A kind of alkali-free fructus lycii drying machine circulatory system
Technical field
The utility model relates to fructus lycii technical field of drying, specially a kind of alkali-free fructus lycii drying machine circulatory system.
Background technique
Fructus lycii is general designation of the people to species under the Lyciums such as commodity fructus lycii, plant lycium barbarum, Chinese fructus lycii.People
Daily consumption and medicinal fructus lycii are mostly the fruit of lycium barbarum.Lycium barbarum is maximum in Chinese cultivated area.Lycium barbarum
It is mainly distributed on northwest China, and other areas are common for Chinese fructus lycii and its mutation.Fructus lycii refers to commodity fructus lycii
Son then refers to the dry mature fruit from lycium barbarum substantially.
Fructus lycii adds man-hour requirement that fructus lycii is dried in progress commodity, needs using drying machine, common drying machine exists
After primary, need again to heat up to drying machine using high temperature overlapping unit, dryer inner waste heat cannot be carried out
It recycles, drying cost is caused to increase, production energy consumption is high.
Utility model content
(1) the technical issues of solving
In view of the deficiencies of the prior art, the utility model provides a kind of alkali-free fructus lycii drying machine circulatory system, solves
Common fructus lycii drying machine cannot be recycled dryer inner waste heat, and drying cost is caused to increase, and production energy consumption is high
The problem of.
(2) technical solution
To achieve the above object, the utility model provides the following technical solutions: a kind of alkali-free fructus lycii drying machine circulatory system,
Including drying box, the upper surface of the drying box is threaded with case lid, and the bottom of the dry chamber interior wall, which is fixedly connected with, holds
Tray, the dry box inner wall are fixedly connected with radiator, and the inside of the drying box is fixedly connected with heat exchanger tube, described to change
The left side of heat pipe has been respectively fixedly connected with inlet pipe and outlet pipe, and the surface of the inlet pipe is fixedly connected with circulating pump, the inlet pipe
Positioned at the front side of outlet pipe, the bottom fixation of the drying box inner left wall is plugged with the first vacuum tube, first vacuum tube
Surface fixing sleeve is connected to gas bleeder valve, and the left end of first vacuum tube passes through the left side wall of drying box and extends to the outer of drying box
Portion, the left end fixing sleeve of first vacuum tube are connected to pump box, and the front of the pump box is fixedly connected with motor, the motor
Output shaft is fixedly connected with rotating bar, and the back side rotation connection of the one end of the rotating bar far from motor and pump box inner wall is described
The surface fixing sleeve that rotating bar is located at one end inside pump box is connected to vacuum pump impeller, and the inner left wall fixation of the pump box is plugged with
Second vacuum tube, the upper surface of the pump box are fixedly connected with boiler, the right side wall and inlet pipe of the boiler and outlet pipe
Grafting is fixed in left end, and the inner left wall fixation of the boiler is plugged with water service pipe, and the surface fixing sleeve of the water service pipe is connected to
The left end of water check valve, the water service pipe passes through the left side wall of boiler and extends to the outside of boiler, a left side for the water service pipe
End fixing sleeve is connected to cold water storage cistern, and the lower surface of the cold water storage cistern is fixedly connected with supporting leg, and second vacuum tube is far from pump box
One end pass through the left side wall of cold water storage cistern and extend to the inside of cold water storage cistern, the cold water storage cistern upper surface fixation is plugged with into water
The left side wall fixation of pipe, the cold water storage cistern is plugged with heating tube, and the right end of the heating tube extends to the inside of cold water storage cistern, described
The left end of heating tube is fixedly connected with the outlet of air source heat pump.
Preferably, the lower surface of the case lid is fixedly connected with rubber pad, the inner wall of the heat exchanger tube and radiator it is outer
Side wall is fixedly connected.
Preferably, the heat exchanger tube is U-tube, and the inside of the inlet pipe and outlet pipe is connected to the inside of heat exchanger tube respectively.
Preferably, the quantity of the supporting leg be four, the top of four supporting legs respectively with cold water storage cistern lower surface
Corner Strapped connection.
Preferably, the heating tube is located at the top of the second vacuum tube, and heating tube and the second vacuum tube are located at cold water storage cistern
Internal one end all extends to the inside of cold water.
Preferably, the lower surface of the air source heat pump, support rod, pump box and drying box is respectively positioned on same plane.
