CN216716752U - Solar intelligent double-temperature multifunctional heat preservation box - Google Patents

Abstract

The utility model discloses a solar intelligent double-temperature multifunctional incubator which realizes the sliding cover type connection between an incubator body and an incubator cover through a sliding rail and a supporting rod. Solar cell panel is installed at the case lid top, and there are cold apotheca and hot apotheca inside the box, and two apothecas pass through the baffle and separate, install the peltier semiconductor component in the middle of the baffle, and the refrigeration end of this component is towards cold apotheca, heats the end and towards hot apotheca, through the frequency conversion fan of installation on the baffle, blows hot air and cold air in the baffle respectively to hot apotheca and cold apotheca to keep warm through the inner bag to two apotheca insides. Control center and battery are installed to cold apotheca below, and thermocouple temperature probe transmits control center with the temperature data in two apothecas, and control center controls through pasting semiconductor element to gas exchange plate, frequency conversion fan, battery and paler to the realization is to this utility model internal system's control and monitoring.

Description

Solar intelligent double-temperature multifunctional heat preservation box

Technical Field

The utility model relates to the field of insulation technology of an insulation box, in particular to a solar intelligent double-temperature multifunctional insulation box.

Background

The insulation can is a box with insulation performance used in taking out and delivering meals, and the insulation can in foreign countries is generally used in outdoor camping, fishing, cold chain transportation and the like. However, in recent years, with the rapid development of the takeaway and cold-chain logistics industry in China, the takeaway and cold-chain logistics are mainly used for distribution and cold-chain transportation, and the domestic outdoor market is still in the market cultivation stage.

The heat preservation box can be divided into two different culture types according to different product textures of enterprises, and comprises various heat preservation boxes made of plastics, foams, metal materials, wood and the like. There are many single-use incubators in cold chain transportation. The incubator in this report is recyclable.

In 2020, the market scale of the global insulation can reaches one hundred twenty seven and three hundred million yuan, the market scale of China is fifteen and four eleven hundred million yuan, along with the improvement of the consumption level of people, people pay more and more attention to food safety and cold chain distribution, and the flexible distribution mode and low cost of the insulation can are favored by various related industries. Under the trend of continuous development of fresh electronic commerce and medicine logistics, the incubator is more and more widely used, and has wide market prospect.

Under the current trend of mainly pushing green low-carbon economy, high energy consumption and high emission are realized, a low-efficiency cold-chain logistics management operation design mode can become a barrier restricting development of a cold-chain logistics service mode, in order to realize the construction of national ecological civilized cities, the coordinated economic development of cold-chain logistics and the environment is realized, the greening of cold-chain logistics enterprises is realized to promote continuous improvement and green transformation of cold-chain logistics information technology to become the first step of clearing away the development barrier, under the dual drive of internal control cost of national economic policies and enterprises, the greening of the cold-chain logistics service industry is imperative, and in the past, a disposable insulation box is gradually replaced by a green recyclable insulation box. Therefore, an intelligent heat preservation box which can simultaneously store cold and hot objects by utilizing the green energy of solar energy through the internet of things technology needs to be designed.

Disclosure of Invention

The utility model provides a solar intelligent double-temperature multifunctional insulation box, aiming at solving the current situation that the existing insulation box has single function, high manufacturing cost and low insulation efficiency and can only store cold or hot single objects.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model provides a two temperature insulation can of solar energy intelligence, this utility model includes box, case lid, the box pass through the inside slide rail of box and two bracing pieces of box rear side slide and with the case lid is connected to realize the sliding closure formula of insulation can and open the mode. When the heat insulation box is opened, the box cover slides towards the rear side of the box body, the supporting rod is connected with the upper end of the box cover and rotates along with the sliding of the box cover, so that the upper end of the supporting rod slides backwards along with the box cover, the lower end of the supporting rod moves backwards along with the upper end of the supporting rod and upwards moves at the bottom end of the rear side of the box body, and when the box cover moves backwards to the tail end of the sliding rail, the lower end of the supporting rod is fixed so as to support the box cover.

Further, solar cell panel is installed at the case lid top, is connected with control center, for utility model inside power consumption system provides the energy.

