CN209275331U - Solar refrigeration container - Google Patents

Abstract

The utility model provides a kind of solar refrigeration container, including solar electric power supply system, container and refrigeration system, and solar electric power supply system includes solar panels, inverter, battery and controller；Container includes refrigerating chamber, cool room and goes out to enter the room, and wherein the shell of refrigerating chamber has insulating layer；Refrigeration system includes refrigeration unit, cold-storage device and blower, and cold-storage device includes the cold-storage material being adjacently positioned with evaporator and is located at and refrigerates indoor cold-storage material coil pipe, blower and cold-storage material coil pipe face；When solar panels normal power generation; compressor start is simultaneously run; cold-storage device cold-storage; battery lays in extra electricity; when the improper power generation of solar panels, compressor shutdown, cold-storage device released cold quantity; when cooling capacity deficiency, controller is powered to compressor to be again started up compressor as cold-storage device cold-storage by inverter control battery.The utility model is energy saving, and structure is simple, easy to use.

Description

Solar refrigeration container

Technical field:

The utility model relates to technical field of refrigeration equipment, in particular to a kind of solar refrigeration container.

Background technique:

Nowadays, in some remote backward places in the countryside all over the world, still there are the powerless charity power grid in many places, such as China mountain area Or the ground such as Africa, but the demand of these local electricity consumptions exists always, such as some medical supplies must be stored in low temperature environment In lower such as refrigerating box.There is an urgent need to develop the refrigeration equipments for being not necessarily to electricity consumption for this.

Utility model content:

In order to overcome the problems referred above, the utility model provides a kind of solar refrigeration container and will be advantageous.

To achieve the above object, the utility model provides a kind of solar refrigeration container comprising solar powered system System, container and refrigeration system, solar electric power supply system include solar panels, the inverter being connect with solar panels, respectively with The battery and controller of inverter connection；Container includes refrigerating chamber, cool room and goes out to enter the room, wherein the shell tool of refrigerating chamber There is insulating layer；Refrigeration system includes refrigeration unit, cold-storage device and blower, wherein refrigeration unit is located in cool room and wraps It includes compressor, the condenser connecting with compressor, one end and condenser connected to the controller and connects the other end and compressor company The evaporator connect, cold-storage device include the cold-storage material being adjacently positioned in cool room and with evaporator and are located in refrigerating chamber simultaneously The cold-storage material coil pipe being connected to cold-storage material, blower are located in refrigerating chamber and are arranged with the cold-storage material coil pipe face；Controller setting It controls compressor start and runs when being in normal power generation state at solar panels, carries out cold-storage by cold-storage device, and by storing Extra electricity of the battery reserve from solar panels, it controls compressor shutdown when solar panels are in improper generating state, By cold-storage device released cold quantity, and when the cooling capacity deficiency of cold-storage device, controller is by inverter control battery to compression Machine power supply is cold-storage device cold-storage to be again started up compressor.

In the present invention, due to completing to freeze using solar power generation, the demand of no power grid power supply saves energy Source, environmental protection；For container as mobile freezer, structure is simple, easy to use；Through cold-storage material coil pipe and blower in refrigerating chamber It is arranged such that the cooling capacity from cold-storage material coil pipe can be dispelled the from cellar to rafter to refrigerating chamber by blower.

Further, above-mentioned cool room and go out to enter the room and be located side by side at one end of refrigerating chamber, wherein cool room includes lower unit room With upper cold storage chamber, compressor and the condenser are located in lower unit room, and evaporator is embedded in cold storage chamber and around cold-storage Agent arrangement.

It is arranged by above structure, so that it is compact-sized, it is easy to repair, and it is cold from evaporator absorption to be conducive to cold-storage material Amount.

Further, cold-storage material coil pipe is located in the one side wall of close upper cold storage chamber of refrigerating chamber.

It is arranged with this configuration, enables the cooling capacity from cold-storage material coil pipe that refrigerating chamber is made to maintain low-temperature condition.

Further, cold-storage device further includes cold-storage material circulating pump.

