CN207797689U - A kind of dryer heat-transfer device - Google Patents

Abstract

The utility model provides a kind of dryer heat-transfer device, is related to conductive structure technical field.The utility model provides a kind of dryer heat-transfer device, for the heating to baking oven ontology, the baking oven ontology includes babinet, the main shaft in box house is arranged, enter liquid channel and the liquid outlet channel for being accommodated in the main shaft inner cavity including setting cabinet wall, it is described enter liquid channel being passed through thermal conductivity deep fat, the liquid outlet channel to flow out through the oil cooled cold conduction oil of the heat conduction, it is described enter liquid channel, liquid outlet channel connection.The principle heated in the utility model is heat radiation, is disseminated in babinet in a manner of heat radiation the heat source entrained by heat-conducting medium, the tealeaves in drying box, tea-drying process is totally pollution-free, and converting heat is efficient.

Description

A kind of dryer heat-transfer device

Technical field

The utility model is related to conductive structure technical fields, and in particular to a kind of dryer heat-transfer device.

Background technology

Tealeaves is the drink being relatively often used in people's daily life, and there is the history of far away tealeaves in China.Water in tealeaves Divide and evaporated by drying process, drying process determines the quality of tealeaves finished product.Dryer, which is that tea-drying is longer in the process, to be made The dry of tealeaves that be designed as of machinery, heating system provides heat source, helps the evaporation of moisture.With the development of China's science and technology It is continuously improved with people's living standard, the Tea Production technology in China continues to develop, many advanced with the progress of every technology During equipment is applied to Tea manufacture with technology, good item is created for the automation, serialization, mechanization production of tealeaves Part and material base.More in existing production that tealeaves is dried using dryer, existing tea drier is due to supplying Hot equipment is too close from drying room, and the method for generally use charcoal fire heating, cigarette, the dust of heating equipment can pollute tealeaves.

Also some is dried tealeaves using the mode that hot-fluid turns round in the prior art.In Patent No. Disclose a kind of tea drier in the Chinese patent of CN105145907A, including drying box, drying room, heating plant, vertical The structures such as hot gas path, lateral outlet passageway.This device be by hot wind continuous circulation to the tealeaves in baking oven into Row drying is introduced hot-fluid in drying room with fan after heat medium heating, and such drying mode thermal loss rate is very high, Increase production cost, it is low to the utilization rate of thermal energy, and heat it is temperature limited, drying box it is complicated.

Utility model content

In order to solve the above defect in the prior art, the utility model proposes a kind of dryer heat-transfer devices, to solve Drying process tealeaves is easy to be contaminated in the prior art and heat utilization rate is low, the defect of device structure complexity.

A kind of dryer heat-transfer device is provided to achieve the above object, for the heating to baking oven ontology, the baking oven sheet Body includes babinet, the main shaft in box house is arranged, including entering liquid channel and being accommodated in the main shaft for cabinet wall is arranged The liquid outlet channel of chamber, it is described enter liquid channel to be passed through thermal conductivity deep fat, the liquid outlet channel is flowing out through the heat conduction oil cooling But cold conduction oil, it is described enter liquid channel, liquid outlet channel connection.

Wherein, it is described enter liquid channel be that can surround one with the cabinet wall to enter sap cavity to house thermal conductivity deep fat Enter liquid wall.

Wherein, it is described enter liquid channel be the liquid-in pipe being arranged in cabinet wall.

Wherein, the liquid-in pipe is more, the S-shaped arrangement ground connection of more liquid-in pipes.

Further, the liquid-in pipe is copper pipe.

Heat-transfer device further includes spindle nose, and the heating part being connected with spindle nose.The spindle nose includes inner and outer tubes, interior Pipe sleeve is connected in the outer tube.

Wherein, said inner tube is connected to the liquid outlet channel, and the outer tube is connected to liquid channel is entered.

Heat-transfer device further includes crossover sub, and the crossover sub is connected into liquid channel, liquid outlet channel and spindle nose.Described turn Changing-over head includes two fasteners and the thrust ball bearing between two fasteners, and the thrust ball bearing is engaged with two It is respectively equipped with to be connected to the tube chamber into liquid channel, liquid outlet channel between part.

The principle heated in the utility model is heat radiation, to the heat source entrained by heat-conducting medium in a manner of heat radiation It is disseminated in babinet, the tealeaves in drying box.Tea-drying process is totally pollution-free, and converting heat is efficient.

Description of the drawings

Fig. 1 is the structural schematic diagram of dryer heat-transfer device in the utility model；

Fig. 2 is the structural schematic diagram of the crossover sub of dryer heat-transfer device in the utility model；

Wherein；1- babinets；2- main shafts；3- enters liquid channel；4- liquid outlet channels；5- crossover subs；6- spindle noses；The heating parts 7-； 51- fasteners；52- thrust ball bearings；53- tube chambers；61- inner tubes；62- outer tubes.

Specific implementation mode

In order to solve the above defect in the prior art, the utility model proposes a kind of dryer heat-transfer devices, existing to solve There is the easy contaminated and heat utilization rate of drying process tealeaves in technology low, the defect of device structure complexity.

Fig. 1, Fig. 2 are a kind of dryer heat-transfer devices of the utility model, for the heating to baking oven ontology, the baking oven The main shaft 2 that ontology includes babinet 1, is arranged inside babinet 1, including setting 1 inner wall of babinet enter liquid channel 3 and are accommodated in described The liquid outlet channel 4 of 2 inner cavity of main shaft, enters liquid channel 3 to be passed through thermal conductivity deep fat, and liquid outlet channel 4 is flowing out through the conduction oil Cooling cold conduction oil, it is described enter liquid channel 3, liquid outlet channel 4 be connected to.

