CN203100318U - Solar semi-conductor refrigerating box with cocked fin type nanometer fluid heat pipe radiator - Google Patents

Abstract

The utility model discloses a solar semi-conductor refrigerating box with a cocked fin type nanometer fluid heat pipe radiator. The solar semi-conductor refrigerating box with the cocked fin type nanometer fluid heat pipe radiator comprises a solar photovoltaic plate, a semi-conductor refrigerating device, a storage battery, temperature sensors and a solar controller. The solar photovoltaic plate is connected with an input end of the solar controller. An output end of the solar controller is connected with the semi-conductor refrigerating device. One end of the storage battery is connected with a negative pole of the solar photovoltaic plate and the other end of the storage battery is connected with the solar controller. The temperature sensors are respectively connected with the solar controller. The semi-conductor refrigerating device is arranged on a body of semi-conductor refrigerating box. As the solar photovoltaic plate uses a trapezoid-shaped folding manner and a connection through revolving shafts manner, a supporting frame can be adjusted according to local geographic positions so that a light collecting angle is kept optimal, the amount of light absorbed per unit area is increased and rising of photovoltaic power generation efficiency per unit is achieved. The cocked fin type nanometer fluid heat pipe radiator is adopted, the radiating efficiency of a hot end of the refrigerating device is reinforced, refrigerating effect is improved and the solar semi-conductor refrigerating box with the cocked fin type nanometer fluid heat pipe radiator has the advantages of being green and energy-saving.

Description

A kind of band sticks up the solar semiconductor refrigeration case of wing type nano-fluid heat-pipe radiator

Technical field

The utility model relates to a kind of semiconductor refrigerating case, relates to the solar semiconductor refrigeration case that a kind of band sticks up wing type nano-fluid heat-pipe radiator in particular.

Background technology

China is the country of an energy resources scarcity, along with rapid economic development, has aggravated the growth of fossil fuel consumption since the reform and opening-up, has caused the critical shortage of fossil fuel.The energy resources shortage has seriously restricted the development of Chinese national economy, and in order to realize that china natural resources utilizes the mode right-about, country has formulated a series of policies and regulations and promoted the application of regenerative resource in each field in recent years.Solar energy resources is as a kind of regenerative resource, and its development and utilization has become a kind of trend of current society.Utilize solar energy to obtain tremendous development at present, but these refrigeration modes all need cold-producing medium, and the refrigeration plant volume is big, has noise as the refrigeration modes of supplementary energy or drive energy.Solar semiconductor refrigeration is that the electric energy that utilizes solar cell to produce drives semiconductor refrigerating, compare with traditional refrigeration modes, it have do not use cold-producing medium, advantages such as volume is little, the life-span is long, noiselessness.

In recent years, solar semiconductor refrigeration technique is all obtaining certain development aspect research and development, the practical application, but owing to be subjected to the each side condition effect, solar semiconductor refrigeration technique is not subjected to promoting widely and using on market now, and the direction that the solar semiconductor refrigeration case is used as solar semiconductor refrigeration technique equally also faces this kind awkward situation.Present solar semiconductor refrigeration case mainly contains following shortcoming: (1) solar energy utilization ratio is low, and refrigerator hot-side heat dissipation difference causes poor refrigerating efficiency; (2) the solar tracking device simplicity of design can not be adjusted support flexibly according to local geographical position, makes lighting angle reach optimum; (3) the not enough semiconductor refrigerating case operate as normal that influences of overcast and rainy battery electric power storage.

Summary of the invention

In order to solve the problems of the technologies described above, the utility model provides the band of a kind of simple in structure, energy-conserving and environment-protective, good refrigeration effect to stick up the solar semiconductor refrigeration case of wing type nano-fluid heat-pipe radiator.

