CN208312725U - Case type solar energy source drying system - Google Patents

Abstract

The utility model is a kind of case type solar energy source drying system, and including an at least heat collector, one first oil groove, one second oil groove, one heat exchanger and a drying unit, at least a heat collector is connected first oil groove with this, and installing heat build-up medium oil in first oil groove, second oil groove is connected with first oil groove, the heat exchanger is connected with second oil groove, the drying unit includes a counter, one insulating layer and multiple heating tubes, wherein the insulating layer is attached at the inner top surface and inner ring of the counter, multiple heating tube is connected with the heat exchanger, and multiple heating tube is arranged adjacently to the insulating layer, and the drying room that a high temperature is formed in counter space can be made, further, the utility model can allow a heat pump, and the heat exchanger is allowed to be connected with the heat pump, so that the hot water in the heat exchanger It can directly be used by heat pump.

Description

Case type solar energy source drying system

Technical field

The utility model relates to a kind of drying system, espespecially a kind of case type solar energy source drying system.

Background technique

Existing agricultural product are after harvesting, in order to extend its edible service life, in general will do it drying and etc., In addition, drying system is equally applicable for food processing, and such as dried fruit product is produced, further, in general family life, laundry Wet clothes must also be dried after the completion.

Existing drying system generally uses electric heating system or uses combustion gas heat-generating system, however, existing drying system Electric heating is a kind of system of highly energy-consuming, and energy is very expended during being converted, and makes existing drying system Efficiency is bad, therefore existing drying system really has improved necessity.

Utility model content

Electric heating system is used to solve existing drying system, electric heating system or combustion gas fever have the shortcomings that highly energy-consuming, this The main purpose of utility model is to provide a kind of case type solar energy source drying system, and the present invention is directly by solar thermal energy application In drying, so that the using energy source of the utility model need not be converted, therefore energy efficiency can be promoted effectively, also, this Utility model can allow a heat pump, which can be supplied water by the heat exchanger of the utility model, be reached at the cloudy day, a heat exchange Hot water in device can be inputted in the heat pump and be used as thermal water source, it is ensured that the utility model still can be dried at the cloudy day It is dry.

The utility model solves the problems, such as the case type solar energy source drying system that background technique is proposed comprising:

An at least heat collector；

One first oil groove, by one first pipeline, at least a heat collector is connected first oil groove with this, first pipeline On be installed with one first pump, and first oil groove in installing heat build-up medium oil；

One second oil groove, second oil groove are connected by one second pipeline with first oil groove, and on second pipeline It is installed with one second pump；

One heat exchanger, the heat exchanger are connected by a third pipeline with second oil groove, and on the third pipeline It is pumped equipped with a third；And

One drying unit, the drying unit are connected with the heat exchanger, which includes a counter, an insulating layer And multiple heating tubes, wherein the insulating layer is attached at the inner top surface and inner ring of the counter, multiple heating tube with should Heat exchanger is connected, and multiple heating tube is arranged adjacently to the insulating layer, and it is high that remaining counter space can be made to form one The drying room of temperature.

Case type solar energy source drying system above-mentioned, wherein the insulating layer is plate body made of an asbestos.

Case type solar energy source drying system above-mentioned, wherein the heat build-up medium oil is kerosene.

Case type solar energy source drying system above-mentioned has two heat collectors, which is respectively a dish-style collection Hot device and a parabolic type heat collector.

Case type solar energy source drying system above-mentioned, wherein the drying unit includes an inner wall layer, inner wall layer setting Between each heating tube.

Case type solar energy source drying system above-mentioned, wherein the drying unit includes a heat pump, which is set to this The outside wall surface of counter and it is connected with the heat exchanger.

Case type solar energy source drying system above-mentioned, wherein the drying unit includes a temperature-sensitive sticker, the temperature sense The top for surveying device is set to the inner wall layer, and its bottom end is protruded into the drying room, and the temperature-sensitive sticker is mutually electrically connected with the heat pump It connects.

Effect obtained by the technological means of the utility model is promoted are as follows:

1. the thermal energy that solar energy generates directly is used in drying by the utility model, heat is used compared to existing drying system Electric system is it is still necessary to be converted and efficient bad defect, and the using energy source of the utility model need not be converted, therefore energy Source efficiency can be promoted effectively.

2. the utility model passes through the design of first oil groove, can be somebody's turn to do using first oil groove as a quick heat-collector slot The design of second oil groove can be used as an energy storage slot, can store thermal energy in the form of latent heat, so that the utility model is in yin It can still be dried at night.

3. the utility model drying unit be by way of counter, therefore the utility model have height mobility, And pieces of equipment simplifies, and have the effect of cost reduction.

4. the utility model drying unit is by way of counter, counter can not only be stacked, and can be left up and down It is right directly to extend, and counter is also handy device, and need not be constructed again, therefore the utility model has section simultaneously Save volume and the handy effect of spare part.