The principle heated in the utility model is heat radiation, and babinet 1, conduction oil institute are flowed directly into after being heated to heat-conducting medium The heat source of carrying is disseminated in a manner of heat radiation in babinet 1, the tealeaves in drying box 1.The liquid-filled pipe of heat source system is Thermal cycle channel, setting are equivalent to heat source and are directly contacted with tealeaves, heat-conducting medium carries during heating in 1 inside of babinet Heat utilization ratio it is high, tea-drying process is totally pollution-free, and converting heat is efficient, and the structure of equipment is simple.

Enter liquid channel 3 be can be surrounded with 1 inner wall of the babinet one to house thermal conductivity deep fat enter sap cavity enter liquid wall, It is the liquid-in pipe being arranged in 1 inner wall of babinet to enter liquid channel 3, and liquid-in pipe is more, and the S-shaped arrangement ground of more liquid-in pipes is even It is logical, it can also do so at laid out in parallel on the inner wall of babinet 1 and be conducive to dry target subject and contacted with heat source, favorably In the utilization rate for the speed and heat for improving dry heating.

Wherein, liquid-in pipe can be copper pipe.Material thermal conductivity made of copper is fine, the transmittance process energy of heat in heat radiation Amount loss is low.The heat-resisting materials such as irony, stainless steel can also be used.

Heat-transfer device further includes spindle nose 6, and the heating part 7 being connected with spindle nose 6.Spindle nose 6 includes inner tube 61 and outer tube 62, inner tube 61 is socketed in the outer tube 62.Wherein, said inner tube 61 is connected to the liquid outlet channel 4, the outer tube 62 with enter Liquid channel 3 is connected to.

Spindle nose 6 is for convenience to introduce thermal conductivity deep fat into liquid channel 3, and cold conduction oil flows out liquid outlet channel 4, realizes liquid Cycle, hot and cold alternation, in Fig. 1 shown in dotted arrow flow direction be conduction oil flow path, conduction oil through heating Portion 7 is flowed into via the outer tube 62 of spindle nose 6 into liquid channel 3 after heating, and conduction oil is by cycle, and the heat of itself is with heat radiation The temperature of mode circumference tealeaves, conduction oil reduces, and enters inner tube 61, outflow via liquid outlet channel 4.

Heat-transfer device further includes crossover sub 5, and the crossover sub 5 is connected into liquid channel 3, liquid outlet channel 4 and spindle nose 6. The crossover sub 5 includes two fasteners 51 and the thrust ball bearing 52 between two fasteners 51, the thrust ball It is respectively equipped with to be connected to the tube chamber 53 into liquid channel 3, liquid outlet channel 4 between bearing 52 and two fasteners 51.

Twin-channel conduction oil spindle nose 6, if being directly connected with baking oven ontology, spindle nose 6 can be rotated with babinet 1, therefore be needed A crossover sub 5 is done, structure is as shown in Fig. 2, one end that crossover sub 5 connects babinet 1 is turning end, connectiing shaft head 6 One end be stationary end, babinet 1 constantly rotate during by crossover sub 5 effect make spindle nose 6 keep it is relatively quiet Only.

The utility model is not limited to above-mentioned specific embodiment, and various modifications and changes may be made to the present invention. Every foundation the technical essence of the utility model, should all to embodiment of above any modification, equivalent replacement, improvement and so on Included in the scope of protection of the utility model.

Claims (10)

1. a kind of dryer heat-transfer device, for the heating to baking oven ontology, the baking oven ontology includes babinet（1）, setting exist Babinet（1）Internal main shaft（2）, which is characterized in that including being arranged in babinet（1）Inner wall enters liquid channel（3）Be accommodated in institute State main shaft（2）The liquid outlet channel of inner cavity（4）, it is described enter liquid channel（3）To be passed through thermal conductivity deep fat, the liquid outlet channel（4）With With outflow through the oil cooled cold conduction oil of the heat conduction, it is described enter liquid channel（3）, liquid outlet channel（4）Connection.

2. heat-transfer device according to claim 1, which is characterized in that it is described enter liquid channel（3）For can be with the babinet（1） Inner wall surround one to house thermal conductivity deep fat enter sap cavity enter liquid wall.

3. heat-transfer device according to claim 2, which is characterized in that it is described enter liquid channel（3）To be arranged in babinet（1）Inner wall Liquid-in pipe.

4. heat-transfer device according to claim 3, which is characterized in that the liquid-in pipe is more, and the more liquid-in pipes are in S Shape arrangement ground connection.

5. heat-transfer device according to claim 3, which is characterized in that the liquid-in pipe is copper pipe.

6. according to the heat-transfer device described in claim 1, which is characterized in that further include spindle nose（6）, and with the spindle nose （6）The heating part being connected（7）.

7. according to the heat-transfer device described in claim 6, which is characterized in that the spindle nose（6）Including inner tube（61）And outer tube （62）, said inner tube（61）It is socketed in the outer tube（62）It is interior.

8. according to the heat-transfer device described in claim 7, which is characterized in that said inner tube（61）With the liquid outlet channel（4） Connection, the outer tube（62）With enter liquid channel（3）Connection.

9. according to the heat-transfer device described in claim 1, which is characterized in that further include crossover sub（5）, the crossover sub （5）It connects into liquid channel（3）, liquid outlet channel（4）And spindle nose（6）.

10. according to the heat-transfer device described in claim 9, which is characterized in that the crossover sub（5）Including two fasteners （51）And it is mounted on two fasteners（51）Between thrust ball bearing（52）, the thrust ball bearing（52）With two fasteners （51）Between be respectively equipped with to be connected into liquid channel（3）, liquid outlet channel（4）Tube chamber（53）.