The cold-storage material circulating pump enables cold-storage material to be recycled between cold storage chamber and cold-storage material coil pipe, persistently will be cold Amount is transported in refrigerating chamber via cold-storage material coil pipe.

Again further, blower is cross flow blower.

The setting of the cross flow blower enables the cooling capacity from cold-storage material coil pipe with the situation of circulated air in refrigerating chamber Interior circulation, so as to which the uniform of entire temperature in refrigerating chamber is effectively ensured.

Further, enter the room out be provided with can be provided with first of hermatic door be connected to of outside, refrigerating chamber can with enter the room out The second hermatic door of connection.

By the setting of two seals door, so that refrigerating indoor cooling capacity will not leak out easily, so as to more preferable Play heat insulation effect in ground.

By reference to the embodiments described below, the above-mentioned these and other aspects of the utility model will be obtained More clearly illustrate.

Detailed description of the invention:

The structure of utility model and further objects and advantages will be obtained more preferably by description with reference to the accompanying drawing Ground understands, wherein identical reference marker identifies identical element:

Fig. 1 is the working principle signal of the solar refrigeration container of a specific embodiment according to the present utility model Figure, eliminates the container of solar refrigeration container in the figure for clarity；

Fig. 2 is vertical outside the overall structure of the solar refrigeration container of the specific embodiment according to the present utility model Body schematic diagram eliminates the solar electric power supply system of solar refrigeration container in the figure for clarity；

Fig. 3 is the top view of solar refrigeration container shown in Fig. 2；

Fig. 4 is the structure sectional view along line A-A in Fig. 3；

Fig. 5 is the side view of solar refrigeration container shown in Fig. 2；

Fig. 6 is the structure sectional view along line B-B in Fig. 5.

Specific embodiment:

Specific embodiment of the present utility model is described below in conjunction with attached drawing.

As shown in Figure 1, and combining Fig. 2 to Fig. 6, the solar refrigeration of a specific embodiment according to the present utility model Container includes solar electric power supply system 1, refrigeration system and container 7, wherein solar electric power supply system 1 includes solar panels 10, the inverter 12 being connect with solar panels 10, the battery 14 and controller 16 that are connect respectively with inverter 12；Refrigeration system Including refrigeration unit 3, cold-storage device 5 and blower 6, the blower is cross flow blower in the present embodiment；Container 7 includes Refrigerating chamber 70, cool room 72 and go out to enter the room 74.

Specifically, in the present embodiment, as shown in Figure 4 and Figure 6, the shell of refrigerating chamber 70 has insulating layer 71；Refrigeration Unit 3 is located in cool room 72, and including the compressor 30 being connect with controller 16, the condenser 32 being connect with compressor 30, One end connect the evaporator 34 that the other end is connect with compressor 30 with condenser 32；Cold-storage device 5 includes cold-storage material 50, cold-storage material Coil pipe 52 and cold-storage material circulating pump 54.Cold-storage material 50 is located in cool room 72 and is adjacently positioned with evaporator 34, cold-storage material coil pipe 52 are located in refrigerating chamber 70 and are connected to cold-storage material 50；Blower 6 is located in refrigerating chamber 70 and sets with 52 face of cold-storage material coil pipe It sets.

Refering to what is shown in Fig. 1, controller 16 is arranged to solar panels 10 when being in normal power generation state, i.e., when daytime, weather When sunny, control compressor 30 starts and runs, and carries out cold-storage by cold-storage device 5, and come from the sun by the deposit of battery 14 The extra electricity of energy plate 10, when solar panels 10 are in improper generating state, i.e., when night or rainy weather on daytime, control Compressor 30 processed is shut down, and by 5 released cold quantity of cold-storage device, and when the cooling capacity deficiency of cold-storage device 5, controller 16 passes through inversion Device 12 controls battery 14 and powers to compressor 30, so that being again started up compressor 30 is 5 cold-storage of cold-storage device.

