CN207147182U

CN207147182U - Environmentally friendly heat drying system

Info

Publication number: CN207147182U
Application number: CN201720606081.9U
Authority: CN
Inventors: 陈伟; 王刚; 徐众
Original assignee: Panzhihua University
Current assignee: Panzhihua University
Priority date: 2017-05-25
Filing date: 2017-05-25
Publication date: 2018-03-27
Anticipated expiration: 2027-05-25

Abstract

The utility model discloses a kind of environmentally friendly heat drying system, belong to design of drying equipment manufacturing technology field.Environmental pollution will not both be caused by providing in a kind of running, and can save to greatest extent based on coal, electricity can not the energy again environmentally friendly heat drying system.The environmentally friendly heat drying system includes hothouse, and described environmentally friendly heat drying system also includes dried medium solar heater, and the medium output end of the dried medium solar heater connects with described hothouse.

Description

Environmentally friendly heat drying system

Technical field

A kind of environmentally friendly heat drying system is the utility model is related to, belongs to design of drying equipment manufacturing technology field.

Background technology

The energy for being currently used for that extensive material is dried generally carries heat energy with coal combustion or electric energy heating, first will Dried medium heats, and then again inputs in hothouse dried medium, the material spread out is heated, removes water therein Divide, reach the purpose of dried material.Above two energy-provision way, either any is all meeting generation environment pollution, also simultaneously The substantial amounts of energy can be lost.

Utility model content

Technical problem to be solved in the utility model is：Environmental pollution will not both be caused by providing in a kind of running, And can save to greatest extent based on coal, electricity can not the energy again environmentally friendly heat drying system.

Technical scheme is used by solve above-mentioned technical problem：A kind of environmentally friendly heat drying system, including hothouse, Described environmentally friendly heat drying system also includes dried medium solar heater, Jie of the dried medium solar heater Matter output end connects with described hothouse.

The beneficial effects of the utility model are：The application is by setting a set of dried medium solar heater of including Environmentally friendly heat drying system, and the medium output end of the dried medium solar heater is connected with described hothouse. So, when having the sun, it is only necessary to described dried medium solar heater is placed under sunlight, is then used in dry The dried medium of dry material inputs in described hothouse again after being heated by described dried medium solar heater, So that the material for needing drying to be dried, so that environmentally friendly heat drying system described herein is carried out to dried medium No longer need to obtain heat energy by burning coal or consumption electric energy during heating, but directly using it is inexhaustible, with it not Exhaust in solar energy as heating energy source.Because the energy used is pure natural solar energy, it is not necessary to which burn coal or consumption electricity Can so that the operation of drying system will not both cause the pollution of environment, can save to greatest extent with coal, it is electric based on can not The energy again.

It is further that described dried medium solar heater includes flat heat collecting system, is embedded in described flat board Heat exchange structure in thermal-arrest system and the medium delivery pipe connected with the both ends of the heat exchange structure, described dried medium solar energy Heater is connected by described medium delivery pipe with described hothouse.

Such scheme it is preferable that, described dried medium solar heater also includes medium drive, use Described dried medium solar heater is passed in and out under the driving of the medium drive in the dried medium of dry matter.

It is further that described medium drive includes being serially connected in the medium conveying at the heat exchange structure both ends respectively Blower fan on pipe.

It is further that described environmentally friendly heat drying system also includes at least a set of storage of solar energy heater, each set The medium output end of the storage of solar energy heater connects with described hothouse；Pass through the storage of solar energy heater The thermal energy storage of collection is in the storage of solar energy heater.

Such scheme it is preferable that, described storage of solar energy heater includes solar energy heating component and energy storage and handed over Component is changed, by the storage of solar energy of the solar energy heating collect components in described energy storage exchanges component, described in disengaging The dried medium that energy storage exchanges component exchanges the hothouse described in being inputted after component heats by the energy storage.

It is further that described storage of solar energy heater also includes heat-conducting medium, the solar energy heating component is received The solar energy of collection, which is inputted by described heat-conducting medium and passes to described energy storage, exchanges component.

