CN207797635U - A kind of drying equipment and drying system - Google Patents

Abstract

The utility model provides a kind of drying equipment and drying system, belongs to drying technology field.A kind of drying equipment, including：Thermal-insulating body and heat pump components.Thermal-insulating body has inlet port and outlet port, there are multiple transport mechanisms inside thermal-insulating body, multiple transport mechanisms set gradually along the height of thermal-insulating body and have gap, the direction of transfer of transport mechanism is arranged along the length direction of thermal-insulating body, it is configured to accept the material of the batch turning portion conveying of the transport mechanism positioned at upper layer positioned at the splicing portion of the transport mechanism of lower layer, it is configured for transferring out material from discharge port positioned at undermost transport mechanism, the material conveying direction that the transport mechanism of adjacent two layers is configured to is opposite.It is connected to inside the air outlet of heat pump components and thermal-insulating body；The return air inlet of heat pump components is connected to thermal-insulating body.It has preferably drying effect, and energy utilization rate is high.

Description

A kind of drying equipment and drying system

Technical field

The utility model is related to drying technology fields, in particular to a kind of drying equipment and drying system.

Background technology

Currently, in drying equipment field, enterprise mostly uses greatly with traditional dryings sides such as coal, combustion gas, fuel oil, microwave, freeze-dryings Formula, energy consumption and human cost are high.And exhaust gas, the dust that fuel combustion generates can cause certain pollution, and it is easy secondary pollution Material.

Utility model content

The purpose of this utility model is to provide a kind of drying equipments, have preferably drying effect, and using energy source Rate is high.

The another object of the utility model is to provide a kind of drying system.

The utility model is realized in this way：

A kind of drying equipment, including：Thermal-insulating body and heat pump components.

Thermal-insulating body has inlet port and outlet port, has multiple transport mechanisms, multiple transport mechanisms inside thermal-insulating body Set gradually and have gap, the direction of transfer of transport mechanism to set along the length direction of thermal-insulating body along the height of thermal-insulating body It sets, is configured to accept the object of the batch turning portion conveying of the transport mechanism positioned at upper layer positioned at the splicing portion of the transport mechanism of lower layer Material, is configured for transferring out material from discharge port, the transport mechanism of adjacent two layers positioned at undermost transport mechanism The material conveying direction being configured to is opposite.

It is connected to inside the air outlet of heat pump components and thermal-insulating body；The return air inlet of heat pump components is connected to thermal-insulating body.

Further, in a kind of embodiment of the utility model：

Heat pump components include compressor, evaporator, expansion valve, heat exchanger, four-way valve, regenerator and the first wet-emitting blower, The outlet of compressor and the import of four-way valve connect, three outlets of four-way valve respectively with the import of heat exchanger, evaporator, compression Machine connects, and the outlet of heat exchanger and the import of expansion valve connect, and the outlet of expansion valve and the import of evaporator connect, evaporator Outlet is connect with the import of compressor, and the first wet-emitting blower is used for blowing wind into regenerator inside thermal-insulating body.

Further, in a kind of embodiment of the utility model：

Heat pump components are an integral structure, compressor, evaporator, expansion valve, heat exchanger, four-way valve, regenerator and first Wet-emitting blower is installed in outside thermal-insulating body, and the return air inlet of the first wet-emitting blower is connected to by pipeline with thermal-insulating body.

Further, in a kind of embodiment of the utility model：

Heat pump components are split structure, and compressor, evaporator, four-way valve and expansion valve are arranged outside thermal-insulating body, Heat exchanger, regenerator and the first wet-emitting blower are installed in inside thermal-insulating body.

Further, in a kind of embodiment of the utility model：

Heat pump components further include new air-valve, and new air-valve is installed on the tank wall of thermal-insulating body, and new air-valve is configured for controlling Outside air processed enters inside thermal-insulating body.

Further, in a kind of embodiment of the utility model：

Transport mechanism includes conveyer belt, at least two transfer rollers and the actuator that transfer roller can be driven to rotate, actuator peace Side wall loaded on thermal-insulating body, one end of transfer roller and the pto shaft drive of actuator connect, and the other end of transfer roller turns The dynamic side wall for being supported on thermal-insulating body, conveyer belt is wound on the transfer roller of end, and conveyer belt is configured to rotate when transfer roller When can be along the transfer roller shuttling movement of end.

