CN205909664U - Energy -efficient desiccator of developments - Google Patents
Energy -efficient desiccator of developments Download PDFInfo
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- CN205909664U CN205909664U CN201620857968.0U CN201620857968U CN205909664U CN 205909664 U CN205909664 U CN 205909664U CN 201620857968 U CN201620857968 U CN 201620857968U CN 205909664 U CN205909664 U CN 205909664U
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Abstract
The utility model provides an energy -efficient desiccator of developments, including heat pump system and drying chamber, heat pump system includes compressor, air cooler, air heater and throttle expansion valve, air cooler includes first shell and sets up a plurality of air cooling passageways in first shell, the air inlet mutual independence of a plurality of air cooling passageways, the gas outlet mutual independence of a plurality of air cooling passageways, be provided with a main intake hole and first main gas outlet on the first shell, this kind of energy -efficient desiccator of developments has set up multiunit evaporimeter and condenser respectively in air cooler and air heater to have independent wind channel between them, evenly the efficient cools off and heats the air.
Description
Technical field
This utility model is related to drying equipment technical field, more particularly, to a kind of dynamic state high-efficiency energy conservation drying machine.
Background technology
Dry technology is numerous industry, an important operation in the agricultural production course of processing, go deep into national economy each
Field.It is the same with other process of manufacture, all must be to consume the energy as cost.There is also industry in this area thin
Point, the problem of product subdivision.With social development, biological product will get more and more.In medicine, food, feedstuff etc. field
The material requiring cold drying can get more and more.Heat pump techniques have unmatched advantage in terms of low-temperature heat source.In addition, pin
To the south China area problem that there was dampness in the air, develop a kind of low water capacity control air system and be used for middle low temperature air flow drying side
Face, is also an important contribution.
Utility model content
The technical problems to be solved in the utility model is: in order to solve the deficiencies in the prior art, this utility model
Provide a kind of dynamic state high-efficiency energy conservation drying machine to solve the above problems.
This utility model solves its technical problem and be the technical scheme is that a kind of dynamic state high-efficiency energy conservation drying machine, bag
Include heat pump and hothouse;
Described heat pump includes compressor, air cooler, air heater and throttle expansion valve;
Described air cooler includes the first shell and the multiple cooling air channels being arranged in the first shell, described many
The air inlet of individual cooling air channel is separate, and the gas outlet of the plurality of cooling air channel is separate, and described first
First primary air inlet and the first main gas outlet are provided with shell, the first primary air inlet respectively with the plurality of cooling air channel
Air inlet connect, described first main gas outlet is connected with the gas outlet of the plurality of cooling air channel respectively, described in each
It is provided with least one vaporizer, the windward side of described vaporizer is in described cooling air channel in cooling air channel
The flow direction of air;
Described air heater includes second housing and the multiple air heating passages being arranged in second housing, described many
The air inlet that individual air heats passage is separate, and the gas outlet that the plurality of air heats passage is separate, and described second
Second primary air inlet and the second main gas outlet are provided with shell, the second primary air inlet heats passage with the plurality of air respectively
Air inlet connect, the gas outlet that passage is heated with the plurality of air respectively in described second main gas outlet is connected, described in each
It is provided with least one condenser, the windward side of described condenser is in described air heating passage in air heating passage
The flow direction of air;
Master is additionally provided with described first shell to liquid mouth and main gas returning port, described second housing is additionally provided with master to gas
Mouthful and main liquid return hole, described master be connected by pipeline with main liquid return hole to liquid mouth and described throttle expansion valve be arranged on them it
Between pipeline on, described main gas returning port is connected by pipeline to QI KOU and pipe that described compressor is disposed there between with main
On road;
Described master to liquid mouth respectively with being connected to liquid mouth of multiple described vaporizers, described main gas returning port respectively with multiple institutes
The gas returning port stating vaporizer connects, and described main liquid return hole is connected with the liquid return hole of multiple described condensers respectively, and described master is to gas
Mouth respectively with being connected to QI KOU of multiple described condenser;
Described first main gas outlet is connected with the second primary air inlet by pipeline, described second main gas outlet pass through pipeline with
The air inlet of described hothouse connects.
