CN1657856A - Helical propelling rotation heat pipe heat exchager - Google Patents

Abstract

The invention is a spiral boosting rotate heat tube exchanger which consists of gravity heat tube, spiral fin, transmission component (such as gear, belt wheel, chain wheel, abrasion wheel), outer sleeve tube and the sealing components. The out driving force is transmitted by the gears to the heat tube spinning the tube. The spiral fins drives the high mucosity liquor flowing outside the heat tube in the spiral channels so to exchange heat with the heat tube. The heat exchanger is able to provide the heated or cooled materials with a uniform temperature field while driving them flowing in the heat exchanger which facilitates the flow condition in the heat exchanger and prevents the jamming and delays the accumulating of the dirt layer. The invention is capable of high mucosity heat sensitive flow heating and cooling techniques.

Description

Screw-pushing type rotating heat pipe heat exchanger

Affiliated technical field

The present invention relates to heat exchanger device, especially the heating of high viscosity thermal sensitive fluid and cooling device.

Background technology

Industries such as food, biochemistry, medicine often run into the heating and cooling problem of high viscosity thermal sensitivity fluid.The heating and cooling technology of such medium not only needs stationary temperature, and requires degree of heat even.But because the viscosity height of fluid media (medium) makes that its tubular type or flow resistance in the plate type heat exchanger in routine is very big, easily stagnation fouling on wall influences heat-transfer effect.And cause heating or inhomogeneous cooling because of flow velocity is inhomogeneous, even it is rotten burnt paste to occur at flow blind angle, causes clogging to take place, and influences product quality.Therefore, need frequent or regular heat exchanging device to carry out the fluid injection cleaning even need to dismantle scraping dirt.

Summary of the invention

In order to improve the heating and cooling technology of high viscosity thermal sensitive fluid material, the invention provides a kind of screw-pushing type rotating heat pipe heat exchanger.This screw-pushing type rotating heat pipe heat exchanger not only can provide all even stable heating condition for material, further improves heat transfer efficiency, and convection cell mobile playing a driving role in heat exchanger, improves flow regime, avoids fouling and clogging to take place.

The technical solution adopted for the present invention to solve the technical problems is: increase flight outside gravity assisted heat pipe, drive the heat pipe rotation by motor by sprocket wheel or belt.Material is forced flow in the helical duct between heat pipe and the outer tube, and and heat pipe wall and flight between forced-convection heat transfer.Heat pipe provides uniform heating or chilling temperature for material, and the flight of heat pipe outer surface plays progradation to material when heat pipe rotates, and increases heat transfer area, augmentation of heat transfer simultaneously.According to actual heat exchange needs, this heat exchanger can make up increase arbitrarily, and the runner easy switching only need be dismantled outer tube during maintenance, can not influence production.

The beneficial effects of the utility model are: for the high viscosity thermal sensitive fluid provides the temperature conditions of uniform and stable heating and cooling, propelling fluid flows in heat exchanger simultaneously, improves flow regime, improves heat exchange efficiency, prevents to stop up, and delays the dirt layer and forms.In addition, it is simple in structure, and combined and instant is safeguarded easily, helps standardization.

Description of drawings

The present invention is further described below in conjunction with drawings and Examples.

Fig. 1 is the schematic diagram that the present invention is applied to high viscosity thermal sensitive fluid heater.

Fig. 2 is a screw-pushing type rotating heat pipe heat exchanger vertical section structural map.

1. belt pulleys among the figure, 2. belt, 3. travelling gear, 4. coolant outlet, 5. cooler chuck, 6. gravity assisted heat pipe, 7. high sticking material inlet pipe, 8. heater chuck, 9. flight 10. is communicated with articulation, 11. high sticking material outlet pipes, 12. the cooling liquid inlet pipe, 13. motors, 14. gears, 15. the plug axle, 16. fillers, 17. fillers are contained, 18, gland, 19. flanges.

The specific embodiment

In Fig. 1, high sticking material is heated by the bringing-up section that the sticking material inlet pipe (7) of height enters screw-pushing type rotating heat pipe (6) heat exchanger top, simultaneously, flight (9) advances in the helical duct of material between heat pipe (6) and heater chuck (8) and flows forward, and changes further heating of next stage (if desired) in the end over to via being communicated with articulation (10).Heating finishes after outlet (11) flows out.Add hot fluid then via the working medium in the sleeve pipe opposite heat tube of heat exchange of heat pipe bottom heating and make its vaporization.If desired the high viscosity thermal sensitive fluid is cooled off, as long as the spiral section of heat pipe is placed the below and the high viscosity thermal sensitive fluid is passed through from the below.

Fig. 2 has shown the cross-section structure of this spiral rotating heat pipe heat exchanger.The spiral rotating heat pipe heat exchanger of one separate unit is processed with the heat pipe (6) of flight (9) and the sleeve pipe (5 at two ends by an end, 8) constitute, additionaling power drives the heat pipe rotation by the gear (14) on the plug axle (15) that is installed in the heat pipe end, axially movable sealing adopts filler to contain structure (16,17,18), filler culvert (17) is fixed on the jacket flange (19).Installation and removal are carried out from two ends.

Claims (4)

1. heat exchange of heat pipe, form by gravity assisted heat pipe, flight, drive disk assembly (as gear, belt pulley, sprocket wheel, friction pulley), outer tube and seal, it is characterized in that: the external world passes to heat exchange of heat pipe by drive disk assembly with rotary power, flight on the heat pipe promotes highly viscous fluid forced flow in heat exchanger when rotated, and carries out exchange heat by heat pipe.

2. heat exchange of heat pipe according to claim 1 is characterized in that: the end at gravity assisted heat pipe has the propelling flight.

3. heat exchange of heat pipe according to claim 1 is characterized in that: the end at gravity assisted heat pipe is connected with an axle, and actuated element is installed on axle.

4. propelling flight according to claim 2 is characterized in that adopting single head or twin-feed spiral, and the flight cross sectional shape is a rectangle or trapezoidal.

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