(3) beneficial effect
Compared with prior art, the utility model provides a kind of alkali-free fructus lycii drying machine circulatory system, and having following has
Beneficial effect:
1, the alkali-free fructus lycii drying machine circulatory system, is facilitated by vacuum pump impeller by the heat utilization first in drying box
Vacuum tube and the second vacuum tube are transmitted in cold water storage cistern, make the heat in drying box is convenient to add to the cold water in cold water storage cistern
Heat recycles the waste heat in drying box, reduces the loss of heat, achievees the effect that the operating cost for reducing drying machine, rises
To the effect for reducing energy consumption.
2, the alkali-free fructus lycii drying machine circulatory system, is flowed in heat exchanger tube by boiler internal hot-water, facilitates utilization
Heat transfer in heat exchanger tube into drying box, is conveniently dried fructus lycii radiator.
Detailed description of the invention
Fig. 1 is the utility model structure front elevational view;
Fig. 2 bows for the utility model pump box structure and cuts open figure;
Fig. 3 bows for the dry box structure of the utility model and cuts open figure.
In figure: 1 drying box, 2 case lids, 3 support blocks, 4 radiators, 5 heat exchanger tubes, 6 inlet pipes, 7 outlet pipes, 8 circulating pumps, 9 first
Vacuum tube, 10 gas bleeder valves, 11 pump boxs, 12 motors, 13 rotating bars, 14 vacuum pump impellers, 15 second vacuum tubes, 16 boilers, 17
Water service pipe, 18 water check valves, 19 cold water storage cisterns, 20 supporting legs, 21 water inlet pipes, 22 heating tubes, 23 air source heat pumps.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Please refer to Fig. 1-3, a kind of alkali-free fructus lycii drying machine circulatory system, including drying box 1, the upper surface spiral shell of drying box 1
Line is connected with case lid 2, and the lower surface of case lid 2 is fixedly connected with rubber pad, and rubber pad has preferable leakproofness, case lid 2 with
When drying box 1 overlaps, case lid 2 conveniently makes the space that sealing is formed in drying box 1, reduces scattering and disappearing for heat, improves dry effect
Rate, the bottom of 1 inner wall of drying box are fixedly connected with support block 3, and 1 inner sidewall of drying box is fixedly connected with radiator 4, radiator 4
Model 22PKKP, the inside of drying box 1 is fixedly connected with heat exchanger tube 5, the inner wall of heat exchanger tube 5 and the lateral wall of radiator 4
Be fixedly connected, facilitate radiator 4 will in the heat transfer in heat exchanger tube 5 to drying box 1, it is convenient to the air in drying box 1 into
Row heating, the left side of heat exchanger tube 5 have been respectively fixedly connected with inlet pipe 6 and outlet pipe 7, and heat exchanger tube 5 is U-tube, inlet pipe 6 and outlet pipe 7
Inside be connected to respectively with the inside of heat exchanger tube 5, conveniently recycled the hot water in heat exchanger tube 5, reach guarantee heat exchanger tube 5 in
The effect of temperature, the surface of inlet pipe 6 are fixedly connected with circulating pump 8, the model ISWR of circulating pump 8, and inlet pipe 6 is located at outlet pipe 7
The bottom fixation of front side, 1 inner left wall of drying box is plugged with the first vacuum tube 9, and the surface fixing sleeve of the first vacuum tube 9, which is connected to, to be let out
Air valve 10, the model KYK0726GB of gas bleeder valve 10, the left end of the first vacuum tube 9 pass through the left side wall of drying box 1 and extend to
The outside of drying box 1, the left end fixing sleeve of the first vacuum tube 9 are connected to pump box 11, and the front of pump box 11 is fixedly connected with motor 12,
The output shaft of motor 12 is fixedly connected with rotating bar 13, the back side turn of the one end of rotating bar 13 far from motor 12 and 11 inner wall of pump box
Dynamic connection, the surface fixing sleeve that rotating bar 13 is located at 11 inside one end of pump box are connected to vacuum pump impeller 14, in the left side of pump box 11
Wall is fixed to be plugged with the second vacuum tube 15, and the upper surface of pump box 11 is fixedly connected with boiler 16, the right side wall of boiler 16 with
Grafting is fixed in the left end of inlet pipe 6 and outlet pipe 7, and the inner left wall fixation of boiler 16 is plugged with water service pipe 17, the table of water service pipe 17
Face fixing sleeve is connected to water check valve 18, and the left end of water service pipe 17 passes through the left side wall of boiler 16 and extends to the outer of boiler 16