Preferably, the quantity of the vaporizer of setting is identical in each described cooling air channel, each described vaporizer
The flow of air that passed through of windward side be unanimously, each described air heats the quantity phase of the condenser of setting in passage
Together, the flow of the air that the windward side of each described condenser is passed through is unanimously.
Preferably, described vaporizer includes the first copper pipe and several first wings being arranged in the first copper pipe outer
Piece, the two ends of described first copper pipe be respectively described vaporizer to liquid mouth and gas returning port, several first fins described are successively
Arrange and their same side is parallel to each other, form the windward side of described vaporizer, the windward side of all described vaporizers
Area all same, is 0.15 ~ 0.25m2;
Described condenser includes the second copper pipe and several second fins being arranged in the second copper pipe outer, and described second
The two ends of copper pipe are respectively the liquid return hole of described condenser and to QI KOU, and several second fins described are arranged in order and they
Same side be parallel to each other, formed described condenser windward side, the area all same of the windward side of all described condensers, be
0.15~0.25m2.
Preferably, several first fin arrangement of described vaporizer are in the first array of cuboid, all described
The volume of the first array is consistent and is less than 1m, and the height of described first array and the ratio of length are 1/2 ~ 1/10, wherein a height of vertical
Side in the first fin;
Several second fin arrangement of described condenser are in the second array of cuboid, all described second arrays
Volume is consistent and is less than 1m, and the height of described second array and the ratio of length are 1/2 ~ 1/10, wherein a height of perpendicular to the second fin
Side.
Preferably, the quantity of described cooling air channel is four, the steaming of setting in each described cooling air channel
The quantity sending out device is four, and the windward side of four in described cooling air channel vaporizer is coplanar and inline;Institute
The quantity stating air heating passage is four, and the quantity that each described air heats the condenser of setting in passage is four, institute
State air heat passage in four condensers windward side coplanar and inline.
Preferably, also including air treatment system, described air treatment system includes air filter, waste heat recovery
Device, air-introduced machine, deafener, rotary dust wiper and sack cleaner, the air inlet of described air filter is passed through air, gas outlet
It is connected with described first primary air inlet, described waste-heat recoverer is gas-gas heat exchanger, described waste-heat recoverer has exhaust gas flow path
With pre- hot flow path, the air inlet of described exhaust gas flow path is connected with the gas outlet of described hothouse by pipeline, described exhaust gas flow path
Gas outlet, rotary dust wiper, sack cleaner, deafener and air-introduced machine be sequentially connected by pipeline, described pre- hot flow path
It is connected on the pipeline between the described first main gas outlet and the second primary air inlet.
Preferably, described drying interior is provided with waffle slab and several are used for the speed jet drying of 1 ~ 50m/s
The shower nozzle of hot-air, several shower nozzles described are all connected with the air inlet of described hothouse, and described waffle slab is located at described drying
The bottom of room, several shower nozzles described are distributed in around described waffle slab.
Preferably, the bottom of described air cooler is additionally provided with condensation-water drain, the lower section of described condensation-water drain
It is provided with steam trap.
Preferably, the mesh number of the mesh of described waffle slab is 10 ~ 400 mesh, the number of described shower nozzle is 5 ~ 20.
The beneficial effects of the utility model are that this dynamic state high-efficiency energy conservation drying machine is in air cooler and air heater
In be respectively provided with multigroup vaporizer and condenser, and there is between them independent air channel, can be with uniform high-efficiency to sky
Gas is cooled down and is heated.
Brief description
With reference to the accompanying drawings and examples this utility model is further illustrated.
