CN210952067U - Novel storage cabinet with energy storage function - Google Patents

Abstract

The utility model discloses a novel storage cabinet with energy storage function, include the air handling unit who links to each other with the cabinet body, including the foraminiferous first baffle in a plurality of layers between the internal storing of cabinet, the internal phase transition energy storage material who is separated by between second baffle and storing that is provided with of cabinet, the air handling unit is connected with temperature regulation unit and energy storage unit, the air handling unit, temperature regulation unit and energy storage unit all are connected with the controller, the internal temperature sensor who links to each other with the controller that is provided with of cabinet, humidity transducer and photosensitive sensor, the internal illuminating part that belongs to a supply circuit with temperature regulation unit that is provided with of cabinet, a controller, temperature sensor, humidity transducer and photosensitive sensor all are connected with low pressure stand-by power supply. The utility model discloses also can adjust the environment of the cabinet body under the outage state, the internal phase change energy storage material of cabinet can provide the replenishment when the energy storage unit energy exhausts simultaneously, can also reduce the fluctuation of the internal temperature and humidity of cabinet in addition, makes it be in stable state all the time.

Description

Novel storage cabinet with energy storage function

Technical Field

The utility model relates to an anticorrosive, anti-oxidation technical field especially indicates novel storage cabinet that has energy storage function.

Background

The storage of articles in places such as museums, libraries and the like has strict requirements on air quality, the articles need to be stored at specific temperature and humidity, and a plurality of units can cut off the power supply after work to prevent fire disasters and prevent constant-temperature and constant-humidity equipment in a storage room after power failure from working. In the traditional method, a UPS (uninterrupted Power System) Power supply is adopted for supplying Power, so that the normal work of equipment is ensured, and although the temperature and the moderate degree in a storage chamber are ensured and the environmental requirement of storing articles is met, the UPS Power supply is high in price, large in occupied area and flammable and has potential safety hazards.

At present, although a constant-temperature and constant-humidity storage cabinet exists after power failure, temperature and humidity cannot be accurately controlled, and the storage cabinet is always in a dynamic adjustment process. Because the storage of precision articles is influenced by the defect of large temperature and humidity fluctuation, the use and popularization of the products are severely limited.

Disclosure of Invention

Not enough to among the above-mentioned background art, the utility model provides a novel storage cabinet that has the energy storage function has solved the technical problem that temperature and humidity fluctuation is big in the current constant temperature and humidity storage cabinet.

The technical scheme of the utility model is realized like this: the novel storage cabinet with the energy storage function comprises an air processing unit connected with a cabinet body, and fresh air can be supplied into the cabinet body through the air processing unit; a storage room is arranged in the cabinet body, the storage room comprises a plurality of layers of first baffle plates with holes, phase change energy storage materials separated from the storage room by second baffle plates are arranged in the cabinet body, and through holes communicated with the phase change energy storage materials and the storage room are formed in the second baffle plates; the phase change energy storage material can compensate the humidity and the temperature in the cabinet body, and the temperature and the humidity in the cabinet body are prevented from generating large fluctuation. The air handling unit is connected with temperature regulation unit and energy storage unit, and temperature regulation unit can supply suitable temperature's cooling gas or heating gas to the air handling unit, and energy storage unit can be heat accumulation or cold-storage when normal power supply, and the energy that the energy storage unit holds can be through the air handling unit to the internal supply of cabinet after power supply circuit opens circuit. The air processing unit, the temperature adjusting unit and the energy storage unit are all connected with a controller, and a temperature sensor, a humidity sensor and a photosensitive sensor which are connected with the controller are arranged in the cabinet body; the controller can detect the internal temperature of cabinet or humidity according to temperature sensor, humidity transducer, and corresponding energy is supplied to the regulation and control temperature regulating unit, controls the energy storage unit and stores corresponding energy. The cabinet body is internally provided with a light-emitting piece which belongs to a power supply circuit together with the temperature adjusting unit, and the controller, the temperature sensor, the humidity sensor and the photosensitive sensor are all connected with a low-voltage standby power supply; under low pressure stand-by power supply's effect, the controller can normally work under the condition of temperature regulation unit weak point, and the controller can detect the light-emitting component according to photosensitive sensor and judge that temperature regulation unit has or not normal power supply operation, detects the temperature regulation unit outage back when the controller, and steerable energy storage unit provides corresponding regulation and control energy to the cabinet is internal.