Portion, the left end fixing sleeve of water service pipe 17 are connected to cold water storage cistern 19, and the lower surface of cold water storage cistern 19 is fixedly connected with supporting leg 20, supporting leg
20 quantity is four, and the top of four supporting legs 20 is connect with the Corner Strapped of 19 lower surface of cold water storage cistern respectively, supporting leg 20
For promoting the height of cold water storage cistern 16, facilitate in the delivery in cold water storage cistern 19 to boiler 16, the second vacuum tube 15 is remote
One end from pump box 11 passes through the left side wall of cold water storage cistern 19 and extends to the inside of cold water storage cistern 19, and 19 upper surface of cold water storage cistern is fixed to insert
It is connected to water inlet pipe 21, the left side wall fixation of cold water storage cistern 19 is plugged with heating tube 22, and heating tube 22 is located at the upper of the second vacuum tube 15
Side, and heating tube 22 and the second vacuum tube 15 are located at the inside that one end inside cold water storage cistern 19 all extends to cold water, heating tube 22
Right end extend to the inside of cold water storage cistern 19, the left end of heating tube 22 is fixedly connected with the outlet of air source heat pump 23, air-source
The model RBR-80F of heat pump 23, air source heat pump 23, support rod, pump box 11 and drying box 1 lower surface be respectively positioned on it is same flat
Face, it is convenient that entire drying device is placed, facilitate and carries out using being facilitated by vacuum pump impeller 14 will be in drying box 1
Heat utilization the first vacuum tube 9 and the second vacuum tube 15 are transmitted in cold water storage cistern 19, keep the heat in drying box 1 convenient to cold water
Cold water in case 19 is heated, and the waste heat in drying box 1 is recycled, and reduces the loss of heat, reaches reduction drying machine
Operating cost effect, play the role of reducing energy consumption, be flowed in heat exchanger tube 5 by 16 internal hot-water of boiler, it is convenient
Using radiator 4 by the heat transfer in heat exchanger tube 5 into drying box 1, it is convenient that fructus lycii is dried.
The electric elements occurred in this article are electrically connected with extraneous main controller and 220V alternating current, and main controller can be meter
Calculation machine etc. plays the conventionally known equipment of control.
When in use, fructus lycii is placed in support block 3, case lid 2 is covered on drying box 1, using water inlet pipe 21 by clear water
It pouring into cold water storage cistern 19, starting air source heat pump 23, which pours into hot gas in cold water storage cistern 19 from heating tube 22, heats clear water,
Water check valve 18 is opened after clear water heating in cold water storage cistern 19 works as hot water using water service pipe 17 by delivery to boiler 16
Heat reaches a timing in case 16, starts circulating pump 8, and the hot water inside boiler 16 is transported to by inlet pipe 6 and is changed by circulating pump 8
In heat pipe 5, the heat in heat exchanger tube 5 is dispersed into drying box 1 by radiator 4, and the hot water in heat exchanger tube 5 passes through outlet pipe after cooling off
7 flow back into boiler 16 and reheat, and after the completion of fructus lycii is dry, open gas bleeder valve 10, start motor 12, and motor 12 is using turning
Lever 13 drives vacuum pump impeller 14 to rotate, and the hot-air in drying box 1 enters by the first vacuum tube 9 and the second vacuum tube 15
Clear water is heated in cold water storage cistern 19, has the function that be recycled the waste heat in drying box 1.
In conclusion the alkali-free fructus lycii drying machine circulatory system, is facilitated by vacuum pump impeller 14 by the heat in drying box 1
Amount is transmitted in cold water storage cistern 19 using the first vacuum tube 9 and the second vacuum tube 15, keeps the heat in drying box 1 convenient to cold water storage cistern
Cold water in 19 is heated, and the waste heat in drying box 1 is recycled, and reduces the loss of heat, is reached and is reduced drying machine
The effect of operating cost plays the role of reducing energy consumption, is flowed in heat exchanger tube 5 by 16 internal hot-water of boiler, facilitate benefit
With radiator 4 by the heat transfer in heat exchanger tube 5 into drying box 1, it is convenient that fructus lycii is dried.
It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality
Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation
In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to
Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those
Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment
Intrinsic element.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired
Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.