Further, in a kind of embodiment of the utility model：

Drying equipment further includes charging mechanism, and material can be delivered to most upper by the discharge port of charging mechanism by transmission net band The transport mechanism of layer.

Further, in a kind of embodiment of the utility model：

Drying equipment further includes the lower hopper being set to outside thermal-insulating body, and lower hopper is located at undermost biography for accepting The material for sending the batch turning portion of mechanism to unload.

Further, in a kind of embodiment of the utility model：

The side wall of thermal-insulating body is additionally provided with door or window.

A kind of drying system, including above-mentioned drying equipment.

The utility model has the beneficial effects that：The drying equipment that the utility model is obtained by above-mentioned design, in use, object Material is put by feed inlet in thermal-insulating body in the transport mechanism of top layer, and the transport mechanism of top layer is along direction of transfer by object Material is transmitted, and when reaching batch turning portion, the transport mechanism of top layer unloads material to the transport mechanism of its lower layer, is located at lower layer Transport mechanism due to the transport mechanism with top layer conveying direction on the contrary, then the transport mechanism of lower layer splicing portion accept arrive When the material that upper layer transport mechanism unloads, the transport mechanism of lower layer transports the past direction opposite with top layer's transport mechanism of material It is defeated, it so recycles, until material is unloaded to undermost transport mechanism, undermost transport mechanism conveys material from discharge port It goes out.For transportation route of the material inside thermal-insulating body at " S " type, material residence time in thermal-insulating body is longer, passes through Then heat pump components absorb outside air to blowing hot-air inside thermal-insulating body, material can be sufficiently carried out drying, effect compared with It is good, and energy utilization rate is higher.After with hot wind heat exchange occurs for material, some moisture is will produce, moisture is entered by return air inlet It is handled in heat pump components, is then entered inside thermal-insulating body in the form of hot wind again.Entire drying equipment is that a closing follows The pattern of ring drying.Energy consumption is few, safe and environment-friendly, is avoided that secondary pollution.

Description of the drawings

It, below will be to required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment The attached drawing used is briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore not The restriction to range is should be considered as, for those of ordinary skill in the art, without creative efforts, It can also be obtained according to these attached drawings other relevant attached drawings.

Fig. 1 is the structural schematic diagram for the drying equipment that the utility model embodiment 1 provides；

Fig. 2 is the sectional view for the drying equipment that the utility model embodiment 1 is provided under the first visual angle；

Fig. 3 is the sectional view for the drying equipment that the utility model embodiment 1 is provided under the second visual angle；

Fig. 4 is the work flow diagram for the heat pump components that the utility model embodiment 1 provides；

Fig. 5 is the sectional view for the drying equipment that the utility model embodiment 1 is provided under third visual angle；

Fig. 6 is the structural schematic diagram for the drying system that the utility model embodiment 1 provides；

Fig. 7 is the structural schematic diagram for the drying equipment that the utility model embodiment 2 provides.

Icon：10- drying equipments；100- thermal-insulating bodies；The second wet-emitting blowers of 200-；300- heat pump components；310- backheats Device；The first wet-emitting blowers of 320-；330- heat exchangers；340- expansion valves；350- compressors；360- new air-valves；370- evaporators； 380- four-way valves；400- transport mechanisms；410- conveyer belts；420- transfer rollers；430- actuators；411- batch turnings portion；412- splicings Portion；500- charging mechanisms；510- transmission net bands；600- lower hoppers；20- drying systems；210- switch boards；30- drying equipments.

Specific implementation mode

To keep the purpose, technical scheme and advantage of the utility model embodiment clearer, below in conjunction with this practicality The technical solution in the utility model embodiment is clearly and completely described in attached drawing in novel embodiment, shows So, described embodiment is a part of embodiment of the utility model, rather than whole embodiments.Based on this practicality Embodiment in novel, those of ordinary skill in the art are obtained every other without creative efforts Embodiment shall fall within the protection scope of the present invention.