Such scheme it is preferable that, described energy storage, which exchanges component and includes heat-conducting medium storage bin and phase-change material, fills out Room is filled, described phase-change material filled chamber is circumferentially in the outside of the heat-conducting medium storage bin；It is defeated by heat-conducting medium In the solar energy transmission entered and the phase-change material being stored in phase-change material filled chamber, the medium of the phase-change material filled chamber is defeated Go out end to connect with described hothouse.

It is further that the low temperature formed in the phase-change material filled chamber filled with paraffin and/or expanded graphite is answered Close phase-changing energy storage material.

It is further that described energy storage, which exchanges component, also includes medium drive, is situated between for drying for dry matter Matter passes in and out described phase-change material filled chamber under the driving of the medium drive.

Brief description of the drawings

Fig. 1 is the structural representation of the utility model environmental protection heat drying system；

Fig. 2 is the schematic diagram for the embodiment one that the utility model environmental protection heat drying system is related to.

In figure main mark for：Hothouse 1, dried medium solar heater 2, flat heat collecting system 3, heat exchange structure 4, Medium delivery pipe 5, medium drive 6, blower fan 7, storage of solar energy heater 8, solar energy heating component 9, energy storage exchange group Part 10, heat-conducting medium storage bin 11, phase-change material filled chamber 12.

Embodiment

It is that environmental pollution will not be both caused in a kind of running provided by the utility model as shown in Figure 1, and can is maximum The saving of limit based on coal, electricity can not the energy again environmentally friendly heat drying system.Described environmentally friendly heat drying system bag Hothouse 1 is included, described environmentally friendly heat drying system also includes dried medium solar heater 2, the dried medium sun The medium output end of energy heater 2 connects with described hothouse 1.The application a set of includes the dried medium sun by setting Can heater 2 environmentally friendly heat drying system, and by the medium output end of the dried medium solar heater 2 with it is described Hothouse 1 connects.So, when having the sun, it is only necessary to which described dried medium solar heater is put into 2 in sunlight Under, the dried medium of dried material is then used in by inputting institute again after the described heating of dried medium solar heater 2 , can be so that the material for needing drying to be dried, so that environmentally friendly heat drying system described herein in the hothouse 1 stated System is no longer needed when being heated to dried medium by burning coal or consumption electric energy obtains heat energy, but is directly made By the use of inexhaustible, nexhaustible heating energy source is used as in solar energy.Because the energy used is pure natural solar energy, it is not required to Burn coal or consumption electric energy, so that the operation of drying system will not both cause the pollution of environment, can save to greatest extent Based on coal, electricity can not the energy again.

It is usually this feature of gas with reference to the heating medium for heated material, in order to simplify in above-mentioned real mode The structure of dried medium solar heater 2 is stated, described dried medium solar heater 2 is arranged to include putting down by the application Plate thermal-arrest system 3, the heat exchange structure 4 being embedded in described flat heat collecting system 3 and Jie connected with the both ends of the heat exchange structure 4 The structure of matter delivery pipe 5, and by described dried medium solar heater 2 by described medium delivery pipe 5 with it is described Hothouse 1 connects.So, flat heat collecting system 3 can be then passed to described in being embedded in so that more too limits can be assembled Flat heat collecting system 3 in heat exchange structure 4 on, reach the heating medium that quick heating is inputted in the heat exchange structure 4, and by with The purpose that the medium delivery pipe 5 of the both ends connection of the heat exchange structure 4 is inputted in hothouse 1.Meanwhile exist to promote to heat medium Flowing velocity in heat exchange structure 4 and hothouse 1, described dried medium solar heater 2 also include media drive group Part 6, the dried medium for dry matter pass in and out described dried medium solar energy under the driving of the medium drive 6 Heater 2, described medium drive 6 include the wind being serially connected in respectively in the medium delivery pipe 5 at the both ends of heat exchange structure 4 Machine 7.