The temperature adjusting unit comprises a first compressor, the first compressor is respectively connected with a first heat exchanger and a second heat exchanger, the first compressor, the first heat exchanger and the second heat exchanger form a refrigerating loop and a heating loop through a four-way electromagnetic reversing valve, and the first heat exchanger is a heat exchange end connected with the air processing unit. The controller makes heat transfer medium circulate along the heating loops of the first compressor, the first heat exchanger, the second heat exchanger and the first compressor by controlling the four-way electromagnetic directional valve, at the moment, the first heat exchanger plays a condensing role, and then heat generated by condensation can be conveyed to the air treatment unit, and the air treatment unit brings the heat generated by the first heat exchanger into the cabinet body. The controller can also control the four-way electromagnetic directional valve, so that the heat exchange medium circularly flows along the cooling loop of the first compressor, the second heat exchanger, the first heat exchanger and the first compressor, at the moment, the second heat exchanger plays a role in condensation and generates heat, the first heat exchanger plays a role in evaporation and gives off low temperature, and the air processing unit brings the low temperature given off by the first heat exchanger into the cabinet body.

The air treatment unit comprises an air supply pipeline and an air return pipeline which are connected with the cabinet body, the air treatment unit supplies air into the cabinet body through the air supply pipeline, and the air in the cabinet body is discharged through the air return pipeline; the air supply pipeline or/and the air return pipeline is/are provided with a first electromagnetic valve connected with the controller, and the controller can control the air in the cabinet body to be updated by controlling the first electromagnetic valve; an air treatment device is arranged between the air supply pipeline and the air return pipeline, the first heat exchanger forms a temperature adjusting loop with the air treatment device through a first air pipe, and heat generated by the first heat exchanger or low temperature emitted by the first heat exchanger can be conveyed into the cabinet body through the air treatment device.

The cabinet is provided with a plurality of thin pipelines and air curtain machines which are connected with an air return pipeline, each thin pipeline is provided with an electromagnetic valve which is connected with a controller, and the air curtain machines are connected with the controller. The controller can realize the adjustment of the air supply amount by starting and stopping the electromagnetic valve on the thin pipe; when the door of the storage cabinet is opened, the photosensitive sensor can detect corresponding signals, and the controller controls the air curtain machine to automatically operate according to the signals detected by the photosensitive sensor, so that the fluctuation of the temperature and the humidity in the storage cabinet is reduced.

The air treatment device comprises a first fan, a heat recovery module, a heat exchange module, a humidification module and an air mixing module which are sequentially connected, the first fan is connected with a return air pipeline, the air mixing module is connected with an air supply pipeline, the heat exchange module is connected with a controller, the heat recovery module and the air mixing module are connected with a first air pipe, corresponding energy generated by a first heat exchanger can circulate between the heat recovery module and the air mixing module through the first air pipe, and then the energy is recycled. The first air pipe is provided with a second electromagnetic valve connected with the controller, and the controller can control the temperature adjustment work of the cabinet body by the first heat exchanger through controlling the second electromagnetic valve.

Furthermore, the heat recovery module is connected with the first heat exchanger through the air handling unit and the second fan, the second fan can effectively promote energy circulation among the first heat exchanger, the heat recovery module and the air mixing module, and the air handling unit and the second fan are connected with the controller.

Further, a third electromagnetic valve connected with the controller is arranged between the second fan and the first heat exchanger.