Therefore, the detailed description of the embodiment of the utility model provided in the accompanying drawings is not intended to limit below and is wanted The scope of the utility model of protection is sought, but is merely representative of the selected embodiment of the utility model.Based on the utility model In embodiment, the every other implementation that those of ordinary skill in the art are obtained without creative efforts Mode shall fall within the protection scope of the present invention.

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

In the description of the present invention, it should be understood that term " length " "upper", "lower", "left", "right", "top", "bottom", "inner", "outside", etc. instructions orientation or positional relationship be based on the orientation or positional relationship shown in the drawings, merely to Convenient for describing the utility model and simplifying to describe, specific side must be had by not indicating or implying the indicated equipment or element Position, with specific azimuth configuration and operation, therefore should not be understood as limiting the present invention.

The meaning of " plurality " is two or more in the description of the present invention, unless otherwise clearly specific It limits.

In the present invention unless specifically defined or limited otherwise, term " installation ", " setting ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；Can be It is connected directly, can also can be indirectly connected through an intermediary the mutual of connection inside two elements or two elements Interactively.For the ordinary skill in the art, it can understand that above-mentioned term is new in this practicality as the case may be Concrete meaning in type.

In the present invention unless specifically defined or limited otherwise, fisrt feature the "upper" of second feature or it "lower" may include that the first and second features are in direct contact, and can also not be to be in direct contact but lead to including the first and second features Cross the other characterisation contact between them.Moreover, fisrt feature second feature " on ", " top " and " above " include the One feature is right over second feature and oblique upper, or is merely representative of fisrt feature level height and is higher than second feature.First is special Sign second feature " under ", " lower section " and " below " include fisrt feature immediately below second feature and obliquely downward, or only Indicate that fisrt feature level height is less than second feature.

Embodiment

The present embodiment provides a kind of drying equipments 10, please refer to Fig. 1-Fig. 3.Drying equipment 10 include thermal-insulating body 100 with And heat pump components 300.

Specifically, thermal-insulating body 100 has inlet port and outlet port.Phase of the inlet port and outlet port in thermal-insulating body 100 To both ends.As shown in Figure 1, feed inlet is in left end, discharge port is in right end.

Fig. 2 is please referred to, 100 inside of thermal-insulating body has multiple transport mechanisms 400, and multiple transport mechanisms 400 are along incubator The height of body 100 sets gradually and has gap, the direction of transfer of transport mechanism 400 to be set along the length direction of thermal-insulating body 100 It sets, is configured to that the batch turning of the transport mechanism 400 positioned at upper layer can be accepted positioned at the splicing portion 412 of the transport mechanism 400 of lower layer The material that portion 411 conveys.As shown in Fig. 2, batch turning portion 411 is located at the least significant end of 400 direction of transfer of transport mechanism, splicing portion 412 Positioned at the beginning of 400 direction of transfer of transport mechanism.Undermost transport mechanism 400 is configured for material is defeated from discharge port It sees off.It should be noted that the material conveying direction of the transport mechanism 400 of adjacent two layers is opposite.

The air outlet of heat pump components 300 is connected to 100 inside of thermal-insulating body；The return air inlet and incubator of heat pump components 300 Body 100 is connected to.

In use, material is put by feed inlet in the transport mechanism 400 of top layer in thermal-insulating body 100, top layer Transport mechanism 400 material is transmitted along direction of transfer, when reaching batch turning portion 411, the transport mechanism 400 of top layer will Material is unloaded to the transport mechanism 400 of its lower layer, is located at the transport mechanism 400 of lower layer due to the transport mechanism 400 with top layer Conveying direction on the contrary, when then the material unloaded to upper layer transport mechanism 400 is accepted in the splicing portion 412 of the transport mechanism 400 of lower layer, The transport mechanism 400 of lower layer transports the past direction opposite with top layer's transport mechanism 400 of material, so recycles, until material It is unloaded to undermost transport mechanism 400, undermost transport mechanism 400 transfers out material from discharge port.Material is being protected For transportation route inside incubator body 100 at " S " type, material residence time in thermal-insulating body 100 is longer, passes through heat pump components 300 absorb outside air then to 100 inside blowing hot-air of thermal-insulating body, and material can be sufficiently carried out drying, and effect is preferable, And energy utilization rate is higher.After with hot wind heat exchange occurs for material, some moisture is will produce, moisture enters heat pump by return air inlet It is handled in component 300, is then entered in the form of hot wind inside thermal-insulating body 100 again.Entire drying equipment 10 is an envelope The pattern of closed loop drying.Energy consumption is few, safe and environment-friendly, is avoided that secondary pollution.

