CN206300414U - A kind of mosquito-repellent incense drying source pump and mosquito-repellent incense drying system - Google Patents

Abstract

A kind of mosquito-repellent incense drying source pump and mosquito-repellent incense drying system that the utility model is provided, it is related to mosquito-repellent incense drying apparatus field, the mosquito-repellent incense drying system includes mosquito-repellent incense drying source pump and drying room, mosquito-repellent incense drying source pump is connected with the two ends of drying room and air outlet, the mosquito-repellent incense drying source pump includes that mosquito-repellent incense drying source pump includes the first air-supply pipeline, second air-supply pipeline, wind mixed chamber, first thermal cycle component, second thermal cycle component, compressor, first blower fan and the second blower fan, the first thermal cycle component and the first blower fan are installed in the first air-supply pipeline, the second thermal cycle component and the second blower fan are installed in the second air-supply pipeline, with reference to compressor work, so as to dry room in dry hot blast is provided, realize the function of the single return air of double air-supplies.Compared to prior art, air-supply and return air are realized that drying efficiency is high, simple structure by the mosquito-repellent incense drying source pump that the utility model is provided using the structure of the double air-supplies of single return air in same device.

Description

A kind of mosquito-repellent incense drying source pump and mosquito-repellent incense drying system

Technical field

The utility model is related to mosquito-repellent incense drying apparatus field, in particular to a kind of mosquito-repellent incense drying source pump and Mosquito-repellent incense drying system.

Background technology

In tunnel type mosquito-repellent incense drying technique, the evaporation of moisture in mosquito-repellent incense is generally accelerated using hot blast, realize that mosquito-repellent incense is dried Purpose.

The relation of the car direction of motion is dried according to hot wind flow wind direction in tunnel and material containing, existing mosquito-repellent incense drying can be divided into suitable Streaming, reverse-flow and mixed-flow.Wherein mixed-flow due to its drying efficiency it is high, be widely used.Which is respectively in tunnel Road two ends to sending hot blast in tunnel, the top return air in the middle part of tunnel.Prior art means are generally filled using separate air-supply Put and air-returning device.Investigated through inventor and found, existing mosquito-repellent incense drying equipment exists following not enough：(1) supply air system and return Wind system is each separately provided, it is necessary to set many complete equipments or system；(2) supply air system and air return system and its equipment arrangement point Dissipate, be not easy to equipment centralized control and management.These factors cause supply air system and air return system in existing mosquito-repellent incense drying technique Constitute complicated, equipment control chaotic, limit the lifting of drying system whole efficiency.

In view of this, design and manufacture that a kind of drying efficiency is high, the mosquito-repellent incense drying equipment of simple structure is particularly important.

Utility model content

The purpose of this utility model is to provide a kind of mosquito-repellent incense drying source pump, and its drying efficiency is high, simple structure.

The another object of the present embodiment is to provide a kind of mosquito-repellent incense drying system, and its simple structure, equipment control is convenient, dries Dry efficiency high.

The utility model is realized using following technical scheme.

A kind of mosquito-repellent incense drying source pump, for being connected with a drying room, mosquito-repellent incense drying source pump includes the first ajutage Road, the second air-supply pipeline, wind mixed chamber, the first thermal cycle component, the second thermal cycle component, compressor, the first blower fan and the second wind Machine, first air-supply pipeline one end connects with wind mixed chamber, and the other end is used to be connected with drying room, the second air-supply pipeline one end and mixing wind tube Connection, the other end is used to be connected with drying room, and the side of wind mixed chamber is provided with return air inlet, and return air inlet is used to be connected with drying room；First Thermal cycle component is arranged at the first air-supply pipeline, and the second thermal cycle component is arranged at the second air-supply pipeline, the first thermal cycle component It is connected with compressor with the second thermal cycle component, compressor is arranged at wind mixed chamber, the first blower fan is arranged at the first air-supply pipeline Interior, the second blower fan is arranged in the second air-supply pipeline.

Further, the first thermal cycle component includes being set in turn in the first evaporator of the first air-supply pipeline, first swollen Swollen valve, the first condenser, the first evaporator are disposed in proximity to one end of wind mixed chamber, and one end of the first evaporator connects with compressor Connect, the other end is connected with the first expansion valve, the first expansion valve is connected away from one end of evaporator with condenser, and condenser is away from swollen One end of swollen valve is connected with compressor.

