heater, and the air guide cover is connected with a secondary heater and a primary heater which are connected in series; two ends of a heat-insulating cylinder on the fixation roller are sealed by asbestos packing, and a heat-insulating and heating layer is formed between the fixation roller and the heat-insulating cylinder; the top part of the inner heat-insulating cylinder of the heating layer is provided with a top air guide plate for collecting circulating gas, the right side of the top air guide plate is connected to a surrounding air guide plate fixed on the inner wall of the heat-insulating cylinder, the side wall of the top air guide plate is provided with a hole for collecting the top gas, and the lower part of the surrounding air guide plate is connected to an air guide pipe; the air guide pipe is provided with an exhaust fan which can extract the air in the top air guide plate and the air surrounding the air guide plate and then convey the air into the air inlet of the primary heater; air is heated by the primary heater and the secondary heater, enters the row-type heater through a hot air inlet pipe on the air guide cover to be heated for the third time, heated high-temperature air enters the heating layer in the heat preservation cylinder to heat the enzyme-deactivating roller, the air in the heating layer enters the air extractor through the top air guide plate and the surrounding air guide plate and then the air guide pipe, and is pressurized by the exhaust fan and then enters the air inlet of the primary heater to form air circulation.

The utility model relates to an electricity high thermal cycle wind tea drum machine of completing, a serial communication port the one-level heater appearance be the prism cylinder, the front end is equipped with the air inlet of air admission, both sides are equipped with the fixed jack that can insert and fix the heating plate, the rear end is equipped with the gas outlet of deriving the heated air.

The utility model relates to an electricity high heat circulation wind tealeaves rotary drum machine of completing, its characterized in that one-level heater and secondary heater be the same device.

The utility model relates to an electricity high thermal cycle wind tealeaves rotary drum machine of completing, a serial communication port row formula heater appearance be the rectangle cuboid, the bottom is equipped with the hot-blast pipe that advances that admits air, and inside is equipped with the air-guide parcel breather pipe, is equipped with the heating plate rather than the inner wall contact in the parcel breather pipe, the heating plate is fixed in row formula heater's bottom, the air advances the pipe from hot-blast and gets into row formula heater, again from the parcel breather pipe discharge in the row formula heater, is being heated around the in-process of discharging from the heating plate in the parcel breather pipe.

The utility model relates to an electricity high thermal cycle wind tea drum machine of completing, its characterized in that the cylinder of completing in be equipped with the spiral helicine leaf board that raises up of arc that can raise up tealeaves.

The utility model relates to an electricity high heat circulation wind tea drum machine of completing, its characterized in that heat preservation section of thick bamboo outside wrap up the insulating layer.

The utility model relates to an electricity high thermal cycle wind tea drum machine of completing, its characterized in that top air guide plate on the hole diameter left side big, the right side is little.

The utility model relates to an electricity high thermal cycle wind tealeaves rotary drum machine of completing during use, the air is after one-level heater and secondary heater heating, hot-blast entering pipe on the wind scooper carries out the heating for the third time in getting into row formula heater, zone of heating in the high hot-blast entering heat preservation section of thick bamboo after the heating heats the cylinder of completing, the intraformational air of heating gets into the convulsions machine through top air guide plate and around air guide plate rethread guide duct, the circulation of air inlet formation air that reentrants one-level heater after the air exhauster pressurization. The front end of the primary heater is provided with an air inlet for air inlet, two sides of the primary heater are provided with fixed jacks for inserting and fixing the heating sheet, and the rear end of the primary heater is provided with an air outlet for leading out heated air. The formula of arranging heater bottom is equipped with the hot-blast pipe that advances that admits air, and inside is equipped with the parcel breather pipe of air guide, is equipped with in the parcel breather pipe not rather than the heating plate of inner wall contact, and the heating plate is fixed in the bottom of formula of arranging heater, and the air advances the pipe from hot-blast and gets into formula of arranging heater, and the parcel breather pipe in following formula of arranging heater is discharged again, and the air is heated from the heating plate in the parcel breather pipe in the in-process of discharge all around.

The utility model relates to an electricity high thermal cycle wind tealeaves rotary drum machine of completing when using, with the machine of completing that uses the direct electrical heating of same power, the direct electrical heating will be completed the cylinder and heat to 120 ℃ with the electricity, and the machine of completing of the invention can heat the cylinder of completing to 270 ℃, fine improvement the thermal efficiency.