The energy storage unit comprises a second compressor, the second compressor is connected with a condenser, the condenser is connected with a heat storage phase change energy storage material bin, the heat storage phase change energy storage material bin forms a heating loop with the air processing unit through a second air pipe, and an air supply end and an air return end of the second air pipe are both provided with control heating electromagnetic valves connected with the controller.

The energy storage unit comprises an evaporator connected with the second compressor, the evaporator is connected with a cold accumulation phase change energy storage material bin, the cold accumulation phase change energy storage material bin forms a cooling loop with the air treatment unit through a third air pipe, and the air supply end and the air return end of the third air pipe are both provided with control cooling electromagnetic valves.

Furthermore, the control heating solenoid valve and the control cooling solenoid valve are shared solenoid valves and comprise a return air three-way electromagnetic directional valve and an air supply three-way electromagnetic directional valve, the return air three-way electromagnetic directional valve is connected between the return air end of the first air pipe, the return air end of the second air pipe and the return air end of the third air pipe, and the return air three-way electromagnetic directional valve is connected between the air supply end of the first air pipe, the air supply end of the second air pipe and the air supply end of the third air pipe.

The utility model discloses can internal temperature and humidity of accurate switch board, even under the outage state, the controller also can the automatic control energy storage unit carry out constant temperature, constant humidity to the environment of the cabinet body and adjust, and the internal phase change energy storage material of cabinet can carry out further compensation to the internal environment of cabinet simultaneously, provides the replenishment when the energy storage unit energy exhausts, can also reduce the fluctuation of humiture when the internal environment of cabinet changes, makes it be in stable state all the time. The energy storage unit of the utility model stores energy through the phase-change energy storage material when in normal power supply, and the phase-change energy storage technology stores energy by utilizing the characteristic of absorbing and releasing heat in the phase-change material state change process; when the environment temperature is higher than the phase change temperature, the phase change material is melted or gasified to absorb and store heat; on the contrary, when the environmental temperature is lower than the phase-change temperature, the phase-change material is condensed or solidified to release heat, thereby achieving the effects of adjusting the environmental temperature and storing energy.

Drawings

In order to illustrate the embodiments of the present invention more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and that other drawings can be obtained by those skilled in the art without inventive work.

FIG. 1 is a schematic diagram of the principle structure of the present invention;

FIG. 2 is a schematic view of the air treatment apparatus of FIG. 1;

FIG. 3 is a cross-sectional view taken along the line A-A in FIG. 1;

fig. 4 is a schematic structural diagram of the cabinet body of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without any creative effort belong to the protection scope of the present invention.

As shown in fig. 1, the novel storage cabinet with an energy storage function comprises an air processing unit 200 connected with a cabinet body 1, and fresh air can be supplied into the cabinet body 1 through the air processing unit 200; as shown in fig. 3 and 4, a storage room 32 is arranged in the cabinet body 1, the storage room 32 includes a plurality of layers of first baffle plates 31 with holes, a phase change energy storage material 29 separated from the storage room 32 by a second baffle plate 30 is arranged in the cabinet body 1, and the second baffle plate 30 is provided with a through hole for communicating the phase change energy storage material 29 with the storage room 32; the phase change energy storage material 29 can compensate for the humidity and temperature in the cabinet 1, and avoid the temperature and humidity in the cabinet 1 from generating large fluctuation. The air processing unit 200 is connected with a temperature adjusting unit 300 and an energy storage unit 400, the temperature adjusting unit 300 can supply cooling gas or heating gas with proper temperature to the air processing unit 200, the energy storage unit 400 can store heat or cold during normal power supply, and the energy stored by the energy storage unit 400 can be supplied to the cabinet 1 through the air processing unit 200 after the power supply circuit is disconnected.

The air processing unit 200, the temperature adjusting unit 300 and the energy storage unit 400 are all connected with a controller, and a temperature sensor, a humidity sensor and a photosensitive sensor which are connected with the controller are arranged in the cabinet body 1; the controller can detect the temperature or humidity in the cabinet 1 according to the temperature sensor and the humidity sensor, regulate and control the temperature adjusting unit 300 to supply corresponding energy to the cabinet 1 through the air processing unit 200, and the controller can also control the energy storage unit 400 to store the corresponding energy.