Further, the second thermal cycle component includes being set in turn in the second evaporator of the second air-supply pipeline, second swollen Swollen valve, the second condenser, the second evaporator are disposed in proximity to one end of wind mixed chamber, and one end of the second evaporator connects with compressor Connect, the other end is connected with the second expansion valve, the second expansion valve is connected away from one end of evaporator with condenser, and condenser is away from swollen One end of swollen valve is connected with compressor.

Further, connected by the first pipeline between the first evaporator, the first condenser, the first expansion valve and compressor Connect, between the second evaporator, the second condenser, the second expansion valve and compressor by second pipe connect, the first pipeline with Thermal cycle working medium is filled with second pipe.

Further, air intake valve is provided with fresh wind port, with folding fresh wind port, valve for air exhaust is provided with exhaust outlet, With folding exhaust outlet.

Further, the first volume damper is provided with the first air-supply pipeline, second is provided with the second air-supply pipeline Volume damper.

Further, the first evaporator is provided with the first filter near the side of wind mixed chamber；Second evaporator is near mixed The side of air compartment is provided with the second filter.

Further, the bottom of the first evaporator is provided with the first condensed water collecting device, the first condensed water collecting device Including the first condensation water pond and the first drainpipe, the first condensation water pond is fixedly connected with the first evaporator, to catch the first evaporation The water droplet that device drops, the first drainpipe is connected with the first condensation water pond, and the moisture that the first evaporator drops is discharged into extraneous sky Between；The bottom of the second evaporator is provided with the second condensed water collecting device, and the second condensed water collecting device includes the second condensed water Disk and the second drainpipe, the second condensation water pond are fixedly connected with the second evaporator, to catch the water droplet that the second evaporator drops, the Two drainpipes are connected with the second condensation water pond, and the moisture that the second evaporator drops is discharged into free surrounding space.

Further, wind mixed chamber is provided with fresh wind port and exhaust outlet away from the side of return air inlet, and wind mixed chamber is entered to adjust Air quantity and equilibrium air pressure.

A kind of mosquito-repellent incense drying system, including a drying room and mosquito-repellent incense drying source pump, mosquito-repellent incense drying source pump include the One air-supply pipeline, the second air-supply pipeline, wind mixed chamber, the first thermal cycle component, the second thermal cycle component, compressor, the first blower fan With the second blower fan, first air-supply pipeline one end connect with wind mixed chamber, and for being connected with drying room, second blows pipeline one end the other end Connected with mixing wind tube, the other end is used to be connected with drying room, the side of wind mixed chamber is provided with return air inlet, and return air inlet is used to connect with drying room It is logical；First thermal cycle component is arranged at the first air-supply pipeline, and the second thermal cycle component is arranged at the second air-supply pipeline, and the first heat is followed Ring assemblies and the second thermal cycle component are connected with compressor, and compressor is arranged at wind mixed chamber, and the first blower fan is arranged at first and send In air pipe line, the second blower fan is arranged in the second air-supply pipeline；Drying room is in tunnel-like, and one end of drying room and the first air-supply pipeline Connection, the other end of drying room and the second air-supply pipeline connection, an air outlet, air outlet and return air inlet are offered on the side wall of drying room Connection.

The utility model has the advantages that：

A kind of mosquito-repellent incense drying source pump that the utility model is provided, by the first air-supply pipeline and the second air-supply pipeline point Not to room air-supply is dried, while being provided with return air inlet in the side of wind mixed chamber, to collect the damp-heat air dried in room, and sent first First thermal cycle component and the first blower fan are installed in air pipe line, the second thermal cycle component and second are installed in the second air-supply pipeline Blower fan, with reference to compressor work, so as to dry hot blast is provided in baking room, realize the function of the single return air of double air-supplies.Compared to Prior art, the structures that the mosquito-repellent incense drying source pump that the utility model is provided is blown using single return air pair, by air-supply and return air Realized in same device, drying efficiency is high, simple structure.