Furthermore, the inside baffle that installs of box is divided into two parts with the box inside, and partly is cold storage room, and partly is the heat storage room. A Peltier semiconductor element is mounted inside the partition plate, a cooling end of the Peltier semiconductor element faces the cold storage chamber, and a heating end of the Peltier semiconductor element faces the heat storage chamber.

Further, the heat storage chamber and the cold storage chamber are respectively provided with the heat conduction inner container, an interlayer exists between the heat conduction inner container and the storage chamber, and air exists in the interlayer.

Further, the cold storage room with the apotheca case lid is all installed to the hot storage room, the apotheca case lid can be guaranteed cold storage room and affiliated hot storage room can not take place the temperature and reveal when the case lid is opened, the guarantee that can be better this utility model's the heat preservation effect.

Furthermore, a variable frequency fan is respectively arranged on the partition boards. The variable frequency fan facing the direction of the heat storage chamber blows air in the partition board heated by the heating end of the Peltier semiconductor element into an interlayer between the heat storage chamber and the heat conduction inner container, and the temperature in the heat storage chamber is increased by heating the air in the interlayer; the variable frequency fan towards the direction of the cold storage chamber blows air in the partition plate of the Peltier semiconductor element refrigerating end into an interlayer between the cold storage chamber and the heat conduction inner container, and the temperature in the cold storage chamber is reduced by cooling the air in the interlayer.

Furthermore, two air exchange plates are arranged at the positions of the box body on the two sides of the Peltier element in the partition plate, the air exchange plates can be controlled by a control center, and after the control center controls the air exchange plates to be opened, air in the partition plate can circulate with outside air, so that the temperature in the box body can be controlled.

Furthermore, control center installs cold apotheca below is close to in the interlayer of baffle, control center can receive the temperature data that thermocouple temperature probe detected and obtain, handles the temperature data who obtains to data after will handling are passed through bluetooth device and wiFi device and are transmitted to cell-phone terminal, can pass through cell-phone terminal remote setting the heat apotheca with the inside temperature of cold apotheca and real-time supervision. The control center controls the starting and the closing of the Peltier semiconductor element, the variable frequency fan and the air exchange plate according to the temperature set by the mobile phone terminal, and controls the additional charging and the additional discharging functions of the storage battery and the energy supply of the storage battery to an internal system in a non-illumination environment and a low-illumination environment. When the internal temperatures of the heat storage chamber and the cold storage chamber do not reach the set temperature, the control center controls the Peltier semiconductor element and the variable frequency fan to operate. When the temperature in the heat storage chamber exceeds the set temperature, the control center controls the variable frequency fan to be closed and controls the air exchange plate to be opened, and the control center does not control the air exchange plate to be closed until the temperature in the heat storage chamber reaches the set temperature; when the temperature in the cold storage room is lower than the set temperature, the control center controls the variable frequency fan to be closed and controls the air exchange plate to be opened until the temperature in the heat storage room reaches the set temperature, and the control center controls the air exchange plate to be closed. When the photovoltaic solar panel is in an illumination environment, the control center supplies the power generated by the photovoltaic solar panel to the internal power utilization system of the utility model, such as the Peltier semiconductor element, the variable frequency fan, the control center and the air exchange plate, and transports the redundant electric quantity generated by the photovoltaic solar panel into the storage battery until the storage battery is fully charged, and the control center disconnects the storage battery from the photovoltaic solar panel; under affiliated photovoltaic solar panel is in no illumination environment and weak light environment, control center control the battery is replaced photovoltaic solar panel is this utility model internal power system supply electric power.

Further, the battery is installed cold apotheca below is close to in the interlayer of box, the battery still is provided with an extra mouth and an extra discharge port that charges to this improves this utility model's practicality. The additional charging port and the battery discharging port are electrically connected with the battery and are installed below the side surface of the box body, and the specific position can be determined according to the position of the cold storage chamber and the position of the battery.

Furthermore, the thermocouple temperature measuring probes are respectively arranged in the cold storage chamber and the heat storage chamber and are electrically connected with the control center, and the temperature data in the cold storage chamber and the temperature data in the heat storage chamber obtained by detection are transmitted to the control center in real time.