A light-emitting part 16 which belongs to a power supply circuit with the temperature adjusting unit 300 is arranged in the cabinet body 1, and the controller, the temperature sensor, the humidity sensor and the photosensitive sensor are all connected with a low-voltage standby power supply; under the effect of low pressure stand-by power supply, the controller can normally work under the condition of temperature regulation unit 300 short point, and the controller can detect light-emitting component 16 according to photosensitive sensor and judge that temperature regulation unit 300 has or not normal power supply operation, detects the back that temperature regulation unit 300 cuts off the power supply when the controller, and steerable energy storage unit 400 provides corresponding regulation and control energy to cabinet 1 is inside.

Specifically, the temperature adjustment unit 300 includes a first compressor 18, the first compressor 18 is connected to a first heat exchanger 3 and a second heat exchanger 4 respectively, the first compressor 18, the first heat exchanger 3, and the second heat exchanger 4 form a refrigeration loop and a heating loop through a four-way electromagnetic directional valve 17, and the first heat exchanger 3 is a heat exchange end connected to the air processing unit 200.

The controller enables the heat exchange medium to circularly flow along the first compressor 18, the first heat exchanger 3, the second heat exchanger 4 and the heating loop of the first compressor 18 by controlling the four-way electromagnetic directional valve 17, at the moment, the first heat exchanger 3 plays a role in condensation, further heat generated by condensation can be conveyed to the air processing unit 200, and the air processing unit 200 brings the heat generated by the first heat exchanger 3 into the cabinet body 1.

Further, a plurality of thin pipelines 27 and air curtains 28 connected with the return air pipeline 7 are arranged in the cabinet body 1, each thin pipeline 27 is provided with an electromagnetic valve connected with a controller, and the air curtains 28 are connected with the controller. The controller can realize the adjustment of the air supply amount by starting and stopping the solenoid valve on the thin pipeline 27; when the door of the cabinet is opened, the light sensor detects a corresponding signal, and the controller controls the air curtain machine 28 to automatically operate according to the signal detected by the light sensor, thereby reducing the fluctuation of the temperature and humidity in the cabinet.

The controller enables the heat exchange medium to circularly flow along the cooling loops of the first compressor 18, the second heat exchanger 4, the first heat exchanger 3 and the first compressor 18 by controlling the four-way electromagnetic directional valve 17, at the moment, the second heat exchanger 4 plays a role of condensation to generate heat, the first heat exchanger 3 plays a role of evaporation to emit low temperature, and the air processing unit 200 brings the low temperature emitted by the first heat exchanger 3 into the cabinet body 1.

The air processing unit 200 comprises an air supply pipeline 8 and an air return pipeline 7 which are connected with the cabinet body 1, the air processing unit 200 supplies air into the cabinet body 1 through the air supply pipeline 8, and exhausts the air in the cabinet body 1 through the air return pipeline 7; the air supply duct 8 is provided with a first electromagnetic valve 21 connected with a controller, and the controller can control the air in the cabinet body 1 to be refreshed by controlling the first electromagnetic valve 21. An air treatment device 2 is arranged between the air supply pipeline 8 and the air return pipeline 7, the first heat exchanger 3 forms a temperature adjusting loop with the air treatment device 2 through a first air pipe, and heat generated by the first heat exchanger 3 or low temperature emitted by the first heat exchanger can be conveyed into the cabinet body 1 through the air treatment device 2.