A kind of mosquito-repellent incense drying system that the utility model is provided, combines above-mentioned mosquito-repellent incense drying source pump, dries room whole Body is in tunnel-like, is easy to the circulation of air, and the return air inlet phase of one and mosquito-repellent incense drying source pump is provided with the side wall for drying room The air outlet of connection, and first air-supply pipeline and second air-supply pipeline respectively with dry room two ends connect so that dry more comprehensively, Air circulation is more smooth.Compared to prior art, the mosquito-repellent incense drying system that the utility model is provided is by the first air-supply pipeline and the Two air-supply pipelines are connected with the two ends for drying room respectively, and the air outlet connected with return air inlet is set in the side wall for drying room so that dried Indoor Thermal air circulation is more smooth, and can continuously feed dry-heat air, reclaim damp-heat air so that drying efficiency is carried significantly Height, while air return structure of blowing is simple, equipment control more facilitates.

Brief description of the drawings

In order to illustrate more clearly of the technical scheme of the utility model embodiment, below will be to be used needed for embodiment Accompanying drawing be briefly described, it will be appreciated that the following drawings illustrate only some embodiments of the present utility model, therefore should not be by Regard the restriction to scope as, for those of ordinary skill in the art, on the premise of not paying creative work, may be used also Other related accompanying drawings are obtained with according to these accompanying drawings.

The mosquito-repellent incense drying overall system architecture schematic diagram that Fig. 1 is provided for the utility model；

Fig. 2 is mosquito-repellent incense drying source pump internal structure schematic diagram in Fig. 1；

Fig. 3 is the structural representation of the first thermal cycle component and the second thermal cycle component in Fig. 2；

Fig. 4 is mosquito-repellent incense drying source pump overall structure diagram in Fig. 1.

Icon：10- mosquito-repellent incense drying systems；100- mosquito-repellent incense drying source pumps；The air-supply pipelines of 110- first；The wind of 111- first Adjustable valve；The air-supply pipelines of 120- second；The volume dampers of 121- second；130- the first thermal cycle components；131- first evaporates Device；The condensed water collecting devices of 1311- first；1313- first condenses water pond；The drainpipes of 1315- first；The expansion valves of 133- first； The condensers of 135- first；The pipelines of 137- first；The filters of 139- first；140- the second thermal cycle components；The evaporators of 141- second； The condensed water collecting devices of 1411- second；1413- second condenses water pond；The drainpipes of 1415- second；The expansion valves of 143- second；145- Second condenser；147- second pipes；The filters of 149- second；150- wind mixed chamber；151- return air inlets；153- fresh wind ports；155- Exhaust outlet；157- air intake valves；159- valve for air exhausts；160- compressors；The blower fans of 170- first；The blower fans of 180- second；200- dries Room；210- air outlets.

Specific embodiment

It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer Accompanying drawing in type embodiment, is clearly and completely described, it is clear that retouched to the technical scheme in the utility model embodiment The embodiment stated is a part of embodiment of the utility model, rather than whole embodiments.Generally described in accompanying drawing herein and The component of the utility model embodiment for showing can be arranged and designed with a variety of configurations.

Therefore, the detailed description of embodiment of the present utility model below to providing in the accompanying drawings is not intended to limit requirement The scope of the present utility model of protection, but it is merely representative of selected embodiment of the present utility model.Based in the utility model Embodiment, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made, all Belong to the scope of the utility model protection.

It should be noted that：Similar label and letter represents similar terms in following accompanying drawing, therefore, once a certain Xiang Yi It is defined in individual accompanying drawing, then it need not be further defined and explained in subsequent accompanying drawing.

, it is necessary to explanation in description of the present utility model, term " " center ", " on ", " vertical ", " level ", " interior ", The orientation or position relationship of the instruction such as " outward " are or the utility model product based on orientation shown in the drawings or position relationship The orientation or position relationship usually put when using, are for only for ease of description the utility model and simplify description, without referring to Show or imply that the device or element of meaning with specific orientation, with specific azimuth configuration and operation, therefore must can not be managed Solution is to limitation of the present utility model.Additionally, term " first ", " second " etc. are only used for distinguishing description, and it is not intended that referring to Show or imply relative importance.