The technical solution adopted in the utility model is: comprise solar opto-electronic board, semiconductor cooler, battery, temperature sensor and controller for solar, described solar opto-electronic board is connected with the controller for solar input, controller for solar output termination semiconductor cooler, described battery one end is connected with the negative pole of solar opto-electronic board, one end is connected with controller for solar, described temperature sensor is connected with controller for solar respectively, and the solar semiconductor refrigeration case that described band sticks up wing type nano-fluid heat-pipe radiator is located on the semiconductor refrigerating box body.

Above-mentioned band sticks up in the solar semiconductor refrigeration case of wing type nano-fluid heat-pipe radiator, and described electro-optical package is made up of three little electro-optical packages, connects by movable rotation-shaft between three little electro-optical packages, is trapezoidal and arranges.

Above-mentioned band sticks up in the solar semiconductor refrigeration case of wing type nano-fluid heat-pipe radiator, and described battery, temperature sensor and controller for solar are arranged on the semiconductor refrigerating box body.

Above-mentioned band sticks up in the solar semiconductor refrigeration case of wing type nano-fluid heat-pipe radiator, described semiconductor cooler comprises semiconductor cooler hot junction and semiconductor cooler cold junction, the semiconductor cooler hot junction is provided with that wing type nano-fluid heat pipe is stuck up in the refrigerator hot junction, wing type fin and refrigerator hot junction fan are stuck up in the refrigerator hot junction, and the semiconductor cooler cold junction is provided with the refrigerator cold junction and sticks up wing type fin and refrigerator cold junction fan.

Compared with prior art, the beneficial effects of the utility model are:

(1) the utility model utilizes solar energy for the energy carries out work, has the advantage of green energy conservation.

(2) because solar opto-electronic board of the present utility model adopts the structure of trapezoidal folding shaft connecting mode, can adjust support flexibly according to local geographical position, make the lighting angle optimum, increased the uptake of unit are sunshine, realized the lifting of unit are photovoltaic efficiency.

(3) wing type nano-fluid heat-pipe radiating apparatus is stuck up in refrigerator hot junction employing of the present utility model, has strengthened refrigerator hot-side heat dissipation efficient, has improved refrigeration.

Description of drawings

Fig. 1 is a structural representation of the present utility model.

Fig. 2 is the structure chart of solar opto-electronic board in the utility model.

Fig. 3 sticks up the structure chart of the solar semiconductor refrigeration device of wing type nano-fluid heat-pipe radiator for the band in the utility model.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is further described:

As shown in Figure 1, the utility model comprises solar opto-electronic board 1, semiconductor cooler 12, battery 7, temperature sensor 8 and controller for solar 6, described solar opto-electronic board 1 is connected with controller for solar 6 inputs, the output termination semiconductor cooler 12 of controller for solar 6, described battery 7 one ends are connected with the negative pole of solar opto-electronic board 1, one end is connected with controller for solar 6, described temperature sensor 8 is connected with controller for solar 6, described semiconductor cooler 12 is located on the semiconductor refrigerating box body 5, described electro-optical package 1 is made up of three little electro-optical packages 11, connect by movable rotation-shaft 2 between three little electro-optical packages 11, be trapezoidal and arrange, the lower surface middle part of a middle little electro-optical package 11 is connected with support 3 by rotating shaft 2.

Described battery 7, temperature sensor 8 and controller for solar 6 also are arranged on the semiconductor refrigerating box body 5.The upper surface of semiconductor refrigerating box body 5 is provided with handle 9, and the front of semiconductor refrigerating box body 5 is provided with refrigeration case chamber door 10, and refrigeration case chamber door 10 is provided with chamber door handle 4.The major function of described controller for solar 6 is: 1) realize the control of the temperature inside the box and the power supply of solar opto-electronic board 1 or 7 pairs of semiconductor coolers 12 of battery; 2) prevent that the overshoot of battery 7 and cross from putting.