As shown in fig. 2, the air treatment device 2 includes a first fan 9, a heat recovery module 10, a heat exchange module 12, a humidification module 13 and an air mixing module 14 which are connected in sequence, the first fan 9 is connected with the return air duct 7, the air mixing module 14 is connected with the supply air duct 8, the heat exchange module 12 is connected with the controller, the heat recovery module 10 and the air mixing module 14 are connected with the first air pipe, and corresponding energy generated by the first heat exchanger 3 can circulate between the heat recovery module 10 and the air mixing module 14 through the first air pipe, so as to realize the cyclic utilization of the energy. The first air pipe is provided with a second electromagnetic valve 22 connected with the controller, and the controller can control the temperature adjustment work of the first heat exchanger 3 on the cabinet body 1 by controlling the second electromagnetic valve 22.

The heat recovery module 10 is connected with the first heat exchanger 3 through the air handling unit 15 and the second fan 20, and the second fan 20 can effectively promote energy circulation among the first heat exchanger 3, the heat recovery module 10 and the air mixing module 14; the air handling unit 15 and the second fan 20 are both connected to a controller, and the controller can control the working states of the air handling unit 15 and the second fan 20 in real time.

Further, a third electromagnetic valve 23 connected with the controller is arranged between the second fan 20 and the first heat exchanger 3.

The energy storage unit 400 comprises a second compressor 19, the second compressor 19 is connected with a condenser 5, the condenser 5 is connected with a heat storage phase change energy storage material bin, the heat storage phase change energy storage material bin forms a heating loop with the air processing unit 200 through a second air pipe, and an air supply end and an air return end of the second air pipe are both provided with control heating electromagnetic valves connected with a controller.

The energy storage unit 400 further comprises an evaporator 6 connected with the second compressor 19, the evaporator 6 is connected with a cold accumulation phase change energy storage material bin, the cold accumulation phase change energy storage material bin forms a cooling loop with the air processing unit 200 through a third air pipe, and an air supply end and an air return end of the third air pipe are both provided with control cooling electromagnetic valves.

Furthermore, the control heating solenoid valve and the control cooling solenoid valve are shared solenoid valves and comprise a return air three-way electromagnetic directional valve 24 and an air supply three-way electromagnetic directional valve 25, the return air three-way electromagnetic directional valve 24 is connected between the return air end of the first air pipe, the return air end of the second air pipe and the return air end of the third air pipe, and the return air three-way electromagnetic directional valve 24 is connected between the air supply end of the first air pipe, the air supply end of the second air pipe and the air supply end of the third air pipe.

The utility model discloses two mode have:

the first working mode is as follows: when the temperature sensor and the humidity sensor detect that the temperature or the humidity in the storage room exceeds a set range, the controller controls the first electromagnetic valve 21, the second electromagnetic valve 22 and the third electromagnetic valve 23 to be opened, controls the air return three-way electromagnetic directional valve 24 and the air supply three-way electromagnetic directional valve 25 to be closed and controls the energy storage unit to store energy under the condition of no power failure; the temperature adjusting unit 300 can supply fresh air for adjustment into the cabinet 1 through the air processing unit 200; meanwhile, the phase change energy storage material 29 in the cabinet body 1 can play a compensation role, so that the environment in the cabinet body 1 is always in a relatively stable state.

And a second working mode: when the photosensitive sensor detects that the temperature adjusting unit 300 is powered off, the temperature adjusting unit 300 does not work at this time, the controller controls the first electromagnetic valve 21 to be opened, controls the return air three-way electromagnetic directional valve 24 and the air supply three-way electromagnetic directional valve 25 to open corresponding heating or cooling circulation ports, and controls the second electromagnetic valve 22 and the third electromagnetic valve 23 to be closed, so that the energy storage unit 400 can supply fresh air for adjustment to the cabinet body 1 through the air processing unit 200; meanwhile, the phase change energy storage material 29 in the cabinet body 1 can play a compensation role, so that the environment in the cabinet body 1 is always in a relatively stable state.

And a third working mode: when the photosensitive sensor detects that the temperature adjusting unit 300 is powered off, the temperature adjusting unit 300 does not work at this time, the controller controls the first electromagnetic valve 21 to be opened, controls the return air three-way electromagnetic directional valve 24 and the air supply three-way electromagnetic directional valve 25 to open corresponding heating or cooling circulation ports, controls the second electromagnetic valve 22 and the third electromagnetic valve 23 to be closed, and then the energy storage unit 400 can supply fresh air for adjustment to the cabinet body 1 through the air processing unit 200.

