CN204043328U

CN204043328U - A kind of dry fruit based on phase transformation radiator twin-roll and tea drying device

Info

Publication number: CN204043328U
Application number: CN201420473157.1U
Authority: CN
Inventors: 杨斯涵
Original assignee: Southeast University
Current assignee: Southeast University
Priority date: 2014-08-20
Filing date: 2014-08-20
Publication date: 2014-12-24
Anticipated expiration: 2024-08-20

Abstract

The utility model discloses a kind of dry fruit based on phase transformation radiator twin-roll and tea drying device, comprise solar energy heating water tank, phase transformation radiator cylinder and charge cylinder, described phase transformation heating installation cylinder is located at charge drums inside, and described charge cylinder rotates setting relative to phase transformation heating installation cylinder, described solar energy heating water tank and phase transformation radiator drum-shape bunchiness take back road.The utility model is with solar energy heat collection water tank for thermal source, and through the heat source water circulatory system, coupling phase transformation radiator cylinder, realizes tealeaves and break up uniformly and dry, overcome the shortcoming that the power consumption of common drying plant is large.

Description

A kind of dry fruit based on phase transformation radiator twin-roll and tea drying device

Technical field

The utility model relates to dryer field, particularly relates to a kind of dry fruit based on phase transformation radiator twin-roll and tea drying device.

Background technology

Scientist says understanding new forms of energy and correctly uses the energy, just mean that understanding leads to following road, current natural resources and energy resources problem is day by day serious, while comfortable, the health requirements of guarantee, how effectively and reasonably Distribution utilization resource, reduce conventional energy resource consumption become people have to faced by problem.Along with the proposition of sustainable development, energy-saving and emission-reduction also start to arouse widespread concern, and the gross appearance of energy-saving and emission-reduction in agricultural is warmhouse booth, embodiment in the production and processing of tealeaves is tealeaves conveying beater and tea drier, but existing tea leaf drier, there is production process numerous and diverse, machinery equipment great majority are thick stupid, intelligence degree is low, and during use, power consumption is large, and will consume a large amount of man power and materials.

The shortcomings such as described in comprehensive, it is numerous and diverse that existing tea leaf drier exists production process, in Tea Processing process, both needed to carry beater with tealeaves, also needs with tea drying device, and during use the large production cost of power consumption is high.

Summary of the invention

Goal of the invention: in order to overcome the deficiencies in the prior art, the utility model provides a kind of dry fruit based on phase transformation radiator twin-roll and tea drying device, with solar energy heat collection water tank for thermal source, through the heat source water circulatory system, coupling phase transformation radiator cylinder, realize tealeaves break up uniformly and dry, overcome the shortcoming that the power consumption of common drying plant is large.

Technical scheme: for achieving the above object, the technical solution of the utility model is as follows:

A kind of dry fruit based on phase transformation radiator twin-roll and tea drying device, comprise solar energy heating water tank, phase transformation radiator cylinder and charge cylinder, described phase transformation heating installation cylinder is located at charge drums inside, and described charge cylinder rotates setting relative to phase transformation heating installation cylinder, the tubular bunchiness of complex heat transfer of described solar energy heating water tank and phase transformation radiator cylinder takes back road.

Further, the inside of described phase transformation radiator cylinder is made up of many hollow arcuated fin pieces and complex heat transfer pipe, described hollow arcuated fin piece is curved panel, and its inside is hollow-core construction, and this hollow-core construction is in sealed vacuum state, phase-change material superconducting fluid is marked with in the hollow-core construction of described hollow arcuated fin piece, axis along described radiator cylinder arranges at least one complex heat transfer pipe and described hollow arcuated fin piece around connecting into a cylindrical structure do not closed, and the central shaft of described complex heat transfer pipe is parallel with the central shaft of hollow arcuated fin piece.

Further, the both sides end plate of described charge cylinder is provided with some steam vents, and steam vent is provided with cup type honeycomb cover, and the body of described cup type honeycomb cover is uniformly distributed some penetrating pores.

Further, described charge cylinder is located on the first bracing frame and the second bracing frame by bearing bracket stand, and described charge cylinder is connected with electric-motor drive by gear.One side end of described charge cylinder is provided with canine tooth wheel disc, and described canine tooth wheel disc and the carrier gear be arranged on the second bracing frame are in transmission connection, and described carrier gear and speed-changing gear box are in transmission connection, and described speed-changing gear box is connected with electric-motor drive.

Further, the complex heat transfer pipe of described solar energy heating water tank and phase transformation radiator cylinder is concatenated into closed circuit by circulating pump.

Further, humidity sensor is equipped with in outside described charge cylinder one end or inner side, the signal output part of described humidity sensor is connected with the signal input part of gauge tap and buzzer respectively, and the signal output part of described gauge tap is connected with the signal input part of motor and circulating pump respectively.