Furthermore, an external main switch is installed above the storage battery discharging port and the storage battery charging port at the lower right corner of the right side of the incubator body, and the external switch can be manually controlled to be turned on and off, so that the operation of an internal system of the utility model can be turned on and off.

Preferably, mounting openings are reserved on two sides above the partition board, an ultraviolet disinfection lamp can be mounted in each mounting opening, and the mobile phone terminal can control the ultraviolet disinfection lamp to be turned on and off through the control center, so that the articles in the heat insulation box are disinfected.

The utility model has the beneficial effects that:

1. the solar heat insulation box is simple in structure and high in integration degree, the photovoltaic solar panel is additionally arranged at the upper end of the box cover of the heat insulation box, so that certain electric energy is generated, electricity generated by solar energy can directly supply energy to the Peltier semiconductor element in the heat insulation box, and the temperature of articles in the box is guaranteed.

2. The novel semiconductor refrigerating sheet is added into the heat preservation box, the problems of uneven temperature distribution in the heat preservation box and how to refrigerate and heat are effectively solved, the safety performance is high, and the interior of the heat preservation box can be divided into a cold storage chamber and a hot storage chamber through the Peltier semiconductor element, so that the utility model realizes the function that the heat preservation box can simultaneously store cold and hot objects.

3. The control center receives and processes detected temperature data, real-time temperature in the takeout box can be displayed on the mobile phone terminal through the Bluetooth device and the WiFi device, the temperature in the two storage rooms can be automatically or manually adjusted through the mobile phone terminal, the control center can control the work of the internal power utilization system according to commands of the mobile phone terminal, so that the appropriate temperature in the storage rooms can be kept, and the control can also provide recommended temperature according to the intelligence of articles in the heat preservation box, so that the function of Internet of things + of the heat preservation box is realized.

4. By adopting the opening mode of the sliding cover type box cover, the operation of the solar cell panel can be ensured to the maximum extent, the utilization rate of the solar cell panel to solar energy is improved, the frequent non-light environment and light environment of the solar cell panel caused by opening the box cover are effectively reduced, the service lives of the solar cell panel and the internal circuit and the power utilization device of the solar cell panel are greatly prolonged, and the safety of the solar cell panel is ensured.

Drawings

The technical solutions and advantages of the present invention will become apparent from the following detailed description of specific embodiments of the present invention with reference to the accompanying drawings.

FIG. 1 is a schematic view illustrating the opening of a solar intelligent dual-temperature thermal insulation box according to an embodiment of the present invention

FIG. 2 is a half-sectional view of a solar intelligent dual-temperature thermal insulation box according to an embodiment of the present invention

FIG. 3 is a schematic view of another angle of the enclosure of the solar intelligent dual-temperature thermal insulation box according to the embodiment of the present invention

FIG. 4 is a schematic view illustrating the opening of another angle thermal insulation box of a solar intelligent dual-temperature thermal insulation box according to an embodiment of the present invention

Reference numerals in the drawings

The solar energy heat-preservation and heat-preservation solar energy heat-preservation system comprises a box body 1, a box cover 2, a support rod 3, a ventilation plate 4, a partition plate 5, a sliding rail 6, a photovoltaic solar panel 7, a storage battery charging port 8, a storage battery discharging port 9, a Peltier semiconductor element 10, a heat-conducting inner container 11, a control center 12, a storage battery 13, a heat storage chamber 14, a cold storage chamber 15, a heat storage chamber box cover 16, a cold storage chamber box cover 17, a thermocouple temperature measurement probe 1, a thermocouple temperature measurement probe 19, a frequency conversion fan 1, a frequency conversion fan 2, an external switch 22 and an ultraviolet disinfection lamp 23.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

While the subject matter described in connection with the embodiments of the utility model is not intended to limit the scope of the utility model, which is claimed, it is to be understood that such detail is solely representative of selected embodiments of the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that like reference numerals and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the embodiments of the present invention, it should be noted that, if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate an orientation or a positional relationship based on the orientation or the positional relationship shown in the drawings, or an orientation or a positional relationship which is usually placed when the products of the present invention are used, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the devices or elements which are referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms "first", "second", "third", etc. are only used for distinguishing the description, and are not intended to indicate or imply relative importance.

