CN207501446U - A kind of energy efficient hot air furnace suitable for tea enzyme deactivating and strip sorting - Google Patents

Abstract

The utility model discloses a kind of energy efficient hot air furnaces suitable for tea enzyme deactivating and strip sorting, combustion chamber, heating chamber, heat exchanger, air duct, flue, chimney are equipped with including furnace body, hot high pressure wind turbine, high-pressure suction fan, thermocouple, hot-blast outlet, furnace interior, cycle is wherein formed between combustion chamber of the flue gas in furnace body, heating chamber, heat exchanger, flue gas meets hot-air gently motion principle from bottom to top, it is finally communicated with furnace body outer layer high-pressure suction fan flue, flue gas is discharged out of the furnace.The utility model novel in structural design has the advantages that the thermal efficiency is high, efficiency of combustion is done, low energy consumption, life of product is long, and the hot wind efficiency of furnace improves more than 30%.

Description

A kind of energy efficient hot air furnace suitable for tea enzyme deactivating and strip sorting

Technical field：

The utility model is related to machine for processing tea more particularly to a kind of high-efficiency energy-saving heats suitable for tea enzyme deactivating and strip sorting Wind furnace.

Background technology：

In famous-brand and high-quality tealeaves process, hot air water-removing manage bar is Famous High-quality Tea technique important link.It is common currently on the market Hot wind furnace structure and form have very much, and most of hot-blast stoves belong to low temperature oven, and temperature is all at 200 DEG C hereinafter, the general thermal efficiency exists 40% or so, and the shortcomings of the thermal efficiency is low, efficiency of combustion is low, high energy consumption, short life of product.General tea processing enzyme deactivating and strip sorting temperature It is more than 300 to spend, and traditional hot-blast stove can not meet tea making requirement.

Therefore, it is necessary to design a kind of hot-blast stove suitable for tealeaves high-temperature fixation manage bar, solve existing hot-blast furnace temperature it is low, Thermal effect is low and the problem of high energy consumption.

Utility model content:

In order to make up the deficiency of prior art problem, the purpose of this utility model is to provide a kind of tea green-keeping that is suitable for and manages The energy efficient hot air furnace of item solve thes problems, such as that existing hot-blast furnace temperature is low, thermal effect is low and high energy consumption.

The technical solution of the utility model is as follows：

Suitable for the energy efficient hot air furnace of tea enzyme deactivating and strip sorting, which is characterized in that the hot-blast stove includes furnace body, high pressure Air-heater, high-pressure suction fan, thermocouple, hot-blast outlet, furnace interior be equipped with combustion chamber, heating chamber, heat exchanger, air duct, flue, Chimney；

The furnace body forms case shape by top plate, bottom plate, first member plate, right end plate, front panel, rear panel, and the front plate is right Lower section is equipped with fire door and gray-drawing port, and fire door is located above gray-drawing port；Rear panel inner wall is respectively arranged on the left side and the right side air duct, flue, Rear panel outer wall is equipped with the hot high pressure wind turbine being connected with air duct, the high-pressure suction fan being connected with flue, high-pressure suction fan Chimney is installed, rear panel is additionally provided with hot-blast outlet close to air duct side on air outlet；

Heat exchanger is equipped on the left of the furnace interior, right side is equipped with combustion chamber, heating chamber from bottom to top, and combustion chamber is by surrounding Refractory brick pile up composition, bottom of combustion chamber is equipped with fire grate, and ashpit is equipped in the furnace body below fire grate；The connection of combustion chamber upper end adds Hot chamber；

Four layers of heat conducting pipe are equipped in the heating chamber, one layer, two layers, three layers, four layers are followed successively by from bottom to top, wherein one layer Heat conducting pipe and two layers of heat conducting pipe are along front-rear direction horizontal distribution, levels heat conducting pipe dislocation arrangement one end and hot-blast outlet phase Logical, the other end is connected with three layers, four layers of heat conducting pipe by air duct, between three layers of heat conducting pipe and four layers of heat conducting pipe dislocation transverse horizontal Every arranged, one end is communicated with Heat Room bellows, and one layer, two layers of heat conducting pipe and three layers, four layers of heat conducting pipe are intersected into 90°；