Further, heater temperature sensor is provided with in described solar energy heating water tank, heater temperature detect switch (TDS) and electric heating device, the signal output part of described heater temperature sensor is connected with the signal input part of heater temperature detect switch (TDS), and the described signal output part of heater temperature detect switch (TDS) is connected with the signal input part of electric heating device.

Beneficial effect: advantage of the present utility model is as follows:

1, a kind of dry fruit based on phase transformation radiator twin-roll of the present utility model and tea drying device, with solar energy heat collection water tank for thermal source, through heat-source Cycles system, coupled coupling phase transformation radiator cylinder, the temperature starting heat transfer only needs 40 degree, and the heat transfer temperature of hot water radiation startup is in the past more than 65 degree, phase transformation radiator cylinder of the present utility model is lower to the temperature requirement in solar energy heating water tank, and it is easier to use at rainy weather.

2, a kind of dry fruit based on phase transformation radiator twin-roll of the present utility model and tea drying device, by the cooperating of motor, speed-changing gear box, carrier gear and canine tooth wheel disc, thus realize the smooth working of charge cylinder, the intellectuality of whole drying course and regular maintenance is realized by humidity sensor, gauge tap, buzzer, circulating pump, motor.

3, a kind of dry fruit based on phase transformation radiator twin-roll of the present utility model and tea drying device, structure is simply easy to use, in the process of drying tea leaves, the rotation of charge cylinder can be broken up uniformly by becoming the tealeaves of bulk, the setting of cup type honeycomb cover, had both added the evaporation rate of the Measuring Moisture Content of Tea that completes, and improved the quality of tealeaves, can effectively prevent again tea stalk to be stuck in pore, the efficiency comparison of dry tealeaves is high.

Accompanying drawing explanation

Accompanying drawing 1 is structural representation of the present utility model.

Accompanying drawing 2 is the structural representation of the utility model twin-roll.

Accompanying drawing 3 is the longitudinal sectional view of the utility model twin-roll.

Accompanying drawing 4 is the transverse sectional view of the utility model twin-roll.

Accompanying drawing 5 is the side view of the utility model twin-roll.

Accompanying drawing 6 is the utility model gear transmission structure schematic diagram.

Accompanying drawing 7 is the enlarged diagram of the cup type honeycomb cover of the utility model.

Accompanying drawing 8 is the internal structure schematic diagram of the utility model solar energy heating water tank.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is further described.

As shown in accompanying drawing 1-8, a kind of dry fruit based on phase transformation radiator twin-roll and tea drying device, comprise solar energy heating water tank 1, phase transformation radiator cylinder 2 and charge cylinder 3, it is inner that described phase transformation heating installation cylinder 2 is located at charge cylinder 3, and described charge cylinder 3 rotates setting relative to phase transformation heating installation cylinder 2, described solar energy heating water tank 1 is formed with phase transformation radiator cylinder 2 and is connected in series loop.The described heat source water circulatory system comprises solar energy heating water tank 1, in the side of heat collection water tank 1, electronics water intaking valve 28 is installed and is connected with water inlet pipe 29, the opposite side upper end of heat collection water tank is provided with overflow pipe 41, is provided with daily water consumption outlet pipe 31 in the bottom of described heat collection water tank 1.Described solar energy heating water tank 1 is concatenated into closed circuit with the complex heat transfer pipe 12 of phase transformation radiator cylinder 2 by circulating pump 23, and described circulating pump 23 is connected with flow control valve 26.

The inside of described phase transformation radiator cylinder 2 is made up of many hollow arcuated fin pieces 13 and complex heat transfer pipe 12, described hollow arcuated fin piece 13 is curved panel, and its inside is hollow-core construction, and this hollow-core construction is in sealed vacuum state, phase-change material superconducting fluid 40 is marked with in the hollow-core construction of described hollow arcuated fin piece 13, axis along described radiator cylinder arranges at least one complex heat transfer pipe 12 with described hollow arcuated fin piece 13 around connecting into a cylindrical structure do not closed, and the central shaft of described complex heat transfer pipe 12 is parallel with the central shaft of hollow arcuated fin piece 13.Phase-change material is injected in described hollow arcuated fin piece 13 boring structure, when hot water is by complex heat transfer pipe 12, the phase-change material superconducting fluid 40 of described hollow arcuated fin piece 13 inside is activated and steam raising produces high-temperature gas, by hollow arcuated fin piece 13 extrados to charge cylinder 3 inwall heat loss through radiation.Described phase-change material superconducting fluid 40 raw material is potassium sulfate (chemical pure), potassium bichromate (chemical pure), redistilled water.Proportioning: potassium sulfate percent 0.5, potassium bichromate percent 2, redistilled water 97.5 percent.According to aforementioned proportion preparation, the phase-change material superconducting fluid 40 be configured to can be vaporized at 40 DEG C.The temperature starting heat transfer only needs 40 degree, and the heat transfer temperature of hot water radiation startup is in the past more than 65 degree, and phase transformation radiator cylinder of the present utility model is lower to the temperature requirement in solar energy heating water tank, and it is easier to use at rainy weather.