When the energy stored in the energy storage unit 400 is used up, the phase change energy storage material 29 in the cabinet 1 is automatically started to continue to maintain the stability of the environment in the cabinet 1; the thin pipelines 27 are uniformly distributed above the first baffle 31, the air curtain machine 28 is connected with the air curtain machine pipelines, and when the door of the storage chamber is opened, the controller controls the first electromagnetic valve 21, the second electromagnetic valve 22 and the third electromagnetic valve 23 to be automatically opened and controls the air curtain machine 28 to be started at the same time.

The present invention is not exhaustive and is well known to those skilled in the art.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. Novel storage cabinet that has energy storage function, including air handling unit (200) that link to each other with the cabinet body (1), its characterized in that: be provided with between the storing (32) in the cabinet body (1), between the storing (32) include foraminiferous first baffle (31) of a plurality of layers, be provided with in the cabinet body (1) through phase change energy storage material (29) that second baffle (30) and storing (32) are separated by, be provided with the through-hole between intercommunication phase change energy storage material (29) and storing (32) on second baffle (30), air treatment unit (200) are connected with temperature regulation unit (300) and energy storage unit (400), and air treatment unit (200), temperature regulation unit (300) and energy storage unit (400) all are connected with the controller, are provided with temperature sensor, humidity transducer and the photosensitive sensor that link to each other with the controller in the cabinet body (1), are provided with in the cabinet body (1) and belong to a power supply circuit's illuminating part (16) with temperature regulation unit (300), controller, temperature sensor, The humidity sensor and the photosensitive sensor are both connected with a low-voltage standby power supply.

2. The new storage cabinet with energy storage function as claimed in claim 1, wherein: the temperature adjusting unit (300) comprises a first compressor (18), the first compressor (18) is connected with a first heat exchanger (3) and a second heat exchanger (4) respectively, the first compressor (18), the first heat exchanger (3) and the second heat exchanger (4) form a refrigerating loop and a heating loop through a four-way electromagnetic reversing valve (17), and the first heat exchanger (3) is a heat exchange end connected with the air processing unit (200).

3. The new storage cabinet with energy storage function as claimed in claim 2, wherein: the air treatment unit (200) comprises an air supply pipeline (8) and an air return pipeline (7) which are connected with the cabinet body (1), a first electromagnetic valve (21) connected with the controller is arranged on the air supply pipeline (8) or/and the air return pipeline (7), an air treatment device (2) is arranged between the air supply pipeline (8) and the air return pipeline (7), and the first heat exchanger (3) forms a temperature adjusting loop with the air treatment device (2) through a first air pipe.

4. The novel storage cabinet with energy storage function as claimed in claim 3, wherein: a plurality of thin pipelines (27) and air curtains (28) which are connected with the return air pipeline (7) are arranged in the cabinet body (1), electromagnetic valves which are connected with a controller are arranged on the thin pipelines (27), and the air curtains (28) are connected with the controller.

5. The novel storage cabinet with energy storage function as claimed in claim 3 or 4, wherein: air treatment facilities (2) are including first fan (9), heat recovery module (10), heat transfer module (12), humidification module (13) and air mixing module (14) that connect gradually, and first fan (9) link to each other with return air duct (7), and air mixing module (14) link to each other with supply air duct (8), and heat transfer module (12) link to each other with the controller, and heat recovery module (10) and air mixing module (14) are connected first tuber pipe is provided with second solenoid valve (22) that link to each other with the controller on the first tuber pipe.

6. The new storage cabinet with energy storage function as claimed in claim 5, wherein: the heat recovery module (10) is connected with the first heat exchanger (3) through an air handling unit (15) and a second fan (20), and the air handling unit (15) and the second fan (20) are connected with the controller.

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