The heat exchanger is internally provided with multilayer along the horizontally arranged heat conducting pipe of front-rear direction, and the heat conducting pipe of levels misplaces Arrangement, all heat exchanger heat conducting pipes from left to right by several bellows connect and compose A grades of heat exchanging air ducts, B grades of heat exchanging air ducts, C grades Heat exchanging air duct, D grade heat exchanging air duct；

In the A grades of heat exchanging air duct, B grades of heat exchanging air ducts, C grades of heat exchanging air ducts, D grades of heat exchanging air ducts, A grades of heat exchanging air duct entrances It is connected with hot high pressure wind turbine by the interlayer air duct that gap between furnace body and heat exchanger is formed, A grades of heat exchanging air ducts are changed with B grades Hot-flow flue is adjacent and A grades of heat exchanging air duct outlets are connected with B grades of heat exchanging air duct entrances by bellows one；B grades of heat exchanging air ducts and C Grade heat exchanging air duct is adjacent, and B grades of heat exchanging air duct outlets are connected with C grades of heat exchanging air duct entrances by bellows two；C grades of heat exchange wind Road is adjacent with D grades of heat exchanging air ducts, and C grades of heat exchanging air duct outlets are connected with D grades of heat exchanging air duct entrances by bellows three；D grades Heat exchanging air duct outlet is communicated by three layers of heat conducting pipe of bellows four and heating chamber and four layers of heat conducting pipe；

Vertically layout is divided into level-one to six grades of Heat Rooms in the heat exchanger, and six grades of Heat Rooms are heated with top of combustion chamber Chamber flue is connected, and smoke baffle plate is equipped between every grade of Heat Room flue, and six grades of Heat Rooms are penetrated through with Pyatyi Heat Room, and flue is successively It from bottom to top arranges, Pyatyi Heat Room is communicated with level Four Heat Room, and level Four Heat Room is communicated with three-level Heat Room, three-level Heat Room It is communicated with secondary heat exchange room, secondary heat exchange room is communicated with level-one Heat Room, level-one Heat Room and furnace body outer layer high-pressure suction fan cigarette Road communicates, and flue gas is discharged out of the furnace；

The hot-blast outlet pipeline inner wall is equipped with thermocouple, and temperature information is sent to temperature controller input terminal by thermocouple；

Lower section is equipped with scarp carbon cleaning hole, scarp carbon cleaning hole and cigarette inside heat exchanger on the left of the hot-blast furnace body Road communicates.

The energy efficient hot air furnace suitable for tea enzyme deactivating and strip sorting, it is characterised in that：The heat exchanger heat conducting pipe And heating chamber heat conducting pipe, using boiler tube, stainless steel tube or bellows, inside pipe wall cross sectional shape is straight-tooth shape, spiral bar Shape, a diameter of 40mm~100mm of heat conducting pipe, pipe thickness are 3mm~12mm.

The energy efficient hot air furnace suitable for tea enzyme deactivating and strip sorting, it is characterised in that：The high-pressure suction fan and Hot high pressure wind turbine, which lands, to be mounted side by side on furnace body rear panel outer wall.

The energy efficient hot air furnace suitable for tea enzyme deactivating and strip sorting, it is characterised in that：The hot-blast outlet pipeline Top is equipped with K-type thermocouple, and temperature information is sent to temperature controller input terminal by K-type thermocouple.

The energy efficient hot air furnace suitable for tea enzyme deactivating and strip sorting, it is characterised in that：The refractory brick is high alumina Refractory brick or clay brick build thickness by laying bricks or stones as 50mm~130mm.