The utility model has the advantages that: the utility model discloses structural design is simple, uses convenient operation, can realize improving fast the cylinder temperature that completes, adopts the circulated air heating to improve the thermal efficiency.

Drawings

FIG. 1 is a schematic view of the whole structure of an electric high-heat circulation air tea roller fixation machine;

FIG. 2 is a schematic structural view of a de-enzyming roller of an electric high-heat circulating air tea roller de-enzyming machine;

FIG. 3 is a schematic view of the internal states of a de-enzyming roller and a heat-insulating cylinder of the tea roller de-enzyming machine with electric high heat circulation air;

FIG. 4 is a schematic cross-sectional view of a de-enzyming roller and a heat-insulating cylinder of the tea roller de-enzyming machine with electric high heat circulation air;

FIG. 5 is a schematic structural view of a top air guide plate and a surrounding air guide plate of an electric high-heat circulation air tea drum de-enzyming machine;

FIG. 6 is a schematic front view of a top air guide plate and a surrounding air guide plate of an electric high-heat circulation air tea drum de-enzyming machine;

FIG. 7 is a schematic side view of a top air guide plate and a surrounding air guide plate of an electric high-heat circulation air tea drum de-enzyming machine;

FIG. 8 is a schematic structural view of a row-type heater of an electric high-heat circulation air tea drum de-enzyming machine;

FIG. 9 is a schematic view of the front side structure of the appearance of a row-type heater of an electric high-heat circulation air tea drum de-enzyming machine;

FIG. 10 is a schematic cross-sectional view of a row-type heater of an electric high-heat circulation air tea drum de-enzyming machine;

FIG. 11 is a schematic view of the overall structure of a primary heater of a tea drum de-enzyming machine with electric high heat circulation air;

FIG. 12 is a schematic cross-sectional view of a primary heater of a tea drum de-enzyming machine with electric high heat circulation air;

FIG. 13 is a schematic structural view of a heating plate of an electric high-heat circulation air tea drum de-enzyming machine;

in the drawings: 1-is a primary heater; 2-is a secondary heater; 3-is the row type heater; 4-is a wind scooper; 5-is a heat preservation cylinder; 6-is a fixation roller; 7-is a bracket; 8-is a supporting wheel; 9-is a supporting power wheel; 10-is a motor; 11-is an air inlet; 12-is an air outlet; 13-is a fixed jack; 14-is an air deflector; 15-is a heating plate; 22-is an exhaust fan; 23-is an air guide pipe; 31-is a hot air inlet pipe; 32-is a wrapping vent pipe; 51-is a heating layer; 52-is a top air guide plate; 53-is a surrounding air guide plate; 54-is a hole; 61-is a louver board.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1: an electric high-heat circulation air tea leaf roller enzyme deactivating machine is composed of a primary heater 1, a secondary heater 2, a row-type heater 3, an air guide cover 4, a heat preservation cylinder 5, an enzyme deactivating roller 6, a support 7, support wheels 8, support power wheels 9 and a motor 10, wherein the enzyme deactivating roller 6 is supported by two pairs of support wheels 8 and support power wheels 9 which are arranged on the support 7 and is driven to rotate by the support power wheels 9 connected to the motor 10; the water-removing roller 6 is externally wrapped with a heat-insulating cylinder 5 which provides heat for the water-removing roller, a row-type heater 3 which inputs hot air for the water-removing roller is arranged below the heat-insulating cylinder 5, an air guide cover 4 is connected below the row-type heater 3, and the air guide cover 4 is connected with a secondary heater 2 and a primary heater 1 which are connected in series; two ends of a heat-insulating cylinder 5 on the enzyme-deactivating drum 6 are sealed by asbestos packing, and a heat-insulating and heating layer 51 is formed between the enzyme-deactivating drum 6 and the heat-insulating cylinder 5; a top air guide plate 52 for collecting circulating gas is arranged at the top in the heat preservation cylinder 5 in the heating layer 51, the right side of the top air guide plate 52 is connected to a surrounding air guide plate 53 fixed on the inner wall of the heat preservation cylinder 5, a hole 54 for collecting top gas is arranged on the side wall of the top air guide plate 52, and the lower part of the surrounding air guide plate 53 is connected to the air guide pipe 23; the air guide pipe 23 is provided with an exhaust fan 22 which can extract the air in the top air guide plate 52 and the surrounding air guide plate 53 and then convey the air into the air inlet 11 of the primary heater 1; air is heated by the primary heater 1 and the secondary heater 2, enters the gang heater 3 through the hot air inlet pipe 31 on the air guide cover 4 to be heated for the third time, the heated high-temperature air enters the heating layer 51 in the heat preservation cylinder 5 to heat the enzyme-deactivating roller 6, the air in the heating layer 51 enters the exhaust fan 22 through the top air guide plate 52 and the surrounding air guide plate 53 and the air guide pipe 23, and is pressurized by the exhaust fan 22 and then enters the air inlet 11 of the primary heater 1 to form air circulation. The primary heater 1 is a prismatic column in shape, the front end of the primary heater is provided with an air inlet 11 for air inlet, two sides of the primary heater are provided with fixed jacks 13 for inserting and fixing heating sheets 15, the rear end of the primary heater is provided with an air outlet 12 for leading out heated air, and the primary heater 1 and the secondary heater 2 are the same device. The formula of arranging heater 3 appearance be the rectangle cuboid, the bottom is equipped with the hot-blast pipe 31 that advances that admits air, and inside is equipped with the parcel breather pipe 32 of air guide, be equipped with in the parcel breather pipe 32 not rather than the heating plate 15 of inner wall contact, the heating plate 15 is fixed in the bottom of formula of arranging heater 3, the air advances pipe 31 from hot-blast and gets into formula of arranging heater 3, again from the parcel breather pipe 32 discharge in the formula of arranging heater 3, the air is heated from the heating plate 15 in the parcel breather pipe 32 in-process of discharging all around.