5. the utility model is by the design of heat pump, when the utility model is during the cloudy day for a long time, the heat exchange Hot water in device can still flow into the heat pump, achieve the effect that drying room continuous heating.

6. the utility model is installed with circulation fan in drying room, circulation fan can increase the indoor hot air circulation of the drying, Increase the drying effect of the drying room.

Detailed description of the invention

Fig. 1 is the flow diagram of the utility model.

Fig. 2 is the section front-view schematic diagram of the drying unit of the utility model.

Fig. 3 is the diagrammatic cross-sectional side elevation of the drying unit of the utility model.

Fig. 4 is the Operation Profile front-view schematic diagram of the drying unit of the utility model.

Description of symbols:

10 heat collector, 11 dish-style heat collector

12 parabolic type heat collectors 111,121 collect hot plate

112,122 thermal-arrest focus, 20 first oil groove

21 first pipelines 211 first pump

30 second oil groove, 31 second pipeline

311 second 40 heat exchangers of pump

41 third pipeline, 411 third pump

50 drying units.

Specific embodiment

For the technical characteristics of the utility model and practical effect can be understood in detail, and can come according to utility model content real Existing, hereby further with preferred embodiment as shown in drawings, detailed description is as follows:

The preferred embodiment of case type solar energy source drying system provided by the utility model is as shown in Figure 1 comprising An at least heat collector 10, one first oil groove 20, one second oil groove 30, a heat exchanger 40 and a drying unit 50, in which:

The preferred embodiment of the utility model includes two heat collectors 10, which is respectively a dish-style heat collector 11 And a parabolic type heat collector 12, each heat collector 11,12 all include a collection hot plate 111,121 and a thermal-arrest focus 112, 122, which is connected by one first pipeline 21 with the thermal-arrest focus 112,122 of two heat collector 11,12, this It is installed with one first pump 211 on one pipeline 21, and is installed with the high heat build-up medium oil of the coefficient of conductivity in first oil groove 20, preferably , which is kerosene, by the drive of first pump 211 and the heating of each thermal-arrest focus 112,122, is allowed The temperature of the two thermal-arrests focus 112,122 can quickly be transferred to the oil of the heat build-up medium in first oil groove 20, can allow this Heat build-up medium oil in one oil groove 20 maintains 150 DEG C~250 DEG C, i.e., first oil groove 20 can be used as a quick heat-collector slot.

Second oil groove 30 is connected by one second pipeline 31 with first oil groove 20, and is installed on second pipeline 31 There is one second pump 311, which can be recycled to the energy storage oil in second oil groove 30 in first oil groove 20 and be carried out It heats up, the oil temperature stabilization in second oil groove 30 rises to 250 DEG C or so, and second oil groove 30 is allowed to can be used as an energy storage slot.

The heat exchanger 40 is connected by a third pipeline 41 with second oil groove 30, and the third pipeline 41 is equipped with One third pump 411, the heat exchanger 40 are the common oil-water heat exchanger in general market, and the high temperature oil in second oil groove 30 is held It is continuous to be flowed in the heat exchanger 40 by the third pipeline 41, and the input water of a room temperature is after through the heat exchanger 40, The temperature of output water rises to about 100 DEG C~120 DEG C, and can be used as thermal water source use.

The drying unit 50 is connected with the heat exchanger 40, the drying unit 50 include a counter 51, an insulating layer 52, Multiple heating tubes 53, an inner wall layer 54 and a heat pump 55, wherein the insulating layer 52 be attached at the counter 51 inner top surface and Inner ring, it is preferable that each insulating layer 52 is plate body made of an asbestos, multiple heating tube 53 and the heat exchanger 40 Export water phase connection, and multiple heating tube 53 is set on the insulating layer 52, the inner wall layer 54 be set to each heating tube 53 it Between, which is set to the outside wall surface of the counter 51, which is connected with the thermal water source of the heat exchanger 40, and can make Remaining 51 space of counter forms the drying room 56 of a high temperature, and further, which includes a temperature-sensitive sticker 57, should The top of temperature-sensitive sticker 57 is set to the inner wall layer 54, and its bottom end is protruded into the drying room 56, and the temperature-sensitive sticker 57 It is electrically connected with the heat pump 55, further, which may include a circulation fan, which is set to the inner wall layer Above and protrude into the drying room.

As shown in Figures 1 and 3, reflection of the sunlight through the heat collector 11,12 when the utility model operates with and will be hot It can be stored in corresponding thermal-arrest focus 112,122, next, the temperature of the two thermal-arrests focus 112,122 can be passed quickly The heat build-up medium oil being handed in first oil groove 20, can allow the heat build-up medium oil in first oil groove 20 maintain 200 DEG C~ 250 DEG C, i.e. first oil groove 20 can be used as a quick heat-collector slot.