The energy efficient hot air furnace suitable for tea enzyme deactivating and strip sorting, it is characterised in that：Furnace chamber in the combustion chamber Highly be 480mm~700mm, interior furnace chamber length be 350mm~600mm, interior furnace chamber width is 350mm~600mm.

The energy efficient hot air furnace suitable for tea enzyme deactivating and strip sorting, it is characterised in that：The hot high pressure wind turbine wind It is 3584~3597pa to press as 4603~4447pa, high-pressure suction fan wind pressure.

The energy efficient hot air furnace suitable for tea enzyme deactivating and strip sorting, it is characterised in that：The heat exchanger level-one arrives Six grades of Heat Rooms are connected with heating chamber flue, from bottom to top connect six grades of Heat Rooms, Pyatyi Heat Room, level Four heat exchange successively Room, three-level Heat Room, secondary heat exchange room, level-one Heat Room to high-pressure suction fan, and smoke baffle plate is equipped between adjacent heat exchange room.

The energy efficient hot air furnace suitable for tea enzyme deactivating and strip sorting, it is characterised in that：The heat exchanger heat exchange wind There are several horizontally arranged arrangements of heat conducting pipe front-rear direction, and the adjacent heat conducting pipe Heterogeneous Permutation of levels in road.

The utility model has the advantages that：

The utility model novel in structural design, have the thermal efficiency is high, efficiency of combustion is done, low energy consumption, life of product length it is excellent Point, the hot wind efficiency of furnace improve more than 30%.

Description of the drawings：

Fig. 1 is the structure diagram of the utility model.

Fig. 2 is the A-A sectional views of the utility model Fig. 1.

Fig. 3 is the B-B sectional views of the utility model Fig. 1.

Fig. 4 is the D-D sectional views of the utility model Fig. 1.

Fig. 5 is the left view of the utility model Fig. 2.

Fig. 6 is the vertical view of the utility model Fig. 4.

Fig. 7 is the C-C sectional views of the utility model Fig. 6.

Fig. 8 is straight tooth-shaped heat conducting pipe sectional view in the utility model.

Fig. 9 is the utility model inside spin muscle heat conducting pipe sectional view.

Figure 10 is the utility model ripple heat conducting pipe sectional view.

Reference numeral：1st, furnace body；2nd, right end plate；3rd, fire door；4th, gray-drawing port；5th, bottom plate；6th, first member plate；7th, top plate；8th, cigarette Chimney；9th, high-pressure suction fan；10th, hot high pressure wind turbine；11st, air duct；12nd, thermocouple；13rd, flue；14th, heating chamber；15th, interlayer wind Road；16th, fever chamber air duct；17th, D grades of heat exchanging air ducts；18th, C grades of heat exchanging air ducts；19th, bellows three；20th, front panel；22nd, bellows one； 23rd, B grades of heat exchanging air ducts；24th, A grades of heat exchanging air ducts；25th, A grades of heat exchanging air duct entrances；26th, bellows two；27th, rear panel；28th, bellows Four；29th, hot-blast outlet；30th, four layers of heat conducting pipe of heating chamber；31st, three layers of heat conducting pipe of heating chamber；32nd, two layers of heat conducting pipe of heating chamber； 33rd, one layer of heat conducting pipe of heating chamber；35th, combustion chamber；36th, fire grate；37th, ashpit；38th, Pyatyi Heat Room；39th, heat exchanger；40th, level Four Heat Room；41st, three-level Heat Room；42nd, secondary heat exchange room；43rd, level-one Heat Room；44th, six grades of Heat Rooms；45th, scarp carbon distribution is clear Except hole；46th, heating chamber flue；47th, smoke baffle plate；48th, level-one Heat Room top export；Filled arrows are hot wind road in the figures above Line illustrates arrow, and hollow arrow illustrates arrow for flue gas route.