From the above description it can be seen that when there is no the sun at cloudy day or night, still need if to continue dried material Consume coal or electric energy.Therefore, in order to ensure that environmentally friendly heat drying system described herein can realize nothing at any time Dried material is discharged, environmentally friendly heat drying system described herein also includes at least a set of storage of solar energy heater 8, each set The medium output end of the storage of solar energy heater 8 connects with described hothouse 1；Heated by the storage of solar energy The thermal energy storage that device 8 is collected is in the storage of solar energy heater 8.Equally, in order to facilitate storage of solar energy described herein Heater 8 is manufactured, and is reduced the maintenance in use, is safeguarded, described storage of solar energy heater 8 includes solar energy heating group Part 9 and energy storage exchange component 10, and the storage of solar energy collected by the solar energy heating component 9 is in described energy storage exchange group In part 10, the dried medium for passing in and out the energy storage exchange component 10 passes through doing described in input after energy storage exchange component 10 heats Dry room 1；Described storage of solar energy heater 8 also includes heat-conducting medium, and the solar energy that the solar energy heating component 9 is collected leads to Described heat-conducting medium is crossed to input and pass to described energy storage exchange component 10.Now, described heat-conducting medium be preferably with Liquid medium based on water；The preferred structure that described energy storage exchanges component 10 is to include heat-conducting medium storage bin 11 and phase transformation Material filled chamber 12, described phase-change material filled chamber 12 is circumferentially in the outside of the heat-conducting medium storage bin 11；It is logical In the phase-change material crossed the solar energy transmission of heat-conducting medium input and be stored in phase-change material filled chamber 12, the phase-change material The medium output end of filled chamber 12 connects with described hothouse 1；Likewise, the filling in the phase-change material filled chamber 12 Phase-changing energy storage material is the low temperature composite phase-change energy storage material that paraffin and/or expanded graphite are formed.Equally, described energy storage exchanges Component 10 also includes medium drive 6, and the dried medium for dry matter is entered under the driving of the medium drive 6 Go out described phase-change material filled chamber 12.

In summary, it is dried because air collector is used alone, drying can not be realized at night and rainy weather, If the heat storage that solar energy vacuum tube near-thermal is absorbed is among phase-changing energy storage material, when night and rainy weather Both it can realize that continuity was dried, so can not only improve production capacity can also realize energy-saving and emission-reduction, have higher environmental protection Benefit.

Embodiment one

As shown in Fig. 2 the solar energy heating drying system with energy storage device disclosed in the utility model, including dry and be situated between Matter solar heater 2, storage of solar energy heater 8 and hothouse 1, the dried medium solar heater 2 is with drying Room 1 connects, and the storage of solar energy heater 8 is also what is connected with hothouse 1, and the air intake vent 301 of hothouse 1 passes through threeway Pipe respectively with the hot-blast outlet 102 of the heat exchange structure 4 of dried medium solar heater 2 and storage of solar energy heater 8 The hot-blast outlet 212 that energy storage exchanges component 10 connects.

Wherein, the effect of dried medium solar heater 2 is to collect solar energy to be converted into heat energy, passes through hothouse inlet air Mouth 301, which enters in hothouse 3, carries out dry materials.

Due to dried medium solar heater 2 heat exchange structure 4 can only have it is sunny under conditions of could provide Sufficient heat energy, and if at night or rainy weather, the heat exchange structure 4 of dried medium solar heater 2 can not be filled Sufficient heat energy, influence to dry work, to solve this problem, it is preferred that the storage of solar energy heater 8 in system.

On sunny daytime, the course of work of the drying system is as follows：

When sunny, 52, No. four valves 54 of No. two valves and No. three blower fans 43 are closed.Now dried medium solar energy heating Device 2 and storage of solar energy heater 8 work simultaneously.The operational mode of preferable dried medium solar heater 2, opens No.1 41, No. two blower fans 42 of blower fan and No.1 valve 51, cold air enter changing for dried medium solar heater 2 by No.1 blower fan 41 The cold air inlet 101 of heat structure 4, by hot-blast outlet 102 after heating, hot blast is drawn through No.1 by No. two blower fans 42 afterwards Enter hot-air inlets 301 after valve 51 and enter hothouse progress dry materials；The operation mould of preferable storage of solar energy heater 8 Formula, opens No.1 pump 61 and No. two pumps 62, and cold liquid thermal conductivity media enters cold Jie of solar energy heating component 9 by No.1 pump 61 Matter entrance 201, mouth 202 is made by heat engine after heating and flowed out, the heat conduction entered by No. two pumps 62 in energy storage exchange component 10 Medium storage room 214, after heat transfer medium transfers heat to phase-changing energy storage material 215, open No. three pumps 63 and No. three valves 53, the heat-conducting medium after cooling is extracted out by No. three pumps 63, entered in the pipeline returned to by No. three valves 53 before No.1 pump 61 Row circulates next time.