Example 2: an electric high-heat circulation air tea leaf roller enzyme deactivating machine is composed of a primary heater 1, a secondary heater 2, a row-type heater 3, an air guide cover 4, a heat preservation cylinder 5, an enzyme deactivating roller 6, a support 7, support wheels 8, support power wheels 9 and a motor 10, wherein the enzyme deactivating roller 6 is supported by two pairs of support wheels 8 and support power wheels 9 which are arranged on the support 7 and is driven to rotate by the support power wheels 9 connected to the motor 10; the water-removing roller 6 is externally wrapped with a heat-insulating cylinder 5 which provides heat for the water-removing roller, a row-type heater 3 which inputs hot air for the water-removing roller is arranged below the heat-insulating cylinder 5, an air guide cover 4 is connected below the row-type heater 3, and the air guide cover 4 is connected with a secondary heater 2 and a primary heater 1 which are connected in series; two ends of a heat-insulating cylinder 5 on the enzyme-deactivating drum 6 are sealed by asbestos packing, and a heat-insulating and heating layer 51 is formed between the enzyme-deactivating drum 6 and the heat-insulating cylinder 5; a top air guide plate 52 for collecting circulating gas is arranged at the top in the heat preservation cylinder 5 in the heating layer 51, the right side of the top air guide plate 52 is connected to a surrounding air guide plate 53 fixed on the inner wall of the heat preservation cylinder 5, a hole 54 for collecting top gas is arranged on the side wall of the top air guide plate 52, and the lower part of the surrounding air guide plate 53 is connected to the air guide pipe 23; the air guide pipe 23 is provided with an exhaust fan 22 which can extract the air in the top air guide plate 52 and the surrounding air guide plate 53 and then convey the air into the air inlet 11 of the primary heater 1; air is heated by the primary heater 1 and the secondary heater 2, enters the gang heater 3 through the hot air inlet pipe 31 on the air guide cover 4 to be heated for the third time, the heated high-temperature air enters the heating layer 51 in the heat preservation cylinder 5 to heat the enzyme-deactivating roller 6, the air in the heating layer 51 enters the exhaust fan 22 through the top air guide plate 52 and the surrounding air guide plate 53 and the air guide pipe 23, and is pressurized by the exhaust fan 22 and then enters the air inlet 11 of the primary heater 1 to form air circulation. The primary heater 1 is a prismatic column in shape, the front end of the primary heater is provided with an air inlet 11 for air inlet, two sides of the primary heater are provided with fixed jacks 13 for inserting and fixing heating sheets 15, the rear end of the primary heater is provided with an air outlet 12 for leading out heated air, and the primary heater 1 and the secondary heater 2 are the same device. The formula of arranging heater 3 appearance be the rectangle cuboid, the bottom is equipped with the hot-blast pipe 31 that advances that admits air, and inside is equipped with the parcel breather pipe 32 of air guide, be equipped with in the parcel breather pipe 32 not rather than the heating plate 15 of inner wall contact, the heating plate 15 is fixed in the bottom of formula of arranging heater 3, the air advances pipe 31 from hot-blast and gets into formula of arranging heater 3, again from the parcel breather pipe 32 discharge in the formula of arranging heater 3, the air is heated from the heating plate 15 in the parcel breather pipe 32 in-process of discharging all around. The tea leaf-raising plate 61 which can raise tea leaves is arranged in the de-enzyming roller 6. The heat insulation layer is wrapped outside the heat insulation barrel 5.