Specific embodiment：

Referring to attached drawing：

A kind of energy efficient hot air furnace suitable for tea enzyme deactivating and strip sorting, hot-blast stove include furnace body 1, hot high pressure wind turbine 10, High-pressure suction fan 9, thermocouple 12, hot-blast outlet 29, furnace interior are equipped with combustion chamber 35, heating chamber 14, heat exchanger 39, air duct 11st, flue 13, chimney 8.

1 shape case shape of furnace body, structure feature are the six pieces of steel plate for being equipped with vibrationproof reinforcing rib 21 welding synthesis, it includes Top plate 7, bottom plate 5, first member plate 6, right end plate 2, front panel 20, rear panel 27,20 lower right of front panel are equipped with fire door 3 and draw ash Mouth 4, rear panel 27 are respectively equipped with air duct 11, flue 13 and hot-blast outlet 29.

1 internal structure of furnace body, is internally provided with combustion chamber 35, heating chamber 14, heat exchanger 39 etc., and combustion chamber 35 is located at furnace body Lower right-hand side, 35 inner cavity surrounding of combustion chamber are equipped with refractory brick 34, and bottom is equipped with fire grate 36 and ashpit 37；35 upper end of combustion chamber Connect heating chamber 14.

14 internal structure of heating chamber, it is characterised in that intracavitary is equipped with four layers of heat conducting pipe 5 to 8 every layer, one layer 33 and two layers 32 dislocation vertical equity arranged one ends are communicated with hot-blast outlet 29, and the other end passes through with three layers of 31 4 layers of 30 heat conducting pipe Air duct is connected, and three layer 31 and four layer 30 dislocation transverse horizontal arranged, one end is communicated with Heat Room bellows 28, one layer 33rd, two layer of 32 heat conducting pipe and three layer 31, four layer of 30 heat conducting pipe intersect into an angle of 90 degrees；

39 internal structure of heat exchanger is internally provided with the heat conducting pipe of front-rear direction horizontal displacement arrangement, from left to right sets successively There are A grades of heat exchanging air ducts 24, B grades of heat exchanging air ducts 23, C grades of heat exchanging air ducts 18, D grades of heat exchanging air ducts 17, every grade of air duct has from top to bottom 20 heat conducting pipe front-rear direction horizontal displacement arrangements；

Heat exchanging air duct：Hot high pressure wind turbine 10 is connected by interlayer air duct with A grades of heat exchanging air duct entrances 25, A grades of heat exchange wind Road 24 is adjacent with B grades of heat exchanging air ducts 23 and A grades of heat exchanging air duct outlets are connected with B grades of heat exchanging air duct entrances by bellows 1 It is logical；B grades of heat exchanging air ducts 23 are adjacent with C grades of heat exchanging air ducts 18, and B grades of heat exchanging air duct outlets are exchanged heat with C grades by bellows 2 26 Tunnel inlet is connected；C grades of heat exchanging air ducts 18 are adjacent with D grades of heat exchanging air ducts 17, and by bellows 3 19 by C grades of heat exchanging air ducts Outlet is connected with D grades of heat exchanging air duct entrances；The outlet of D grades of heat exchanging air ducts by bellows 4 28 and three layers of heat conducting pipe 31 of heating chamber and Four layers of heat conducting pipe 30 communicate,

Heat exchanger 39 is equipped with level-one Heat Room 43, secondary heat exchange room 42, three-level Heat Room 41, level Four Heat Room 40, Pyatyi 38, six grades of Heat Rooms 44 of Heat Room, six grades of Heat Rooms 44 are connected with heating chamber flue 46, are equipped between every grade of Heat Room flue Smoke baffle plate 47, six grades of Heat Rooms 44 are penetrated through with Pyatyi Heat Room 38, and principle is moved upwards according to light its of hot-air, flue successively by Lower and upper arrangement, Pyatyi Heat Room 38 are communicated with level Four Heat Room 40, and level Four Heat Room 40 is communicated with three-level Heat Room 41, three-level Heat Room 41 is communicated with secondary heat exchange room 42, and secondary heat exchange room 42 is communicated with level-one Heat Room 43, level-one Heat Room 43 and furnace body Outer layer high-pressure suction fan flue 13 communicates, and so that flue gas be discharged out of the furnace, meets hot-air gently motion principle from bottom to top；