Further, in the present embodiment, the top of thermal-insulating body 100 is additionally provided with the second wet-emitting blower 200, passes through The some moisture inside thermal-insulating body 100 can be discharged for two wet-emitting blowers 200.

In addition, please referring to Fig. 3, heat pump components 300 include compressor 350, evaporator 370, expansion valve 340, heat exchanger 330, four-way valve 380, regenerator 310 and the first wet-emitting blower 320, the outlet of compressor 350 connect with the import of four-way valve 380 It connects, three outlets of four-way valve 380 are connect with the import of heat exchanger 330, evaporator 370, compressor 350 respectively, heat exchanger 330 Outlet connect with the import of expansion valve 340, the outlet of expansion valve 340 is connect with the import of evaporator 370, evaporator 370 Outlet is connect with the import of compressor 350, and the first wet-emitting blower 320 inside thermal-insulating body 100 for will blow wind into regenerator In 310.

The refrigerant high pressure steam that compressor 350 is discharged is through in 380 inflow heat exchanger 330 of four-way valve, refrigerant vapour is cold Heat is released when solidifying, and the outside air that heat exchanger 330 absorbs is heated from the air outlet of heat exchanger 330 and enters thermal-insulating body Inside 100.The expanded valve 340 of high-pressure refrigeration liquid flowed out from heat exchanger 330 enters evaporator 370 after being depressured.In thermal-insulating body In 100, heat exchange occurs between hot wind and dried object, dried object is dried, while generating some moisture.Inside evaporator 370 Refrigerating fluid absorb moisture heat gaseous state is become by liquid, condensed water therein is discharged because of cooling for moisture.Evaporator 370 Refrigerating fluid steam send to heat exchanger 330 through four-way valve 380 after being boosted by compressor 350 and is continuing with, and so recycles.While first Wet-emitting blower 320 will be blown by return air inlet in regenerator 310 with moist wind, wet when moisture flows through regenerator 310 After regenerator 310 is exchanged heat, waste heat enters inside thermal-insulating body 100 gas again.

Heat pump components 300 are an integral structure, compressor 350, evaporator 370, expansion valve 340, heat exchanger 330, four-way Valve 380, regenerator 310 and the first wet-emitting blower 320 are installed in outside thermal-insulating body 100, the return air of the first wet-emitting blower 320 Mouth is connected to by pipeline with thermal-insulating body 100.

Further, in the present embodiment, heat pump components 300 are provided with multiple, and multiple heat pump components 300 are along thermal-insulating body 100 length direction interval setting.Different zones that can be into thermal-insulating body 100 by multiple heat pump components 300 are blown, to Material can be carried out preferably dry.

Further, Fig. 2 and Fig. 5 are please referred to, in the present embodiment, transport mechanism 400 is provided with 5.Wherein, conveyer Structure 400 includes conveyer belt 410, at least two transfer rollers 420 and the actuator 430 that transfer roller 420 can be driven to rotate, actuator 430 are installed on the side wall of thermal-insulating body 100, and one end of transfer roller 420 is connect with the pto shaft drive of actuator 430, pass Send the other end rotating support of roller 420 in the side wall of thermal-insulating body 100, conveyer belt 410 is wound on the transfer roller 420 of end, i.e., Conveyer belt 410 is wound between the transfer roller 420 of left end and the transfer roller 420 of right end.And conveyer belt 410 is configured to when transmission Roller 420 can be along 420 shuttling movement of transfer roller of end when rotating.