The both sides end plate of described charge cylinder 2 is provided with centre bore, described complex heat transfer pipe 12 is connected with both sides centre bore respectively, described charge cylinder 3 two ends are also provided with central shaft, described central shaft is hollow axis body, the liner sleeve pipe that one end of described central shaft doubles as clutch shaft bearing is connected with charge cylinder 3 one end centre bore, the other end centre bore of liner sleeve pipe and charge cylinder 3 that the other end of described central shaft doubles as the second bearing is connected, stationary fit between the outer wall of described bearing liner sleeve pipe and the shaft hole inner wall of bearing, described clutch shaft bearing and the second bearing are separately positioned on the first bracing frame and the second bracing frame.Described charge cylinder 3 is located on the first bracing frame 7 and the second bracing frame 8 by bearing bracket stand, described charge cylinder 3 is in transmission connection by gear and motor 15, one side end of described charge cylinder 3 is provided with canine tooth wheel disc 39, described canine tooth wheel disc 39 is in transmission connection with the carrier gear 21 be arranged on the second bracing frame 8, described carrier gear 21 is in transmission connection with speed-changing gear box 18, and described speed-changing gear box 18 is in transmission connection with motor 15.As shown in Figure 6, by the cooperating of motor 15, speed-changing gear box 18, carrier gear 21 and canine tooth wheel disc 39, thus the smooth working of charge cylinder 3 is realized.

Described system is in dry fruit or drying tea leaves process, it is the oven dry being completed dry fruit or tealeaves by the arc outer wall of phase transformation radiator cylinder 2 to charge cylinder 3 heat loss through radiation, described phase transformation radiator cylinder 2 is fixing, described charge cylinder 3 rotates, humidity sensor 36 is equipped with in outside described charge cylinder 3 one end or inner side, the signal output part of described humidity sensor 36 is connected with the signal input part of gauge tap 37 and buzzer 38 respectively, and the signal output part of described gauge tap 37 is connected with the signal input part of motor 15 and circulating pump 23 respectively.When work oven dry completes, when humidity sensor 36 humidity recorded in charge cylinder 3 reaches setting reading, humidity sensor 36 passes the signal along to gauge tap 37, motor 15 and circulating pump 23 are closed by gauge tap 37, system stalls, synchronous signal is delivered to buzzer 38, and buzzer 38 sends music, and prompting oven dry completes.Simultaneously can also according to the open and close of the setting value adjustment charge cylinder 3 of humidity sensor 36.According to the needs of operating mode, can also be provided with temperature indicator in charge cylinder 3 one side end panel, temperature indicator records the temperature of phase transformation radiator cylinder 2 radiation through end plate, can according to the hot water flow of temperature indicator setting value adjustment flow control valve 26.

Heater temperature sensor 32 is provided with in described solar energy heating water tank 1, heater temperature detect switch (TDS) 33 and electric heating device 34, the signal output part of described heater temperature sensor 32 is connected with the signal input part of heater temperature detect switch (TDS) 33, and the signal output part of described heater temperature detect switch (TDS) 33 is connected with the signal input part of electric heating device 34.Temperature sensor records the water temperature in solar energy heating water tank 1, and inputs to heater temperature detect switch (TDS) 33 after being changed by temperature signal, and the critical-temperature setting heater temperature detect switch (TDS) 33 in the utility model is 40 degree.After heater temperature detect switch (TDS) 33 receives the signal from heater temperature sensor 32, heater temperature detect switch (TDS) 33 judges, only have when the temperature that heater temperature sensor 32 records is lower than critical-temperature 40 degree, heating signal is just transferred to electric heating device 34 by heater temperature detect switch (TDS) 33, water in electric heating device 34 pairs of solar energy heating water tanks heats, when water temp. heating reaches a certain temperature (i.e. temperature 40 degree), heater temperature sensor 32 by Signal transmissions to heater temperature detect switch (TDS) 33, heater temperature detect switch (TDS) 33 transmits and stops heating signal to electric heating device 34, electric heating device 34 stops heating.When running into rainy weather, when night, solar energy cannot provide enough heat heat supplies, peak-trough electricity can be utilized to provide electric heating device intelligent heat supply.