High-pressure suction fan 9 and hot high pressure wind turbine 10, which land, is mounted side by side on 29 sides of hot air furnace hot air outlet, effectively drops Generated resonance and noise during low wind turbine operating, avoid the high-temperature region of hot-blast stove, reduce fan trouble rate；

29 inner wall of the pipe of hot-blast outlet is equipped with K-type thermocouple, and temperature information is sent to temperature controller and inputted by K-type thermocouple End monitors temperature change in real time.

The lower section of hot-blast furnace body left plate 6 is equipped with scarp carbon cleaning hole 45, scarp carbon cleaning hole 45 in heat exchanger Portion's flue communicates.

When the utility model energy efficient hot air furnace works, comburant is lighted in combustion chamber and generates high-temperature flue gas, is worn successively Heating chamber flue is crossed, into six grades of Heat Rooms 44 of heat exchanger, Pyatyi Heat Room 38, level Four Heat Room 40, three-level Heat Room 41, two Grade Heat Room 42, low-temperature flue gas are discharged from level-one Heat Room top export 48 through smoke pipe.Opposite hot wind passes through A heat exchanging air ducts 24, B Heat exchanging air duct 23, C heat exchanging air ducts 18, D heat exchanging air ducts 17 carry out heat exchange recycling, and heated chamber heat conducting pipe is sent into hot wind and is gone out Mouthful.

Heat exchanger heat conducting pipe and heating chamber heat conducting pipe material are boiler tube, stainless steel tube or bellows, and inside pipe wall is cut Face shape is straight-tooth shape, spiral tendon shape, and effectively increasing endotherm area reduces temperature in pipe, service life is improved, with similar heat Wind furnace is compared, which improves more than 30%.

Heat exchanger level-one is connected to six grades of Heat Rooms with heating chamber flue, from bottom to top connects six grades of Heat Rooms successively 44th, Pyatyi Heat Room 38, level Four Heat Room 40, three-level Heat Room 41, secondary heat exchange room 42, level-one Heat Room 43 to high pressure air inducing Machine, and smoke baffle plate is equipped between adjacent heat exchange room.Flue gas from bottom to top discharges out of the furnace successively, meets hot-air and from bottom to top moves Rule.

Heat exchanger heat exchanging air duct has several heat conducting pipes along the horizontally arranged arrangement of front-rear direction, and neighbouring heat conducting pipe Heterogeneous Permutation.

Heat exchanger heat conducting pipe and heating chamber heat conducting pipe material are boiler tube, stainless steel tube or bellows, and inside pipe wall is cut Face shape is straight-tooth shape, spiral tendon shape, and effectively increasing endotherm area reduces temperature in pipe, improves service life, and heat conducting pipe is straight Diameter is 40mm~100mm, and pipe thickness is 3mm~12mm.Compared with similar hot-blast stove, the hot wind efficiency of furnace improve 30% with On.

One layer of heat conducting pipe 33 and two layers of dislocation vertical equity arranged of heat conducting pipes 32 are arranged with horizontal cross in heating chamber It is 90 ° or so that three layers of heat conducting pipe, 31, four layers of heat conducting pipe 30 of arrangement, which intersect,.

9 wind pressure of high-pressure suction fan is 3584~3597pa.

High-pressure suction fan 9 and hot high pressure wind turbine 10, which land, is mounted side by side on furnace body hot-blast outlet side, effectively reduces wind Generated resonance and noise when machine operates avoid the high-temperature region of hot-blast stove, reduce fan trouble rate, hot-blast outlet pipeline top Equipped with K-type thermocouple, temperature information is sent to temperature controller input terminal by K-type thermocouple, monitors temperature change in real time, and temperature controller is XMTD series or XMTE series.