In description of the present utility model, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " sets Put ", " connected ", " installation ", " connection " should be interpreted broadly, for example, it may be fixedly connected, or be detachably connected, Or be integrally connected；Can mechanically connect, or electrically connect；Can be joined directly together, it is also possible to by intermediary It is indirectly connected to, can is two connections of element internal.For the ordinary skill in the art, can be managed with concrete condition Solve concrete meaning of the above-mentioned term in the utility model.

Below in conjunction with the accompanying drawings, some implementation methods of the present utility model are elaborated.In the case where not conflicting, under Feature in the embodiment stated can be mutually combined.

Referring to Fig. 1, the present embodiment provides a kind of mosquito-repellent incense drying system 10, including mosquito-repellent incense drying source pump 100 and drying room 200, drying room 200 is connected in tunnel-like, and the two ends of drying room 200 with mosquito-repellent incense drying source pump 100, and in drying room 200 An air outlet 210 is offered on the wall of side, the air outlet 210 is connected with mosquito-repellent incense drying source pump 100, mosquito-repellent incense drying source pump 100 provide dry hot blast by the two ends of drying room 200 to drying room 200, and the damp-heat air that will be produced in drying course passes through Air outlet 210 is recovered to mosquito-repellent incense drying source pump 100, forms double air-supplies, the drying system of single return air.

Referring to Fig. 2, mosquito-repellent incense drying source pump 100 includes the first air-supply air-supply pipeline 120, wind mixed chamber of pipeline 110, second 150th, the first thermal cycle component 130, the second thermal cycle component 140, compressor 160, the first blower fan 170 and the second blower fan 180, the One end of one air-supply pipeline 110 connects with wind mixed chamber 150, and the other end is used to be connected with drying room 200, the second air-supply pipeline 120 One end connects with mixing wind tube, and the other end is used to be connected with drying room 200.The side of wind mixed chamber 150 is provided with return air inlet 151, return air Mouth 151 is used to be connected with the air outlet 210 of drying room 200.First thermal cycle component 130 is arranged at the first air-supply pipeline 110, second Thermal cycle component 140 is arranged at the second air-supply pipeline 120, the first thermal cycle component 130 and the second thermal cycle component 140 with pressure Contracting machine 160 is connected, and compressor 160 is arranged at wind mixed chamber 150, and the first blower fan 170 is arranged in the first air-supply pipeline 110, and second Blower fan 180 is arranged in the second air-supply pipeline 120.

In the present embodiment, the first thermal cycle component 130 is arranged between the first blower fan 170 and wind mixed chamber 150, so that mixed Air in air compartment 150 can pass through the first thermal cycle component 130 in the presence of the exhausting of the first blower fan 170.Second thermal cycle group Part 140 is arranged between the second blower fan 180 and wind mixed chamber 150, so that the air in wind mixed chamber 150 can be taken out in the second blower fan 180 Pass through the second thermal cycle component 140 under wind action.

Referring to Fig. 3, the first thermal cycle component 130 includes the first evaporator being set in turn in the first air-supply pipeline 110 131st, the first expansion valve 133, the first condenser 135, the first evaporator 131 are disposed in proximity to one end of wind mixed chamber 150, and first One end of evaporator 131 is connected with compressor 160, and the other end is connected with the first expansion valve 133, and the first expansion valve 133 is away from steaming The one end for sending out device is connected with condenser, and condenser is connected away from one end of expansion valve with compressor 160.

Second thermal cycle component 140 includes that the second evaporator 141, second for being set in turn in the second air-supply pipeline 120 is swollen Swollen valve 143, the second condenser 145, the second evaporator 141 are disposed in proximity to one end of wind mixed chamber 150, and the second evaporator 141 One end be connected with compressor 160, the other end is connected with the second expansion valve 143, the one end of the second expansion valve 143 away from evaporator It is connected with condenser, condenser is connected away from one end of expansion valve with compressor 160.

By the first pipe between first evaporator 131, the first condenser 135, the first expansion valve 133 and compressor 160 Road 137 is connected, and second is passed through between the second evaporator 141, the second condenser 145, the second expansion valve 143 and compressor 160 Pipeline 147 is connected, and thermal cycle working medium is filled with the first pipeline 137 and second pipe 147.