Material is launched to conveyer belt 410, and transfer roller 420 rotates under the action of actuator 430, due to conveyer belt 410 around It is placed in the transfer roller 420 of left end and right end, then can drive being recycled along transfer roller 420 for conveyer belt 410 under the effect of transfer roller 420 Movement, to preferably be transported to material.

In the present embodiment, actuator 430 is motor, and motor is mounted on the inside of thermal-insulating body 100.In other embodiment In, actuator 430 or speed reducer etc., as long as transfer roller 420 can be driven to rotate.It is protected in addition, motor can be also mounted on The outside of incubator body 100, as long as meeting motor can be sequentially connected with transfer roller 420 and transfer roller 420 is driven to rotate.

Further, referring to Fig.1 and 2, drying equipment 10 further includes charging mechanism 500, the discharging of charging mechanism 500 Material can be delivered to the transport mechanism 400 of top layer by transmission net band 510 by mouth.In the present embodiment, transmission net band 510 is worn Cross transport mechanism 400 of the feed inlet by the material transmission of charging mechanism 500 to top layer.

Further, drying equipment 10 further includes the lower hopper 600 being set to outside thermal-insulating body 100, and lower hopper 600 is used In the material that undertaking is unloaded positioned at the batch turning portion 411 of undermost transport mechanism 400.In the present embodiment, lower hopper 600 is installed In discharge outlet.

Material by undermost transport mechanism 400 is fully dried, then defeated through undermost transport mechanism 400 It is unloaded after sending to discharge port to lower hopper 600.

In addition, observing the material delivery situation inside thermal-insulating body 100, in the present embodiment, thermal-insulating body for convenience 100 side wall is also provided with door and window (not shown), and the quantity and size of door and window can be according to the tools of thermal-insulating body 100 Body situation is designed.

The operation principle of the drying equipment 10 of the present embodiment：

In use, material is put by feed inlet in the transport mechanism 400 of top layer in thermal-insulating body 100, top layer Transport mechanism 400 material is transmitted along direction of transfer, when reaching batch turning portion 411, the transport mechanism 400 of top layer will Material is unloaded to the transport mechanism 400 of its lower layer, is located at the transport mechanism 400 of lower layer due to the transport mechanism 400 with top layer Conveying direction on the contrary, when then the material unloaded to upper layer transport mechanism 400 is accepted in the splicing portion 412 of the transport mechanism 400 of lower layer, The transport mechanism 400 of lower layer transports the past direction opposite with top layer's transport mechanism 400 of material, so recycles, until material It is unloaded to undermost transport mechanism 400, undermost transport mechanism 400 transfers out material from discharge port.Material is being protected For transportation route inside incubator body 100 at " S " type, material residence time in thermal-insulating body 100 is longer, passes through heat pump components 300 absorb outside air then to 100 inside blowing hot-air of thermal-insulating body, and material can be sufficiently carried out drying, and effect is preferable, And energy utilization rate is higher.After with hot wind heat exchange occurs for material, some moisture is will produce, moisture enters heat pump by return air inlet It is handled in component 300, is then entered in the form of hot wind inside thermal-insulating body 100 again.

The present embodiment also provides a kind of drying system 20, please refers to Fig. 6 comprising drying equipment 10 and switch board 210, control There is control system, the control system can be used for controlling the operation of motor, the host operation of heat pump components 300 in cabinet 210 processed.From The operation of dynamicization is more convenient.

Embodiment 2

The technique effect and embodiment of the drying equipment 30 that the utility model embodiment is provided, realization principle and generation 1 is identical, the difference is that only that the setting form of heat pump components 300 is different, to briefly describe, the present embodiment does not refer to it Place, can refer to corresponding contents in embodiment 1.

Fig. 7 is please referred to, in the present embodiment, heat pump components 300 are split structure, compressor 350, evaporator 370, four Port valve 380 and expansion valve 340 are arranged outside thermal-insulating body 100, heat exchanger 330, regenerator 310 and the first wet-emitting blower 320 It is installed in inside thermal-insulating body 100.The import of heat exchanger 330 is connect by four-way valve 380 with the outlet of compressor 350, is changed The outlet of hot device 330 is connect by copper pipe or titanium tube with the import of expansion valve 340.New air-valve 360 is mounted on thermal-insulating body 100 Side wall, inside thermal-insulating body 100 moisture discharge after, air pressure inside is lower, by new air-valve 360 can control outside air into Enter inside thermal-insulating body 100.