Refractory brick is alumina firebrick or clay brick, builds thickness by laying bricks or stones as 50mm~130mm, 35 through a long time of combustion chamber is anti- Retrial is tested, and furnace chamber height is 480mm~700mm in combustion chamber 35, interior furnace chamber length is 50mm~600mm, interior furnace chamber width is 350mm~600mm, interior furnace chamber highly refer to the stove of furnace cavity bottom in one layer of heat conducting pipe to combustion chamber in the heating chamber of combustion chamber top Size between row.

Scarp carbon cleaning hole 45, scarp carbon cleaning hole 45 and heat exchanger flue are equipped on the left of hot wind furnace bottom and furnace body It communicates.

Claims (9)

1. a kind of energy efficient hot air furnace suitable for tea enzyme deactivating and strip sorting, which is characterized in that the hot-blast stove includes furnace body, height Air-heater, high-pressure suction fan, thermocouple, hot-blast outlet are pressed, furnace interior is equipped with combustion chamber, heating chamber, heat exchanger, air duct, cigarette Road, chimney；

The furnace body forms case shape, the front plate lower right by top plate, bottom plate, first member plate, right end plate, front panel, rear panel Equipped with fire door and gray-drawing port, fire door is located above gray-drawing port；Rear panel inner wall is respectively arranged on the left side and the right side air duct, flue, behind Plate outer wall is equipped with the hot high pressure wind turbine being connected with air duct, the high-pressure suction fan being connected with flue, high-pressure suction fan outlet air Chimney is installed on mouthful, rear panel is additionally provided with hot-blast outlet close to air duct side；

Heat exchanger is equipped on the left of the furnace interior, right side is equipped with combustion chamber, heating chamber from bottom to top, and combustion chamber is by the resistance to of surrounding Firebrick piles up composition, and bottom of combustion chamber is equipped with fire grate, and ashpit is equipped in the furnace body below fire grate；The connection heating of combustion chamber upper end Chamber；

Four layers of heat conducting pipe are equipped in the heating chamber, one layer, two layers, three layers, four layers are followed successively by from bottom to top, wherein one layer of heat conduction Along front-rear direction horizontal distribution, levels heat conducting pipe dislocation arrangement one end is communicated with hot-blast outlet for pipe and two layers of heat conducting pipe, The other end is connected with three layers, four layers of heat conducting pipe by air duct, three layers of heat conducting pipe and four layers of heat conducting pipe dislocation transverse horizontal interval Arranged, one end are communicated with Heat Room bellows, and one layer, two layers of heat conducting pipe and three layers, four layers of heat conducting pipe are intersected into 90°；

The heat exchanger is internally provided with multilayer along the horizontally arranged heat conducting pipe of front-rear direction, the heat conducting pipe dislocation row of levels Row, all heat exchanger heat conducting pipes from left to right by several bellows connect and compose A grades of heat exchanging air ducts, B grades of heat exchanging air ducts, C grades change Hot-flow flue, D grade heat exchanging air duct；

In the A grades of heat exchanging air duct, B grades of heat exchanging air ducts, C grades of heat exchanging air ducts, D grades of heat exchanging air ducts, A grades of heat exchanging air duct entrances and height Pressure air-heater is connected by the interlayer air duct that gap between furnace body and heat exchanger is formed, A grades of heat exchanging air ducts and B grades of heat exchanging air ducts It is adjacent and the outlet of A grades of heat exchanging air ducts is connected with B grades of heat exchanging air duct entrances by bellows one；B grades of heat exchanging air ducts and C grades of heat exchange Air duct is adjacent, and B grades of heat exchanging air duct outlets are connected with C grades of heat exchanging air duct entrances by bellows two；C grades of heat exchanging air ducts and D Grade heat exchanging air duct is adjacent, and C grades of heat exchanging air duct outlets are connected with D grades of heat exchanging air duct entrances by bellows three；D grades of heat exchange wind Road outlet is communicated by three layers of heat conducting pipe of bellows four and heating chamber and four layers of heat conducting pipe；