Furthermore, the terms "horizontal", "vertical", "overhang" and the like do not require that the components be absolutely horizontal or overhang, but may be slightly inclined such that "horizontal" simply means that the orientation is more horizontal than "vertical" and does not necessarily mean that the structure is perfectly horizontal, but may be slightly inclined.

In the description of the embodiments of the present invention, "a plurality" represents at least 2.

In the description of the embodiments of the present invention, it should be further noted that unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" should be broadly construed and interpreted as including, for example, fixed connections, detachable connections, or integral connections; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

According to fig. 1, 3 and 4, the embodiment of the utility model provides a solar intelligent double-temperature incubator, which comprises an incubator body 1, wherein the incubator body 1 is connected with an incubator cover 2 in a sliding manner through a sliding rail 6 and a support rod 3. Photovoltaic solar cell panel 7 is installed on 2 tops of case lid, photovoltaic solar cell panel 7 is connected with control center 12 in this utility model, through converting solar energy into the electric energy to power consumption relation in for this utility model embodiment provides electric power. The slide rails 6 are arranged at the uppermost positions of the left side and the right side in the box body 1, and the box cover 2 is connected with the slide rails 6 so as to move back and forth on the box body 1. The bracing piece 3 has two, the lower extreme of bracing piece 3 is connected respectively through the gyro wheel the bottom of the rear left and right sides of box 1, 3 upper ends of bracing piece are connected respectively through the bearing the left and right sides at 2 backs of case lid, work as case lid 2 is in rely on the box 1 during the slide rail 6 backward sliding, connect at 2 backs of case lid 3 upper ends backspin of bracing piece, bracing piece 3 with the lower extreme that box 1 is connected along 1 rear recess of box, along with 3 upper ends of bracing piece backward movement and upward movement, thereby along with 2 backward movement of case lid. Until the cover slides backwards to the extreme end of the slide rail 6, the lower end of the support rod 3 is fixed in the groove at the back of the box body 1 when the cover 2 reaches the end of the slide rail, so as to support the opened cover 2 and maintain the stability of the embodiment in the opened state.

According to fig. 2, the cold storage chamber 15 is provided with a cold storage chamber cover 17, the hot storage chamber 14 is provided with a hot storage chamber cover 16, and a chamber cover can be closed to keep the temperature in both storage chambers. The cold storage chamber 15 and the heat storage chamber 14 are both provided with heat conducting inner containers 11, the upper parts of the heat conducting inner containers 11 are connected with the top ends of the four side surfaces of the heat storage chamber 14, the area of the heat conducting inner containers 11 arranged at the bottom of the heat storage chamber 14 is slightly smaller than that of the bottom of the heat storage chamber, and therefore an interlayer is formed between the heat storage chamber 14 and the heat conducting inner containers 11; the heat conducting inner container 11 in the cold storage chamber 15 is installed in the same manner as in the hot storage chamber 14.

According to fig. 1 and 4, a partition 5 is installed inside the box body 1, the partition 5 is made of a heat insulating material, the partition 5 divides the inside of the box body 1 into a cold storage chamber 15 and a hot storage chamber 14, a peltier semiconductor element 10 is installed inside the partition 5, the peltier semiconductor element 10 is connected with the control center 12, and the operation of the peltier semiconductor element 10 is controlled by the control center 10. The peltier semiconductor element 10 has a cooling end facing the cold storage chamber 15 and a heating end facing the hot storage chamber 14. The partition 5 is provided with an inverter fan b21 on a side facing the cold storage chamber 15, and when the cooling end of the peltier semiconductor element 10 is cooled, the inverter fan b21 operates to blow air cooled in the partition 5 into the interlayer between the cold storage chamber 15 and the heat conductive inner container 11 installed in the cold storage chamber 15, and cool the air in the interlayer by the cold air in the partition 5, thereby reducing the temperature in the cold storage chamber; similarly, the partition 5 is provided with an inverter fan a20 on a side facing the heat storage chamber 14, and when the heating end of the peltier semiconductor element 10 is heated, the inverter fan a20 is operated to blow air heated in the partition 5 into the interlayer between the heat storage chamber 14 and the heat conductive inner container 11 installed in the heat storage chamber 14, and the air in the interlayer is heated by the hot air in the partition 5, thereby raising the temperature in the heat storage chamber. The variable frequency fan a20 and the variable frequency fan b21 are respectively connected with the control center 12, and the operation of the variable frequency fan a20 and the variable frequency fan b21 is controlled by the control center.