Fig. 1 is the system diagram of the optimum embodiment of dynamic state high-efficiency energy conservation drying machine of the present utility model.
Fig. 2 is the structure chart of the vaporizer of optimum embodiment of dynamic state high-efficiency energy conservation drying machine of the present utility model.
Fig. 3 is the structure chart of the air cooler of optimum embodiment of dynamic state high-efficiency energy conservation drying machine of the present utility model.
In figure 1, hothouse, 2, compressor, 3, air cooler, 4, air heater, 5, throttle expansion valve, 6, rotation removes
Dirt device, 7, sack cleaner, 8, deafener, 9, air-introduced machine, 10, air filter, 11, waste-heat recoverer, 12, air cooling logical
Road, the 13, first copper pipe, the 14, first fin.
Specific embodiment
Embodiment of the present utility model is described below in detail, the example of described embodiment is shown in the drawings, wherein ad initio
To the element that same or similar label represents same or similar element or has same or like function eventually.Below by ginseng
The embodiment examining Description of Drawings is exemplary, is only used for explaining this utility model, and it is not intended that to of the present utility model
Limit.On the contrary, embodiment of the present utility model include falling into all in the range of the spirit of attached claims and intension
Change, modification and equivalent.
In description of the present utility model it is to be understood that term " " center ", " longitudinal ", " horizontal ", " length ", " width
Degree ", " thickness ", " on ", D score, "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outward ", " axle
To ", " radially ", the orientation of the instruction such as " circumferential " or position relationship be based on orientation shown in the drawings or position relationship, be only for
It is easy to describe this utility model and simplifies description, rather than the device of instruction or hint indication or element must have specifically
Orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.
Additionally, term " first ", " second " etc. are only used for describing purpose, and it is not intended that instruction or hint are relatively important
Property.In description of the present utility model, it should be noted that unless otherwise clearly defined and limited, term " being connected ", " company
Connect " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or it is integrally connected;It can be machine
Tool connects or electrically connects;Can be to be joined directly together it is also possible to be indirectly connected to by intermediary.For this area
For those of ordinary skill, concrete meaning in this utility model for the above-mentioned term can be understood with concrete condition.Additionally, in this reality
With, in new description, unless otherwise stated, " multiple " are meant that two or more.
As shown in Fig. 1 ~ 3, this utility model provides a kind of dynamic state high-efficiency energy conservation drying machine, including heat pump and drying
Room 1, heat pump includes compressor 2, air cooler 3, air heater 4 and throttle expansion valve 5;Air cooler 3 includes
First shell and four cooling air channels 12 being arranged in the first shell, the air inlet of four cooling air channels 12 is mutual
Independent, the gas outlet of four cooling air channels 12 is separate, and the first shell is provided with the first primary air inlet and the first master
Gas outlet, the first primary air inlet is connected with the air inlet of four cooling air channels 12 respectively, and the first main gas outlet is respectively with four
The gas outlet of individual cooling air channel 12 connects, and is provided with four vaporizers in each cooling air channel 12, the meeting of vaporizer
The flow direction of wind face air in cooling air channel 12, so can reduce air cooler 3 to greatest extent
Volume;
Air heater 4 includes second housing and four air heating passages being arranged in second housing, four air
The air inlet of heating passage is separate, and the gas outlet that four air heat passages is separate, and second housing is provided with the
Two primary air inlets and the second main gas outlet, the air inlet that the second primary air inlet heats passage with four air respectively is connected, and second
The gas outlet that passage is heated with four air respectively in main gas outlet is connected, and is provided with four condensations in each air heating passage
Device, the flow direction of air in passage is heated in the windward side of condenser perpendicular to air, thus farthest reduce air adding
The volume of hot device 4;
First array in cuboid for several first fins 14 arrangement of vaporizer, the volume one of all first arrays
Cause and be less than 1m, the height of the first array is 1/5 with the ratio of length, wherein a height of side perpendicular to the first fin 14;
Several second fin arrangement of condenser are in the second array of cuboid, and the volume of all second arrays is consistent
And it is less than 1m, the height of the second array is 1/5 with the ratio of length, wherein a height of side perpendicular to the second fin;
The windward side of four vaporizers in cooling air channel 12 is coplanar and inline;In air heating passage
Four condensers windward side coplanar and inline.