Vertically layout is divided into level-one to six grades of Heat Rooms, six grades of Heat Rooms and top of combustion chamber heating chamber cigarette in the heat exchanger Road is connected, and smoke baffle plate is equipped between every grade of Heat Room flue, and six grades of Heat Rooms are penetrated through with Pyatyi Heat Room, and flue is successively under And upper arrangement, Pyatyi Heat Room are communicated with level Four Heat Room, level Four Heat Room is communicated with three-level Heat Room, three-level Heat Room and two Grade Heat Room communicates, and secondary heat exchange room is communicated with level-one Heat Room, level-one Heat Room and furnace body outer layer high-pressure suction fan flue phase It is logical, flue gas is discharged out of the furnace；

The hot-blast outlet pipeline inner wall is equipped with thermocouple, and temperature information is sent to temperature controller input terminal by thermocouple；

Lower section is equipped with scarp carbon cleaning hole, scarp carbon cleaning hole and heat exchanger Internal Flue phase on the left of the hot-blast furnace body It is logical.

2. the energy efficient hot air furnace according to claim 1 suitable for tea enzyme deactivating and strip sorting, it is characterised in that：It is described to change Using boiler tube, stainless steel tube or bellows, inside pipe wall cross sectional shape is straight tooth-shaped for hot device heat conducting pipe and heating chamber heat conducting pipe Shape, spiral tendon shape, a diameter of 40mm~100mm of heat conducting pipe, pipe thickness are 3mm~12mm.

3. the energy efficient hot air furnace according to claim 1 suitable for tea enzyme deactivating and strip sorting, it is characterised in that：The height Pressure air-introduced machine and hot high pressure wind turbine land installation.

4. the energy efficient hot air furnace according to claim 1 suitable for tea enzyme deactivating and strip sorting, it is characterised in that：The heat Thermocouple is equipped with above wind outlet conduit, temperature information is sent to temperature controller input terminal by thermocouple.

5. the energy efficient hot air furnace according to claim 1 suitable for tea enzyme deactivating and strip sorting, it is characterised in that：It is described resistance to Firebrick its build thickness by laying bricks or stones as 50mm~130mm.

6. the energy efficient hot air furnace according to claim 1 suitable for tea enzyme deactivating and strip sorting, it is characterised in that：The combustion Burn indoor furnace chamber height be 480mm~700mm, interior furnace chamber length is 350mm~600mm, interior furnace chamber width be 350mm~ 600mm。

7. the energy efficient hot air furnace according to claim 1 suitable for tea enzyme deactivating and strip sorting, it is characterised in that：The height Pressure air-heater wind pressure is 4603~4447pa, high-pressure suction fan wind pressure is 3584~3597pa.

8. the energy efficient hot air furnace according to claim 1 suitable for tea enzyme deactivating and strip sorting, it is characterised in that：It is described to change Hot device level-one is connected to six grades of Heat Rooms with heating chamber flue, successively from bottom to top connect six grades of Heat Rooms, Pyatyi Heat Room, Level Four Heat Room, three-level Heat Room, secondary heat exchange room, level-one Heat Room to high-pressure suction fan, and be equipped between adjacent heat exchange room Smoke baffle plate.

9. the energy efficient hot air furnace according to claim 1 suitable for tea enzyme deactivating and strip sorting, it is characterised in that：It is described to change Hot device heat exchanging air duct has several horizontally arranged arrangements of heat conducting pipe front-rear direction, and the adjacent heat conducting pipe radial misalignments row of levels Row.