According to fig. 1 and 2, two ventilation plates 4 are arranged in the box body 1 at corresponding positions on two sides of the peltier semiconductor element 10 in the partition plate 5, the ventilation plates 4 are controlled by the control center 12, and after the control center 12 controls the ventilation plates 4 to be opened, air in the partition plate 5 flows through the ventilation ports opened by the ventilation plates 4 and outside air, so that the control of the temperature in the box body is realized.

According to fig. 2 and fig. 1, install battery 13 in each layer of cold storage 15 below, battery 12 with control center 10 is connected under control center 10's control, when having light environment battery 13 stores the unnecessary electric quantity that photovoltaic solar cell panel 7 produced, when having weak light environment and no light environment battery 13 replaces photovoltaic solar cell panel 7 provides the electric quantity for the electric system in this utility model embodiment. The storage battery 13 is additionally provided with a storage battery charging port 8 and a storage battery discharging port 9, the storage battery charging port 8 and the storage battery discharging port 9 are fixed at the right lower corner of the right side of the box body 1, and the storage battery 13 can be additionally charged and discharged directly outside the box body through the storage battery charging port 8 and the storage battery discharging port 9.

According to fig. 2, the control center 12 is installed in a partition layer below the cold storage chamber 15 and close to the partition plate 5, the control center 12 can receive temperature data detected by the thermocouple temperature probe 18 and the thermocouple temperature probe 19, process the obtained temperature data, transmit the processed data to a mobile phone terminal through a bluetooth device and a WiFi device inside the control center 12, and remotely set and monitor the temperature inside the hot storage chamber 14 and the cold storage chamber 15 in real time through the mobile phone terminal. The control center 12 controls the photovoltaic solar panel 7, the peltier semiconductor element 10, the variable frequency fan 20 and the control center 21 according to the temperature set by the mobile phone terminal, controls the air exchange panel 4 to be turned on and off, and controls the charging and discharging of the storage battery 12, and the energy supply of the storage battery 12 to the internal system in the non-light environment and the low-light environment.

When the internal temperatures of the heat storage chamber 14 and the cold storage chamber 15 do not reach the set temperature, the control center 12 controls the peltier semiconductor element 10, the variable frequency fan 20, and the variable frequency fan 21 to operate. When the temperature in the heat storage chamber 14 exceeds the set temperature, the control center 12 controls the variable frequency fan 20 to be closed, controls the air exchange plate 4 to be opened so as to reduce the temperature in the heat storage chamber 14, and does not control the air exchange plate 4 to be closed until the temperature in the heat storage chamber 14 reaches the set temperature; when the temperature in the cold storage room 15 is lower than the set temperature, the control center 12 controls the frequency conversion fan 21 to be closed, so as to control the air exchange plate 4 to be opened and improve the temperature in the cold storage room 15, until the temperature in the cold storage room 15 reaches the set temperature, the control center 12 controls the air exchange plate 4 to be closed. When the photovoltaic solar panel 7 is in an illumination environment, the control center 12 supplies the power generated by the photovoltaic solar panel 7 to the peltier semiconductor element 10, the variable frequency fan 20, the variable frequency fan 21, the control center 12, the ventilation board 13, and the like, and transports the redundant power generated by the photovoltaic solar panel 7 into the storage battery 13, until the storage battery 13 is fully charged, the control center 12 disconnects the storage battery 13 from the photovoltaic solar panel 7; work as photovoltaic solar cell panel 7 is in under no illumination environment and the low light environment, control center 12 control battery 13 replaces photovoltaic solar cell panel 7 is this utility model embodiment inside electric system supply power with the electric power.

According to fig. 2, the thermocouple thermometric probe 18 is mounted on the heat-conducting inner container 11 inside the heat storage chamber 14, and transmits the measured temperature data inside the heat storage chamber 14 to the control center 12 through electrical connection; the thermocouple temperature measuring probe 19 is installed on the heat conducting inner container 11 inside the cold storage chamber 15, and the measured temperature data in the cold storage chamber 15 is transmitted to the control center 12 through electric connection.