Master is additionally provided with the first shell to liquid mouth and main gas returning port, second housing is additionally provided with master and to QI KOU and leads back
Liquid mouth, master, leads back with the pipeline that main liquid return hole is connected by pipeline and throttle expansion valve 5 is disposed there between to liquid mouth
QI KOU is with main on the pipeline that QI KOU is connected by pipeline and compressor 2 is disposed there between;
Master is connected to liquid mouth with four vaporizers respectively to liquid mouth, the main gas returning port gas returning port with four vaporizers respectively
Connect, main liquid return hole is connected with the liquid return hole of four condensers respectively, master is to QI KOU respectively with four condensers to QI KOU even
Connect;
First main gas outlet is connected with the second primary air inlet by pipeline, and pipeline and hothouse 1 are passed through in the second main gas outlet
Air inlet connect.
The flow of the air that the windward side of each vaporizer is passed through is unanimously, and the windward side of each condenser is passed through
The flow of air be unanimously, vaporizer include the first copper pipe 13 and be arranged on the first copper pipe 13 outer wall several first
Fin 14, the two ends of the first copper pipe 13 be respectively vaporizer to liquid mouth and gas returning port, several first fins 14 are arranged in order
And their same side is parallel to each other, form the windward side of vaporizer, the area all same of the windward side of all evaporators, be
0.2m2;
Condenser includes the second copper pipe and several second fins being arranged in the second copper pipe outer, and the two of the second copper pipe
End is respectively the liquid return hole of condenser and to QI KOU, and several second fins are arranged in order and their same side is mutually flat
OK, form the windward side of condenser, the area all same of the windward side of all condensers, is 0.2m2.
Dynamic state high-efficiency energy conservation drying machine also includes air treatment system, and air treatment system includes air filter 10, remaining
Heat regenerator 11, air-introduced machine 9, deafener 8, rotary dust wiper 6 and sack cleaner 7, the air inlet of air filter 10 is passed through
Air, gas outlet is connected with the first primary air inlet, and waste-heat recoverer 11 is gas-gas heat exchanger, and waste-heat recoverer 11 has waste gas stream
Road and pre- hot flow path, the air inlet of exhaust gas flow path is connected with the gas outlet of hothouse 1 by pipeline, the gas outlet of exhaust gas flow path,
Rotary dust wiper 6, sack cleaner 7, deafener 8 and air-introduced machine 9 are sequentially connected by pipeline, and pre- hot flow path is connected to first
On pipeline between main gas outlet and the second primary air inlet, it is provided with waffle slab in hothouse 1 and several are used for 25m/s's
The shower nozzle of speed jet drying hot-air, several shower nozzles are all connected with the air inlet of hothouse 1, and waffle slab is located at hothouse 1
Bottom, several shower nozzles are distributed in around waffle slab, and the bottom of air cooler 3 is additionally provided with condensation-water drain, condensation
The lower section of water out is provided with steam trap, and the mesh number of the mesh of waffle slab is 200 mesh, and the number of shower nozzle is 12.
In the description of this specification, reference term " embodiment ", " some embodiments ", " example ", " specifically show
The description of example " or " some examples " etc. means specific features, structure, material or the spy describing with reference to this embodiment or example
Point is contained at least one embodiment of the present utility model or example.In this manual, the schematic table to described term
State and be not necessarily referring to identical embodiment or example.And, the specific features of description, structure, material or feature can be
Combine in an appropriate manner in any one or more embodiments or example.