By new air-valve 360 to entering the wind inside thermal-insulating body 100, refrigerant vapour releases heat when heat exchanger 330 condenses Amount will become hot wind inside thermal-insulating body 100, and then dried object can be dried.

Above description is merely a prefered embodiment of the utility model, is not intended to limit the utility model, for For those skilled in the art, various modifications and changes may be made to the present invention.All spirit and original in the utility model Within then, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of drying equipment, which is characterized in that including：

Thermal-insulating body, the thermal-insulating body have inlet port and outlet port, have multiple transport mechanisms inside thermal-insulating body, multiple The transport mechanism sets gradually along the height of thermal-insulating body and has gap, and the direction of transfer of the transport mechanism is along incubator The length direction of body is arranged, and is configured to that the biography positioned at upper layer can be accepted positioned at the splicing portion of the transport mechanism of lower layer The material for sending the batch turning portion of mechanism to convey is configured for material positioned at the undermost transport mechanism from the discharging Mouth transfers out, and the material conveying direction that the transport mechanism of adjacent two layers is configured to is opposite；And

It is connected to inside heat pump components, the air outlet of the heat pump components and the thermal-insulating body；The return air inlet of the heat pump components It is connected to the thermal-insulating body.

2. drying equipment according to claim 1, which is characterized in that the heat pump components include compressor, evaporator, swollen Swollen valve, heat exchanger, four-way valve, regenerator and the first wet-emitting blower, the outlet of the compressor connect with the import of the four-way valve It connects, three outlets of four-way valve are connect with the import of the heat exchanger, the evaporator, the compressor respectively, the heat exchange The outlet of device is connect with the import of the expansion valve, and the outlet of the expansion valve is connect with the import of the evaporator, the steaming The outlet of hair device is connect with the import of the compressor, and first wet-emitting blower is used for blowing wind into back inside thermal-insulating body In hot device.

3. drying equipment according to claim 2, which is characterized in that the heat pump components are an integral structure, the pressure Contracting machine, evaporator, expansion valve, heat exchanger, four-way valve, regenerator and first wet-emitting blower are installed in the thermal-insulating body The return air inlet of outside, first wet-emitting blower is connected to by pipeline with the thermal-insulating body.

4. drying equipment according to claim 2, which is characterized in that the heat pump components are split structure, the pressure Contracting machine, the evaporator, the four-way valve and the expansion valve are arranged outside the thermal-insulating body, the heat exchanger, described Regenerator and first wet-emitting blower are installed in inside the thermal-insulating body.

5. drying equipment according to claim 4, which is characterized in that the heat pump components further include new air-valve, described new Air-valve is installed on the tank wall of the thermal-insulating body, and the new air-valve is configured for control outside air and enters the incubator Internal portion.

6. drying equipment according to claim 1, which is characterized in that the transport mechanism includes conveyer belt, at least two Transfer roller and the actuator that can drive the transfer roller rotation, the actuator is installed on the side wall of the thermal-insulating body, described One end of transfer roller is connect with the pto shaft drive of the actuator, and the other end rotating support of the transfer roller is in described The side wall of thermal-insulating body, the conveyer belt is wound on the transfer roller of end, and the conveyer belt is configured to work as transfer roller It can be along the transfer roller shuttling movement of end when rotation.

7. drying equipment according to claim 6, which is characterized in that the drying equipment further includes charging mechanism, described Material can be delivered to the transport mechanism of top layer by transmission net band by the discharge port of charging mechanism.

8. drying equipment according to claim 6, which is characterized in that the drying equipment further includes being set to the heat preservation Lower hopper outside babinet, the lower hopper are used to accept the object unloaded positioned at the batch turning portion of the undermost transport mechanism Material.

9. drying equipment according to claim 1, which is characterized in that the side wall of the thermal-insulating body be additionally provided with door or Window.

10. a kind of drying system, which is characterized in that including claim 1-9 any one of them drying equipments.