In the present embodiment, it as shown in Figure 6 and refers to Fig. 4, cool room 72 and goes out to enter the room and 74 be located side by side at refrigerating chamber 70 One end, wherein cool room 72 include lower unit room 721 and upper cold storage chamber 723, compressor 30 and condenser 32 are located at lower unit In room 721, evaporator 34 is embedded in cold storage chamber 723 and arranges around cold-storage material 50.Specifically, in the present embodiment, It is U-shaped structure that evaporator 34, which is arranged to section, and cold-storage material 50 accommodates in the inner, so as to which cold-storage material 50 is effectively ensured from steaming It sends out device 34 and absorbs cooling capacity.As shown in figure 4, cold-storage material coil pipe 52 is located in the one side wall of close upper cold storage chamber 723 of refrigerating chamber 70, Blower 6 is located in refrigerating chamber 70 and in the surface of cold-storage material coil pipe 52, so that cooling capacity can be along shown in arrow in Fig. 4 Direction recycles in refrigerating chamber 70.In addition, it is necessary to explanation, upper cold storage chamber 723 is exactly a cold-storage in the present embodiment Agent storage bin.

In addition, Fig. 2, Fig. 3 and Fig. 6 can be clearly showed that, entering the room out 74 is provided with first for can be connected to outside and seal Door 75, refrigerating chamber 70 is provided with can be with the 74 second hermatic doors 73 being connected to of entering the room out.

In addition, as shown in Figure 1, being additionally provided with throttling set, such as throttle valve 36 between condenser 32 and evaporator 34.

The technology contents and technical characterstic of the utility model have revealed that as above, it being understood, however, that in the utility model Under creative ideas, those skilled in the art can make various changes and improve to above structure, including what is individually disclosed here Or the combination of claimed technical characteristic, and significantly include other combinations of these features.These deformations and/or combination It each falls in technical field involved in the utility model, and falls into the protection scope of the utility model claims.

Claims (7)

1. a kind of solar refrigeration container, it is characterised in that including solar electric power supply system, container and refrigeration system, the sun Energy power supply system includes solar panels, the inverter connecting with solar panels, the battery connecting respectively with inverter and control Device；Container includes refrigerating chamber, cool room and goes out to enter the room, and wherein the shell of refrigerating chamber has insulating layer；Refrigeration system includes system Cold group, cold-storage device and blower, wherein refrigeration unit be located in cool room and including compressor connected to the controller, The evaporator that condenser, one end and the condenser connection other end connecting with compressor are connect with compressor, cold-storage device include The cold-storage material being adjacently positioned in cool room and with evaporator and the cold-storage material disk being connected in refrigerating chamber and with cold-storage material Pipe, blower are located in refrigerating chamber and are arranged with the cold-storage material coil pipe face；Controller is arranged to solar panels and is in normal power generation It controls compressor start and runs when state, carries out cold-storage by cold-storage device, and by battery deposit from solar panels Extra electricity, it controls compressor shutdown when solar panels are in improper generating state, by cold-storage device released cold quantity, and works as When the cooling capacity deficiency of cold-storage device, controller powers to be again started up compressor to compressor by inverter control battery For cold-storage device cold-storage.

2. solar refrigeration container according to claim 1, which is characterized in that the cool room and it is described go out enter the room simultaneously It ranks in one end of the refrigerating chamber, wherein the cool room includes lower unit room and upper cold storage chamber, the compressor and described Condenser is located in lower unit room, and the evaporator is embedded in cold storage chamber and arranges around the cold-storage material.

3. solar refrigeration container according to claim 2, which is characterized in that the cold-storage material coil pipe is located at described cold It hides in the one side wall of the close upper cold storage chamber of room.

4. solar refrigeration container according to claim 3, which is characterized in that the cold-storage device further includes cold-storage material Circulating pump.

5. solar refrigeration container according to any one of claims 1 to 4, which is characterized in that the blower is through-flow Formula blower.

6. solar refrigeration container according to any one of claims 1 to 4, which is characterized in that the setting of entering the room out There is first of the hermatic door that can be connected to outside, the refrigerating chamber, which is provided with, to be sealed with the second being connected to of entering the room out Door.

7. solar refrigeration container according to claim 5, which is characterized in that described to go out to enter the room that be provided be with outside First of hermatic door of connection, the refrigerating chamber is provided with can be with the second hermatic door being connected to of entering the room out.