Be illustrated in figure 3 as and be with the semiconductor cooler structure vertical view that sticks up wing type nano-fluid heat-pipe radiator in the utility model, described semiconductor cooler 12 comprises semiconductor cooler hot junction 14 and semiconductor cooler cold junction 13, and semiconductor cooler hot junction 14 is provided with that wing type nano-fluid heat pipe 17 is stuck up in the refrigerator hot junction, wing type fin 18 and refrigerator hot junction fan 19 are stuck up in the refrigerator hot junction; Semiconductor cooler cold junction 13 is provided with the refrigerator cold junction and sticks up wing type fin 15 and refrigerator cold junction fan 16.

Operation principle of the present utility model is: solar opto-electronic board 1 is connected to form by three little electro-optical packages 11 and rotating shaft 2, be trapezoidal shape, have the installing space of saving and good and economic, solar opto-electronic board 1 is divided into the little electro-optical package 11 of polylith, the little electro-optical package 11 of each piece is carried out independent regulation and control, the little electro-optical package 11 of each piece rotates around rotating shaft 2, realize the change at little electro-optical package 11 inclination angles, little electro-optical package 11 trapezoidal arranging, 11 occlusion issues when the sunshine low-angle shines of little electro-optical package have been solved, we are according to local geographical position, choose and carry out structure behind the optimum daylighting angle and fix, can increase unit are sunshine uptake, farthest improve the unit are photovoltaic efficiency.When sunny by day, solar opto-electronic board 1 can absorb solar energy, converts it into electric energy, by 6 pairs of refrigeration case power supplies of controller for solar.Temperature in refrigeration case casing 5 is higher than the design temperature upper limit, the contact point closure of controller for solar 6 then, electric energy driving semiconductor cooler 12 from solar cell or battery 7 freezes, and when system through after a while operation, temperature in the refrigeration case casing 5 reaches the following of design temperature and prescribes a time limit, controller for solar 6 disconnections this moment, semiconductor cooler 12 outage and out of service, be stored into the unnecessary electric weight that solar opto-electronic board 1 produces in the battery 7 this moment, when solar opto-electronic board 1 power shortage or overcast and rainy continuously, can fill semiconductor cooler 12 power supplies by battery 7.

Claims (5)

1. a band sticks up the solar semiconductor refrigeration case of wing type nano-fluid heat-pipe radiator, it is characterized in that: comprise solar opto-electronic board, semiconductor cooler, battery, temperature sensor and controller for solar, described solar opto-electronic board is connected with the controller for solar input, controller for solar output termination semiconductor cooler, described battery one end is connected with the negative pole of solar opto-electronic board, one end is connected with controller for solar, described temperature sensor is connected with controller for solar respectively, and the semiconductor cooler that described band sticks up wing type nano-fluid heat-pipe radiator is located on the semiconductor refrigerating box body.

2. band according to claim 1 sticks up the solar semiconductor refrigeration case of wing type nano-fluid heat-pipe radiator, it is characterized in that: described electro-optical package is made up of three little electro-optical packages, connects by movable rotation-shaft between three little electro-optical packages, is trapezoidal and arranges.

3. band according to claim 1 sticks up the solar semiconductor refrigeration case of wing type nano-fluid heat-pipe radiator, it is characterized in that: described battery, temperature sensor and controller for solar are arranged on the semiconductor refrigerating box body.

4. band according to claim 1 sticks up the solar semiconductor refrigeration case of wing type nano-fluid heat-pipe radiator, it is characterized in that: described semiconductor cooler comprises semiconductor cooler hot junction and semiconductor cooler cold junction, the semiconductor cooler hot junction is provided with that wing type nano-fluid heat pipe is stuck up in the refrigerator hot junction, wing type fin and refrigerator hot junction fan are stuck up in the refrigerator hot junction, and the semiconductor cooler cold junction is provided with the refrigerator cold junction and sticks up wing type fin and refrigerator cold junction fan.

5. band according to claim 1 sticks up the solar semiconductor refrigeration case of wing type nano-fluid heat-pipe radiator, it is characterized in that: the upper surface of described semiconductor refrigerating box body is provided with handle, the front of semiconductor refrigerating box body is provided with the refrigeration case chamber door, and the refrigeration case chamber door is provided with the chamber door handle.

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