Next, this second pump 311 the energy storage oil in second oil groove 30 can be recycled in first oil groove 20 and into Row heats up, and the oil temperature stabilization in second oil groove 30 rises to 250 DEG C or so, and second oil groove 30 is allowed to can be used as an energy storage slot, Then, it is connected by a third pipeline 41 with second oil groove 30 because of the heat exchanger 40, by the input water of a room temperature logical After crossing the heat exchanger 40, the temperature for exporting water rises to about 100 DEG C, and can be used as thermal water source use, in the thermal water source Next water flows into the heating tube 53 in the drying unit 50, multiple heating tube 53 is via the inner wall layer 54 to the drying room 56 Heated, then the drying room 56 be provided simultaneously with it is closed and heating effect therefore can be to be dried by vegetables and fruits or clothes etc. Article is put into the drying room 56 and is dried, in addition, because the heat pump 55 is connected with the thermal water source of the heat exchanger 40, and should Temperature-sensitive sticker 57 is electrically connected with the heat pump 55, when the temperature-sensitive sticker 57 detect the temperature in the drying room 56 it is too low and When can not dry, which can start, so that the heat pump 55 can assist allowing the drying room 56 to hold to heating in the drying room 56 The effect that drying is held in continuation of insurance increases the drying room 56 in addition, the circulation fan can increase the hot air circulation in the drying room 56 Drying effect.

In summary, the utility model has effects that following:

1. the thermal energy that solar energy generates directly is used in drying by the utility model, heat is used compared to existing drying system Electric system is it is still necessary to be converted and efficient bad defect, and the using energy source of the utility model need not be converted, therefore energy Source efficiency can be promoted effectively.

2. the utility model passes through the design of first oil groove 20, first oil groove 20 can be regard as a quick heat-collector slot, And the design of second oil groove 30 can be used as an energy storage slot, can store thermal energy in the form of latent heat, so that this is practical new Type can still be dried in the cloudy day or at night.

3. the utility model drying unit 50 be by way of counter 51, therefore the utility model have height it is motor-driven Property, and pieces of equipment simplifies, and have the effect of cost reduction.

4. the utility model drying unit 50 is by way of counter 51, counter 51 can not only be stacked, and can Directly extend up and down, and counter 51 is also handy device, and need not be constructed again, therefore the utility model is same When have and save volume and the handy effect of spare part.

5. the utility model passes through the design of heat pump 55, when the utility model is during the cloudy day for a long time, which is handed over Hot water in parallel operation 40 can still flow into the heat pump 55, achieve the effect that 56 continuous heating of drying room.

The above is only the preferred embodiment of the utility model, not makees limit in any form to the utility model System, the those of ordinary skill in any technical field, if in the range of not departing from the utility model mentioned technical characteristic, Using the equivalent embodiment for locally changing or modifying made by the utility model disclosed technology content, it is practical new to still fall within this In the range of type technical characteristic.

Claims (7)

1. a kind of case type solar energy source drying system characterized by comprising

An at least heat collector；

One first oil groove, by one first pipeline, at least a heat collector is connected first oil groove with this, fills on first pipeline Equipped with one first pump, and installing heat build-up medium oil in first oil groove；

One second oil groove, which is connected by one second pipeline with first oil groove, and is installed on second pipeline There is one second pump；

One heat exchanger, which is connected by a third pipeline with second oil groove, and the third pipeline is equipped with One third pump；And

One drying unit, the drying unit are connected with the heat exchanger, the drying unit include a counter, an insulating layer and Multiple heating tubes, wherein the insulating layer is attached at the inner top surface and inner ring of the counter, and multiple heating tube and the heat are handed over Parallel operation is connected, and multiple heating tube is arranged adjacently to the insulating layer, and remaining counter space can be made to form a high temperature Drying room.

2. case type solar energy source drying system as described in claim 1, which is characterized in that the insulating layer is made of an asbestos Plate body.

3. case type solar energy source drying system as claimed in claim 1 or 2, which is characterized in that the heat build-up medium oil is coal Oil.

4. case type solar energy source drying system as claimed in claim 3, which is characterized in that there are two heat collectors, two collection Hot device is respectively a dish-style heat collector and a parabolic type heat collector.

5. case type solar energy source drying system as claimed in claim 4, which is characterized in that the drying unit includes an inner wall Layer, the inner wall layer are set between each heating tube.

6. case type solar energy source drying system as claimed in claim 5, which is characterized in that the drying unit includes a heat Pump, the heat pump are set to the outside wall surface of the counter and are connected with the heat exchanger.

7. case type solar energy source drying system as claimed in claim 6, which is characterized in that the drying unit includes a temperature Sensor, the top of the temperature-sensitive sticker is set to the inner wall layer, and its bottom end is protruded into the drying room, and the temperature-sensitive sticker It is electrically connected with the heat pump.