Low-pressure liquid working medium in first evaporator 131 absorbs the damp-heat air entered in wind mixed chamber 150 from return air inlet 151 Heat, so as to change low-pressure gaseous working medium, subsequently enter compressor 160, and be changed into high-pressure gaseous under the acting of compressor 160 Working medium, subsequently enters the first condenser 135, and the heat release in the first condenser 135 is changed into high-pressure liquid working medium, then via first Expansion valve 133 is changed into low-pressure liquid, and so on, realizes the cyclic process of refrigeration and heat release.Second evaporator 141, second is cold Thermal Cycling between condenser 145, the second expansion valve 143 and compressor 160 ibid will not be described here.

Referring to Fig. 4, wind mixed chamber 150 is provided with fresh wind port 153 and exhaust outlet 155 away from the side of return air inlet 151, to adjust Into the air quantity and equilibrium air pressure of wind mixed chamber 150.

In the present embodiment, air intake valve 157 is provided with fresh wind port 153, with folding fresh wind port 153, at exhaust outlet 155 Valve for air exhaust 159 is provided with, with folding exhaust outlet 155.

In the present embodiment, the first volume damper 111, the second air-supply pipeline 120 are provided with the first air-supply pipeline 110 On be provided with the second volume damper 121.

Fig. 2 is continued referring to, the first evaporator 131 is provided with the first filter 139 near the side of wind mixed chamber 150；The Two evaporators 141 are provided with the second filter 149 near the side of wind mixed chamber 150.

The bottom of the first evaporator 131 is provided with the first condensed water collecting device 1311, the first condensed water collecting device 1311 include the first condensation drainpipe 1315 of water pond 1313 and first, and the first condensation water pond 1313 is fixed with the first evaporator 131 Connection, to catch the water droplet that the first evaporator 131 drops, the first drainpipe 1315 is connected with the first condensation water pond 1313, will The moisture that first evaporator 131 drops is discharged to free surrounding space.Similarly, the bottom of the second evaporator 141 is provided with the second condensation Water collecting device 1411, the second condensed water collecting device 1411 includes the second condensation drainpipe 1415 of water pond 1413 and second, the Two condensation water ponds 1413 are fixedly connected with the second evaporator 141, to catch the water droplet that the second evaporator 141 drops, the second draining Pipe 1415 is connected with the second condensation water pond 1413, and the moisture that the second evaporator 141 drops is discharged into free surrounding space.

The present embodiment provides a kind of mosquito-repellent incense drying system 10, the first air-supply pipeline 110 and second blow pipeline 120 respectively with The two ends connection of drying room 200, return air inlet 151 is connected with air outlet 210, so that the drying system of the single return air of double air-supplies is formed, and Dry indoor damp-heat air and wind mixed chamber 150 is entered by return air inlet 151, make in the exhausting of the first blower fan 170 and the second blower fan 180 Flowed with the second air-supply pipeline 120 to the first air-supply pipeline 110 respectively with lower, respectively through the first filter 139 and the second mistake Filter 149 is purified, then respectively through the first evaporator 131 and the cool-down dehumidification of the second evaporator 141 then cold respectively through first The heat temperature raising of 135 and second condenser of condenser 145, the temperature required for reaching mosquito-repellent incense drying is passed through in drying room 200.Compared to Prior art, the mosquito-repellent incense drying system 10 that the utility model is provided is existed air-supply and return air using the structure of the double air-supplies of single return air Realized in same device, drying efficiency is high, simple structure.Simultaneously by the first air-supply 120 points of pipeline of air-supply of pipeline 110 and second Do not connected with the two ends for drying room, and the air outlet 210 connected with return air inlet 151 is set in the side wall for drying room so that dry Indoor Thermal Air circulation is more smooth, and can continuously feed dry-heat air, reclaim damp-heat air so that drying efficiency is greatly improved, while Air-supply air return structure is simple, and equipment control more facilitates.

Preferred embodiment of the present utility model is the foregoing is only, the utility model is not limited to, for this For the technical staff in field, the utility model can have various modifications and variations.It is all it is of the present utility model spirit and principle Within, any modification, equivalent substitution and improvements made etc. should be included within protection domain of the present utility model.