According to fig. 1, 3 and 4, the external switch 22 is installed below the right side of the takeout box above the battery charging port 8 and the battery discharging port 9, and the external switch 22 can be manually controlled to be turned on and off so as to realize the overall control of the operation of the internal system in the embodiment of the utility model.

According to fig. 2, the top of the side of the cold storage chamber 15 and the hot storage chamber 14 near the partition is provided with a mounting groove, and optionally an ultraviolet disinfection lamp 23 is mounted on the mounting groove, and the ultraviolet disinfection lamp 23 can be controlled by the control center 12 to disinfect the articles in the two storage chambers.

In the above embodiments of the present invention, the difference between the embodiments is mainly described, and different optimization features between the embodiments can be combined to form a better embodiment as long as they are not contradictory, and further description is omitted here in view of brevity of the text. The above description is only an example of the present invention, and is not intended to limit the present invention.

Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a multi-functional insulation can of solar energy intelligence dual temperature which characterized in that: box (1) and case lid (2), through slide rail (6) and bracing piece (3) realization sliding closure formula connection, solar cell panel (7) are installed at case lid (2) top, box (1) internally mounted has baffle (5), thereby will box (1) is inside to be cut apart into hot apotheca (14) and cold apotheca (15), baffle (5) inside is provided with peltier semiconductor element (10), and the refrigeration end orientation of affiliated peltier semiconductor element (10) cold apotheca (15) one side, the end orientation of heating heat apotheca (14) one side, and baffle (5) with there is the air intermediate layer between peltier semiconductor element (10).

2. The solar intelligent dual-temperature multifunctional incubator according to claim 1, wherein: an interlayer is arranged below the cold storage chamber (15), a control center (12) is installed in the interlayer, and the control center (12) can be connected with a mobile phone terminal through a Bluetooth device, so that the solar cell panel (7), the Peltier semiconductor element (10), the variable-frequency fan (20), the ventilation plate (4) and the storage battery (13) are controlled to operate and discharge in the heat insulation box.

3. The solar intelligent dual-temperature multifunctional incubator according to claim 2, wherein: the cold storage chamber (15) and the hot storage chamber (14) are respectively provided with a heat conduction inner container (11), and an air interlayer exists between the heat conduction inner container (11) and the two storage chambers.

4. The solar intelligent dual-temperature multifunctional incubator according to claim 1, wherein: the cold storage chamber (15) is provided with a cold storage chamber cover (17), and the hot storage chamber (14) is provided with a hot storage chamber cover (16).

5. The solar intelligent dual-temperature multifunctional incubator according to claim 2, wherein: the two sides of the partition plate (5) facing the cold storage chamber (15) and the hot storage chamber (14) are respectively provided with one variable frequency fan (20).

6. The solar intelligent dual-temperature multifunctional incubator according to claim 2, wherein: the box body (1) is provided with two air exchange plates (4) at the positions of two sides of the Peltier semiconductor element (10) in the partition plate (5).

7. The solar intelligent dual-temperature multifunctional incubator according to claim 2, wherein: the accumulator (13) is mounted in a compartment below the cold storage chamber (15).

8. The solar intelligent dual-temperature multifunctional incubator according to claim 2, wherein: the storage battery (13) is also provided with a storage battery discharging port (8) and a storage battery charging port (9), and the storage battery charging port (8) and the storage battery discharging port (9) are fixedly arranged on the box body (1).

9. The solar intelligent dual-temperature multifunctional incubator according to claim 3, wherein: and a thermocouple temperature measuring probe (19) is arranged on the heat conducting inner container (11) in the cold storage chamber (15) and the heat storage chamber (14), and the thermocouple temperature measuring probe (19) is connected with the control center (12).

10. The solar intelligent dual-temperature multifunctional incubator according to claim 1, wherein: the sliding rails (6) are mounted on the box body (1), the number of the supporting rods (3) is two, the upper end and the lower end of each supporting rod (3) are respectively connected with the box cover (2) and the box body (1), and the box body (1) and the box cover (2) are connected through the sliding rails (6) and the supporting rods (3).

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