In rainy days and night, the course of work of the drying system is as follows：

When system was under rainy days and Night, 61, No. two No. two blower fans 42, No.1 valve 51, No.1 pump pumps are closed 62nd, No. three pumps 63 and No. three valves 53, No.1 blower fan 41, two blower fan 43 of valve 52, three and No. four valves 54 are opened, cold wind passes through one Enter after number blower fan 41 heat exchange of cold wind import 211 of exchanger after flowed out through hot-blast outlet 212, now No. three blower fans 43 are run Hot blast is transported to the hot wind inlet 301 of hothouse 3, completes dry materials work into hothouse therewith.

Claims

1. a kind of environmentally friendly heat drying system, including hothouse (1), it is characterised in that：Described environmentally friendly heat drying system is also Including dried medium solar heater (2), the medium output end of the dried medium solar heater (2) is done with described Dry room (1) connection,

Described environmentally friendly heat drying system also includes at least a set of storage of solar energy heater (8), respectively covers the solar energy storage The medium output end for depositing heater (8) connects with described hothouse (1)；Received by the storage of solar energy heater (8) The thermal energy storage of collection in the storage of solar energy heater (8),

Described storage of solar energy heater (8) includes solar energy heating component (9) and energy storage exchanges component (10), by described The storage of solar energy that solar energy heating component (9) is collected passes in and out the energy storage and exchanged in described energy storage exchanges component (10) The dried medium of component (10) inputs described hothouse (1) after exchanging component (10) heating by the energy storage,

Described storage of solar energy heater (8) also includes heat-conducting medium, the solar energy that the solar energy heating component (9) is collected Inputted by described heat-conducting medium and pass to described energy storage and exchange component (10),

Described energy storage, which exchanges component (10), includes heat-conducting medium storage bin (11) and phase-change material filled chamber (12), described phase Become material filled chamber (12) circumferentially in the outside of the heat-conducting medium storage bin (11)；By heat-conducting medium input too Sun can be transmitted and is stored in the phase-change material in phase-change material filled chamber (12), the medium of the phase-change material filled chamber (12) Output end connects with described hothouse (1).

2. environmentally friendly heat drying system according to claim 1, it is characterised in that：Described dried medium solar energy heating Device (2) include flat heat collecting system (3), the heat exchange structure (4) being embedded in described flat heat collecting system (3) and with the heat exchange knot The medium delivery pipe (5) of the both ends connection of structure (4), described dried medium solar heater (2) are defeated by described medium Pipe (5) is sent to be connected with described hothouse (1).

3. environmentally friendly heat drying system according to claim 2, it is characterised in that：Described dried medium solar energy heating Device (2) also includes medium drive (6), for dry matter dried medium the medium drive (6) driving Dried medium solar heater (2) described in lower disengaging.

4. environmentally friendly heat drying system according to claim 3, it is characterised in that：Described medium drive (6) bag Include the blower fan (7) being serially connected in respectively in the medium delivery pipe (5) at the heat exchange structure (4) both ends.

5. environmentally friendly heat drying system according to claim 1, it is characterised in that：In the phase-change material filled chamber (12) The interior low temperature composite phase-change energy storage material formed filled with paraffin and/or expanded graphite.

6. environmentally friendly heat drying system according to claim 5, it is characterised in that：Described energy storage exchanges component (10) Including medium drive (6), the dried medium for dry matter passes in and out institute under the driving of the medium drive (6) The phase-change material filled chamber (12) stated.