Described solar energy heating water tank 1 is independently intake by self water feeding electronic valve 28, in the inwall upper end of described solar energy heating water tank 1, water level controller 30 is installed, the signal output part of described water level controller 30 is connected with the signal input part of self water feeding electronic valve 28, when heat collection water tank the water yield lower than or higher than a certain setting value time, can self water feeding or stop supply water.

The both sides end plate of described charge cylinder 3 is provided with some steam vents, as shown in Figure 7, steam vent is provided with cup type honeycomb cover 14, and the body of described cup type honeycomb cover 14 is uniformly distributed some penetrating pores.The diameter of described steam vent is 40MM; The diameter of described cup type honeycomb cover 14 is 55mm, and the diameter of the pore of described cup type honeycomb cover 14 is 3mm.The described horizontal arc face of uploading at charge cylinder 3 is provided with charging aperture, is connected with charging aperture curved cover plate 9; The described face of downloading of the horizontal arc at charge cylinder 3 is provided with discharging opening, and be connected with discharging opening curved cover plate 10, dry fruit or tealeaves can from the turnover curved cover plate 9 and curved cover plate 10.

The above is only preferred embodiment of the present utility model; be noted that for those skilled in the art; under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims

1. the dry fruit based on phase transformation radiator twin-roll and tea drying device, it is characterized in that: comprise solar energy heating water tank (1), phase transformation radiator cylinder (2) and charge cylinder (3), it is inner that described phase transformation heating installation cylinder (2) is located at charge cylinder (3), and described charge cylinder (3) rotates setting relative to phase transformation heating installation cylinder (2), described solar energy heating water tank (1) is formed with phase transformation radiator cylinder (2) and is connected in series loop.

2. a kind of dry fruit based on phase transformation radiator twin-roll and tea drying device according to claim 1, it is characterized in that: the inside of described phase transformation radiator cylinder (2) is made up of many hollow arcuated fin pieces (13) and complex heat transfer pipe (12), described hollow arcuated fin piece (13) is curved panel, and its inside is hollow-core construction, and this hollow-core construction is in sealed vacuum state, phase-change material superconducting fluid (40) is marked with in the hollow-core construction of described hollow arcuated fin piece (13), axis along described radiator cylinder (19) arranges at least one complex heat transfer pipe (12) with described hollow arcuated fin piece (13) around connecting into a cylindrical structure do not closed, and the central shaft of described complex heat transfer pipe (12) is parallel with the central shaft of hollow arcuated fin piece (13).

3. a kind of dry fruit based on phase transformation radiator twin-roll and tea drying device according to claim 1, it is characterized in that: the both sides end plate of described charge cylinder (3) is provided with some steam vents, steam vent is provided with cup type honeycomb cover (14), the body of described cup type honeycomb cover (14) is uniformly distributed some penetrating pores.

4. a kind of dry fruit based on phase transformation radiator twin-roll and tea drying device according to claim 1, it is characterized in that: described charge cylinder (3) is located on the first bracing frame (7) and the second bracing frame (8) by bearing bracket stand, and described charge cylinder (3) is in transmission connection by gear and motor (15).

5. a kind of dry fruit based on phase transformation radiator twin-roll and tea drying device according to claim 4, it is characterized in that: a side end of described charge cylinder (3) is provided with canine tooth wheel disc (39), described canine tooth wheel disc (39) and the carrier gear (21) be arranged on the second bracing frame (8) are in transmission connection, described carrier gear (21) and speed-changing gear box (18) are in transmission connection, and described speed-changing gear box (18) and motor (15) are in transmission connection.

6. a kind of dry fruit based on phase transformation radiator twin-roll and tea drying device according to claim 1, is characterized in that: described solar energy heating water tank (1) is concatenated into closed circuit with the complex heat transfer pipe (12) of phase transformation radiator cylinder (2) by circulating pump (23).

7. a kind of dry fruit based on phase transformation radiator twin-roll and tea drying device according to claim 4 or 6, it is characterized in that: humidity sensor (36) is equipped with in outside described charge cylinder (3) one end or inner side, the signal output part of described humidity sensor (36) is connected with the signal input part of gauge tap (37) and buzzer (38) respectively, and the signal output part of described gauge tap (37) is connected with the signal input part of motor (15) and circulating pump (23) respectively.

8. a kind of dry fruit based on phase transformation radiator twin-roll and tea drying device according to claim 1, it is characterized in that: in described solar energy heating water tank (1), be provided with heater temperature sensor (32), heater temperature detect switch (TDS) (33) and electric heating device (34), the signal output part of described heater temperature sensor (32) is connected with the signal input part of heater temperature detect switch (TDS) (33), and the signal output part of described heater temperature detect switch (TDS) (33) is connected with the signal input part of electric heating device (34).