With above-mentioned according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, related work people
Member can carry out various change and modification completely in the range of without departing from this utility model technological thought.This reality
The content being not limited in description with new technical scope it is necessary to determine its technology according to right
Property scope.
Claims (9)
1. a kind of dynamic state high-efficiency energy conservation drying machine, including heat pump and hothouse it is characterised in that:
Described heat pump includes compressor, air cooler, air heater and throttle expansion valve;
Described air cooler includes the first shell and the multiple cooling air channels being arranged in the first shell, the plurality of sky
The air inlet of air cooling passage is separate, and the gas outlet of the plurality of cooling air channel is separate, described first shell
On be provided with the first primary air inlet and the first main gas outlet, the first primary air inlet respectively with the entering of the plurality of cooling air channel
QI KOU connects, and described first main gas outlet is connected with the gas outlet of the plurality of cooling air channel respectively, each described air
It is provided with least one vaporizer, the windward side of described vaporizer air in described cooling air channel in cooling duct
Flow direction;
Described air heater includes second housing and the multiple air heating passages being arranged in second housing, the plurality of sky
The air inlet that gas heats passage is separate, and the gas outlet that the plurality of air heats passage is separate, described second housing
On be provided with the second primary air inlet and the second main gas outlet, the second primary air inlet heats the entering of passage with the plurality of air respectively
QI KOU connects, and the gas outlet that passage is heated with the plurality of air respectively in described second main gas outlet is connected, each described air
It is provided with least one condenser, air in passage is heated perpendicular to described air in the windward side of described condenser in heating passage
Flow direction;
Be additionally provided with described first shell main to liquid mouth and main gas returning port, described second housing is additionally provided with main to QI KOU and
Main liquid return hole, described master is connected by pipeline with main liquid return hole to liquid mouth and described throttle expansion valve is disposed there between
On pipeline, the pipeline that described main gas returning port is connected by pipeline to QI KOU with master and described compressor is disposed there between
On;
Described master to liquid mouth respectively with being connected to liquid mouth of multiple described vaporizers, described main gas returning port respectively with multiple described steamings
The gas returning port sending out device connects, and described main liquid return hole is connected with the liquid return hole of multiple described condensers respectively, and described master divides to QI KOU
Not with being connected to QI KOU of multiple described condenser;
Described first main gas outlet is connected with the second primary air inlet by pipeline, described second main gas outlet pass through pipeline with described
The air inlet of hothouse connects.
2. dynamic state high-efficiency energy conservation drying machine as claimed in claim 1 it is characterised in that: set in each described cooling air channel
The quantity of the vaporizer put is identical, and the flow of the air that the windward side of each described vaporizer is passed through is unanimously, each institute
State air heat the condenser of setting in passage quantity identical, the stream of the air that the windward side of each described condenser is passed through
Amount is consistent.
3. dynamic state high-efficiency energy conservation drying machine as claimed in claim 2 it is characterised in that: described vaporizer include the first copper pipe and
Be arranged on several first fins in the first copper pipe outer, the two ends of described first copper pipe be respectively described vaporizer to liquid
Mouth and gas returning port, several first fins described are arranged in order and their same side is parallel to each other, and form described vaporizer
Windward side, the area all same of the windward side of all described vaporizers, is 0.15 ~ 0.25m2;
Described condenser includes the second copper pipe and several second fins being arranged in the second copper pipe outer, described second copper pipe
Two ends be respectively the liquid return hole of described condenser and to QI KOU, several second fins described are arranged in order and they same
Side is parallel to each other, and forms the windward side of described condenser, the area all same of the windward side of all described condensers, is 0.15
~0.25m2.