Example 3: an electric high-heat circulation air tea leaf roller enzyme deactivating machine is composed of a primary heater 1, a secondary heater 2, a row-type heater 3, an air guide cover 4, a heat preservation cylinder 5, an enzyme deactivating roller 6, a support 7, support wheels 8, support power wheels 9 and a motor 10, wherein the enzyme deactivating roller 6 is supported by two pairs of support wheels 8 and support power wheels 9 which are arranged on the support 7 and is driven to rotate by the support power wheels 9 connected to the motor 10; the water-removing roller 6 is externally wrapped with a heat-insulating cylinder 5 which provides heat for the water-removing roller, a row-type heater 3 which inputs hot air for the water-removing roller is arranged below the heat-insulating cylinder 5, an air guide cover 4 is connected below the row-type heater 3, and the air guide cover 4 is connected with a secondary heater 2 and a primary heater 1 which are connected in series; two ends of a heat-insulating cylinder 5 on the enzyme-deactivating drum 6 are sealed by asbestos packing, and a heat-insulating and heating layer 51 is formed between the enzyme-deactivating drum 6 and the heat-insulating cylinder 5; a top air guide plate 52 for collecting circulating gas is arranged at the top in the heat preservation cylinder 5 in the heating layer 51, the right side of the top air guide plate 52 is connected to a surrounding air guide plate 53 fixed on the inner wall of the heat preservation cylinder 5, a hole 54 for collecting top gas is arranged on the side wall of the top air guide plate 52, and the lower part of the surrounding air guide plate 53 is connected to the air guide pipe 23; the air guide pipe 23 is provided with an exhaust fan 22 which can extract the air in the top air guide plate 52 and the surrounding air guide plate 53 and then convey the air into the air inlet 11 of the primary heater 1; air is heated by the primary heater 1 and the secondary heater 2, enters the gang heater 3 through the hot air inlet pipe 31 on the air guide cover 4 to be heated for the third time, the heated high-temperature air enters the heating layer 51 in the heat preservation cylinder 5 to heat the enzyme-deactivating roller 6, the air in the heating layer 51 enters the exhaust fan 22 through the top air guide plate 52 and the surrounding air guide plate 53 and the air guide pipe 23, and is pressurized by the exhaust fan 22 and then enters the air inlet 11 of the primary heater 1 to form air circulation. The primary heater 1 is a prismatic column, the front end of the primary heater is provided with an air inlet 11 for air inlet, the air inlet 11 is internally provided with an air deflector 14 for guiding air to the heating sheets 15 at two sides, the two sides of the primary heater are provided with fixed jacks 13 for inserting and fixing the heating sheets 15, the rear end of the primary heater is provided with an air outlet 12 for guiding heated air out, and the primary heater 1 and the secondary heater 2 are the same device. The formula of arranging heater 3 appearance be the rectangle cuboid, the bottom is equipped with the hot-blast pipe 31 that advances that admits air, and inside is equipped with the parcel breather pipe 32 of air guide, be equipped with in the parcel breather pipe 32 not rather than the heating plate 15 of inner wall contact, the heating plate 15 is fixed in the bottom of formula of arranging heater 3, the air advances pipe 31 from hot-blast and gets into formula of arranging heater 3, again from the parcel breather pipe 32 discharge in the formula of arranging heater 3, the air is heated from the heating plate 15 in the parcel breather pipe 32 in-process of discharging all around. The tea leaf-raising plate 61 which can raise tea leaves is arranged in the de-enzyming roller 6. The heat insulation layer is wrapped outside the heat insulation barrel 5. The hole 54 on the top air guide plate 52 has a larger diameter on the left side and a smaller diameter on the right side.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. An electric high-heat circulating air tea roller enzyme deactivating machine is characterized in that the electric high-heat circulating air tea roller enzyme deactivating machine consists of a primary heater (1), a secondary heater (2), a row type heater (3), an air guide cover (4), a heat preservation cylinder (5), an enzyme deactivating roller (6), a bracket (7), support wheels (8), support power wheels (9) and a motor (10), wherein the enzyme deactivating roller (6) is supported by two pairs of support wheels (8) and support power wheels (9) which are arranged on the bracket (7), and is driven to rotate by the support power wheels (9) connected to the motor (10); the water-removing roller (6) is externally wrapped with a heat-insulating cylinder (5) for providing heat for the water-removing roller, a row-type heater (3) for inputting hot air to the heat-insulating cylinder (5) is arranged below the heat-insulating cylinder (5), an air guide cover (4) is connected below the row-type heater (3), and the air guide cover (4) is connected with a secondary heater (2) and a primary heater (1) which are connected in series; both ends of a heat-insulating cylinder (5) on the de-enzyming rotary drum (6) are sealed by asbestos packing, and a heat-insulating and heating layer (51) is formed between the de-enzyming rotary drum (6) and the heat-insulating cylinder (5); a top air guide plate (52) for collecting circulating gas is arranged at the top in the heat insulation cylinder (5) in the heating layer (51), the right side of the top air guide plate (52) is connected to a surrounding air guide plate (53) fixed on the inner wall of the heat insulation cylinder (5), a hole (54) for collecting top gas is arranged on the side wall of the top air guide plate (52), and the lower part of the surrounding air guide plate (53) is connected to the air guide pipe (23); the air guide pipe (23) is provided with an exhaust fan (22) which can extract the air in the top air guide plate (52) and the surrounding air guide plate (53) and then convey the air into the air inlet (11) of the primary heater (1); air is heated by the primary heater (1) and the secondary heater (2), enters the row-type heater (3) through the hot air inlet pipe (31) on the air guide cover (4) to be heated for the third time, heated high-heat air enters the heating layer (51) in the heat insulation cylinder (5) to heat the de-enzyming roller (6), air in the heating layer (51) enters the exhaust fan (22) through the top air guide plate (52) and the surrounding air guide plate (53) and then enters the air inlet (11) of the primary heater (1) after being pressurized by the exhaust fan (22) to form air circulation.