Claims (10)

1. a kind of mosquito-repellent incense drying source pump, for being connected with a drying room, it is characterised in that the mosquito-repellent incense drying source pump bag Include the first air-supply pipeline, the second air-supply pipeline, wind mixed chamber, the first thermal cycle component, the second thermal cycle component, compressor, first Blower fan and the second blower fan, described first air-supply pipeline one end connect with the wind mixed chamber, and the other end is used to be connected with the drying room, Described second air-supply pipeline one end connects with the mixing wind tube, and the other end is used to be connected with the drying room, and the one of the wind mixed chamber Side is provided with return air inlet, and the return air inlet is used to be connected with the drying room；The first thermal cycle component is arranged at described first Air-supply pipeline, the second thermal cycle component is arranged at the second air-supply pipeline, the first thermal cycle component and described the Two thermal cycle components are connected with the compressor, and the compressor is arranged at the wind mixed chamber, and first blower fan is arranged at In the first air-supply pipeline, second blower fan is arranged in the second air-supply pipeline.

2. mosquito-repellent incense drying source pump according to claim 1, it is characterised in that the first thermal cycle component include according to Secondary the first evaporator, the first expansion valve, the first condenser for being arranged at the first air-supply pipeline, first evaporator is set In near one end of the wind mixed chamber, and one end of first evaporator is connected with the compressor, the other end and described the One expansion valve is connected, and first expansion valve is connected away from one end of the evaporator with the condenser, and the condenser is remote It is connected with the compressor from one end of the expansion valve.

3. mosquito-repellent incense drying source pump according to claim 2, it is characterised in that the second thermal cycle component include according to Secondary the second evaporator, the second expansion valve, the second condenser for being arranged at the second air-supply pipeline, second evaporator is set In near one end of the wind mixed chamber, and one end of second evaporator is connected with the compressor, the other end and described the Two expansion valves are connected, and second expansion valve is connected away from one end of the evaporator with the condenser, and the condenser is remote It is connected with the compressor from one end of the expansion valve.

4. mosquito-repellent incense drying source pump according to claim 3, it is characterised in that first evaporator, described first Connected by the first pipeline between condenser, first expansion valve and the compressor, second evaporator, described the Between two condensers, second expansion valve and the compressor by second pipe connect, first pipeline with it is described Thermal cycle working medium is filled with second pipe.

5. mosquito-repellent incense drying source pump according to claim 1, it is characterised in that the wind mixed chamber is away from the return air inlet Side be provided with fresh wind port and exhaust outlet.

6. mosquito-repellent incense drying source pump according to claim 5, it is characterised in that be provided with air inlet valve at the fresh wind port Door, with fresh wind port described in folding, valve for air exhaust is provided with the exhaust outlet, with exhaust outlet described in folding.

7. mosquito-repellent incense drying source pump according to claim 3, it is characterised in that first evaporator is near described mixed The side of air compartment is provided with the first filter；Second evaporator is provided with the second filtering near the side of the wind mixed chamber Device.

8. mosquito-repellent incense drying source pump according to claim 3, it is characterised in that the bottom of first evaporator is set There is the first condensed water collecting device, first condensed water collecting device includes the first condensation water pond and the first drainpipe, described First condensation water pond is fixedly connected with first evaporator, to catch the water droplet that first evaporator drops, described first Drainpipe is connected with the described first condensation water pond, and the moisture that first evaporator drops is discharged into free surrounding space；

The bottom of second evaporator is provided with the second condensed water collecting device, and second condensed water collecting device includes the Two condensation water pond and the second drainpipes, the second condensation water pond is fixedly connected with second evaporator, to catch described the The water droplet that two evaporators drop, second drainpipe is connected with the described second condensation water pond, and second evaporator is fallen The moisture for falling is discharged to free surrounding space.

9. mosquito-repellent incense drying source pump according to claim 1, it is characterised in that be provided with the first air-supply pipeline First volume damper, the second volume damper is provided with the second air-supply pipeline.

10. a kind of mosquito-repellent incense drying system, an including drying room, it is characterised in that the mosquito-repellent incense drying system also includes that right such as will The mosquito-repellent incense drying source pump described in any one of 1-9 is sought, the drying room is in tunnel-like, and one end of the drying room and described first Air-supply pipeline connection, the other end of the drying room and the described second air-supply pipeline connection, one is offered on the side wall of the drying room Air outlet, the air outlet is connected with the return air inlet.