4. dynamic state high-efficiency energy conservation drying machine as claimed in claim 3 it is characterised in that:
Several first fin arrangement of described vaporizer are in the first array of cuboid, the volume of all described first arrays
Consistent and be less than 1m, the height of described first array and the ratio of length are 1/2 ~ 1/10, wherein a height of perpendicular to the first fin
Side;
Several second fin arrangement of described condenser are in the second array of cuboid, the volume of all described second arrays
Consistent and be less than 1m, the height of described second array and the ratio of length are 1/2 ~ 1/10, wherein a height of perpendicular to the second fin
Side.
5. dynamic state high-efficiency energy conservation drying machine as claimed in claim 4 it is characterised in that: the quantity of described cooling air channel is
Four, in each described cooling air channel, the quantity of the vaporizer of setting is four, four in described cooling air channel
The windward side of vaporizer is coplanar and inline;The quantity that described air heats passage is four, and each described air adds
In the passage of heat, the quantity of the condenser of setting is four, and the windward side that described air heats four condensers in passage is coplanar simultaneously
And it is inline.
6. the dynamic state high-efficiency energy conservation drying machine as described in any one of claim 1 ~ 5 it is characterised in that: also include air-treatment system
System, described air treatment system includes air filter, waste-heat recoverer, air-introduced machine, deafener, rotary dust wiper and cloth bag and removes
Dirt device, the air inlet of described air filter is passed through air, and gas outlet is connected with described first primary air inlet, described waste heat recovery
Device is gas-gas heat exchanger, and described waste-heat recoverer has exhaust gas flow path and pre- hot flow path, and the air inlet of described exhaust gas flow path passes through
Pipeline is connected with the gas outlet of described hothouse, the gas outlet of described exhaust gas flow path, rotary dust wiper, sack cleaner, noise reduction
Device and air-introduced machine are sequentially connected by pipeline, and described pre- hot flow path is connected to the described first main gas outlet and the second primary air inlet
Between pipeline on.
7. the dynamic state high-efficiency energy conservation drying machine as described in any one of claim 1 ~ 5 it is characterised in that: described dry interior setting
Have waffle slab and several be used for the shower nozzle of the speed jet drying hot-air of 1 ~ 50m/s, several shower nozzles described are all and institute
State the air inlet connection of hothouse, described waffle slab is located at the bottom of described hothouse, and several shower nozzles described are distributed in described
Around waffle slab.
8. the dynamic state high-efficiency energy conservation drying machine as described in any one of claim 1 ~ 5 it is characterised in that: described air cooler
Bottom is additionally provided with condensation-water drain, and the lower section of described condensation-water drain is provided with steam trap.
9. dynamic state high-efficiency energy conservation drying machine as claimed in claim 7 it is characterised in that: the mesh number of the mesh of described waffle slab is
10 ~ 400 mesh, the number of described shower nozzle is 5 ~ 20.
Priority Applications (1)
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CN201620857968.0U CN205909664U (en) | 2016-08-09 | 2016-08-09 | Energy -efficient desiccator of developments |
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CN201620857968.0U CN205909664U (en) | 2016-08-09 | 2016-08-09 | Energy -efficient desiccator of developments |
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ID=57800809
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106123552A (en) * | 2016-08-09 | 2016-11-16 | 江苏金陵干燥科技有限公司 | Dynamic state high-efficiency energy conservation drying machine |
CN108740001A (en) * | 2018-05-14 | 2018-11-06 | 安徽热风环保科技有限公司 | Heat exchange type grain heat-drying dedusting hydrofuge room |
-
2016
- 2016-08-09 CN CN201620857968.0U patent/CN205909664U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106123552A (en) * | 2016-08-09 | 2016-11-16 | 江苏金陵干燥科技有限公司 | Dynamic state high-efficiency energy conservation drying machine |
CN106123552B (en) * | 2016-08-09 | 2018-08-31 | 江苏金陵干燥科技有限公司 | Dynamic state high-efficiency energy conservation drying machine |
CN108740001A (en) * | 2018-05-14 | 2018-11-06 | 安徽热风环保科技有限公司 | Heat exchange type grain heat-drying dedusting hydrofuge room |
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