2. The electric high-heat circulating air tea drum de-enzyming machine according to claim 1, characterized in that the primary heater (1) is in the shape of a prismatic column, the front end of the primary heater is provided with an air inlet (11) for air inlet, the two sides of the primary heater are provided with fixed insertion holes (13) for inserting and fixing the heating sheets (15), and the rear end of the primary heater is provided with an air outlet (12) for leading out heated air.

3. The electric high-heat circulating air tea drum de-enzyming machine according to claim 1, characterized in that the primary heater (1) and the secondary heater (2) are the same device.

4. The electric high-heat circulation air tea drum de-enzyming machine is characterized in that the row-type heater (3) is rectangular cuboid in shape, an air inlet hot air inlet pipe (31) is arranged at the bottom of the row-type heater, an air guide wrapping vent pipe (32) is arranged in the row-type heater, a heating sheet (15) which is not in contact with the inner wall of the wrapping vent pipe (32) is arranged in the wrapping vent pipe (32), the heating sheet (15) is fixed at the bottom of the row-type heater (3), air enters the row-type heater (3) from the hot air inlet pipe (31) and is exhausted from the wrapping vent pipe (32) in the row-type heater (3), and the air is heated in the process of being exhausted from the periphery of the heating sheet (15) in the.

5. The tea roller fixation machine with the electric high-heat circulation wind according to claim 1, characterized in that the fixation roller (6) is internally provided with an arc spiral leaf raising plate (61) which can raise tea leaves.

6. The electric high-heat circulating air tea drum de-enzyming machine according to claim 1, characterized in that the heat-insulating layer is wrapped outside the heat-insulating cylinder (5).

7. The electric high-heat circulating air tea drum de-enzyming machine according to claim 1, wherein the holes (54) on the top air guide plate (52) are larger in diameter on the left side and smaller on the right side.

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