CN110375472A - A kind of refrigerating method of the fresh self-carry cabinet of heat energy utilization - Google Patents

Abstract

The present invention provides a kind of refrigerating method of fresh self-carry cabinet of heat energy utilization, it is related to the refrigeration technology field of fresh self-carry cabinet, including bottom plate, the upper end face of bottom plate is fixedly connected with cooling chamber, the upper end face of bottom plate is fixedly connected with mounting shell, the inner wall of mounting shell is fixedly connected with refrigeration mechanism, and the right side wall of cooling chamber is communicated with infusion pump and the second conduit, and the second conduit and infusion pump are located in the same vertical plane.In the present invention, changed using the thermistor inside temperature sensor with temperature and is changed, to make the current value inside by temperature sensor change, the current value that temperature sensor is passed back to fluctuation is compared processing using central processing unit, compressor and expansion valve are regulated and controled by the electric current that central processing unit exports corresponding variable quantity, to reach for the problem that the practical refrigeration effect of evaporator the working condition that compressor and expansion valve is adjusted, solving can not real-time monitoring refrigeration.

Description

A kind of refrigerating method of the fresh self-carry cabinet of heat energy utilization

Technical field

The present invention relates to the systems of the refrigeration technology field of fresh self-carry cabinet more particularly to a kind of fresh self-carry cabinet of heat energy utilization Cooling method.

Background technique

With the development and progress of society, more and more food such as fresh enter daily life, to everybody life Work provides various conveniences, wherein fresh self-carry cabinet solves fresh food materials, from peddling into purchasing process, fresh meeting is rotten to be asked Topic.

Now make fresh self-carry cabinet to it is fresh in the process of processing the problem is that:

1, the refrigeration modes of fresh self-carry cabinet are freezed using traditional compression, can not adjust the rate of refrigeration in time；

2, the long-term overload work of compressor will lead to overheat of compressor when fresh self-carry cabinet freezes, and shortens compressor and uses The problem of service life.

Summary of the invention

The purpose of the present invention is to provide a kind of refrigerating methods of the fresh self-carry cabinet of heat energy utilization, are asked with solving above-mentioned technology Topic.

The present invention using following technical scheme in order to solve the above technical problems, realized: a kind of fresh self-carry of heat energy utilization The refrigerating method of cabinet, including bottom plate, the upper end face of the bottom plate are fixedly connected with cooling chamber, and the upper end face of the bottom plate is solid Surely it is connected with mounting shell, the inner wall of the mounting shell is fixedly connected with refrigeration mechanism, and the right side wall of the cooling chamber is communicated with defeated Liquid pump and the second conduit, second conduit and infusion pump are located in the same vertical plane, and the second conduit is located at infusion pump Lower section, the infusion pump extend transversely through cooling chamber and mounting shell two walls close to each other, the infusion pump far from cooling chamber one End is communicated with the first conduit, and first conduit is communicated with processing pipe far from one end of infusion pump, and the processing pipe is far from first One end of conduit is communicated with the second conduit, the surface of second conduit extend transversely through cooling chamber and mounting shell it is close to each other two Wall, the inner wall of the processing pipe slidably connect strainer, and the left side side wall of the strainer is fixedly connected with spring, the processing pipe Inner wall be fixedly connected with mounting rack, the one end of the spring far from strainer is fixedly connected with mounting rack surface.

The refrigeration mechanism includes the central processing unit being fixedly connected with mounting shell inner wall, the I/O of the central processing unit Terminal is electrically connected by the output terminal of conducting wire and temperature sensor, the I/O terminal of the central processing unit by conducting wire with Buzzer input terminal is electrically connected, and the I/O terminal of the central processing unit is electrically connected by conducting wire and regulating and controlling mechanism, described The power input of central processing unit is electrically connected by conducting wire and transformer, input terminal and the utility grid electricity of the transformer Property connection, the output end of the transformer is electrically connected by conducting wire and regulating and controlling mechanism.

Preferably, the regulating and controlling mechanism includes the compressor, diversion pipe and expansion valve being fixedly connected with mounting shell inner wall, institute The output end for stating compressor is communicated with condenser by diversion pipe, and the condenser port is connected by diversion pipe with expansion valve Logical, the expansion valve is connected by diversion pipe with evaporator far from one end port of condenser, and the port of the evaporator is logical Diversion pipe is crossed to be connected with compressor input terminal.

Preferably, the bottom end outer wall of the processing pipe is fixedly connected with mounting shell inner wall, and processing pipe is u-shaped, described The bottom end outer wall of processing pipe is communicated with solenoid valve, and the signal port of the solenoid valve and the I/O interface of central processing unit electrically connect It connects, the power input terminal of the solenoid valve and the output end of transformer are electrically connected.

Preferably, the condenser is located at the right hand external of mounting shell, and the bottom end of the condenser and the outer wall of bottom plate are solid Fixed connection.

Preferably, the evaporator is located at the left hand external of mounting shell, and the surface of evaporator is fixed with cooling chamber interior walls Connection.

Preferably, the diversion pipe extends transversely through wall at left and right sides of mounting shell, and diversion pipe runs through the right side side of cooling chamber Wall.

Preferably, the output end of the transformer is electrical with the power input of expansion valve and compressor respectively by conducting wire Connection.

The beneficial effects of the present invention are:

1, a kind of refrigerating method of the fresh self-carry cabinet of heat energy utilization, using the thermistor inside temperature sensor with temperature Degree changes and changes, so that the current value inside by temperature sensor be made to change, is passed temperature using central processing unit The current value that sensor is passed back to fluctuation is compared processing, to export the electric current pair of corresponding variable quantity by central processing unit Compressor and expansion valve are regulated and controled, and compressor and expansion is adjusted to reach for the practical refrigeration effect of evaporator The working condition of valve, solving the problems, such as can not real-time monitoring refrigeration.

2, a kind of refrigerating method of the fresh self-carry cabinet of heat energy utilization, is passed through the air inside cooling chamber using infusion pump First conduit is transported to inside the processing pipe of U-shaped, and the air-flow conveyed by infusion pump is through filter screen, to carry out to air-flow Filter reduces pollution of the granule foreign to cooling chamber, and handling pipe using U-shaped has the function of gas buffer, when strainer occurs When blocking, the gas push strainer of infusion pump blowout squeezes spring, to make strainer vibration to be adsorbed on filter using spring The particle of net surface is shaken off down, using by the air cooled down inside cooling chamber pump to inside U-shaped to compressor into Row cooling avoids the problem that the work of compressor long-term overheat reduces the service life.

Detailed description of the invention

Fig. 1 is a kind of schematic perspective view of the refrigerating method of the fresh self-carry cabinet of heat energy utilization in the present invention；

Fig. 2 is a kind of refrigeration mechanism flow diagram of the refrigerating method of the fresh self-carry cabinet of heat energy utilization in the present invention；

Fig. 3 is a kind of regulating and controlling mechanism flow diagram of the refrigerating method of the fresh self-carry cabinet of heat energy utilization in the present invention；

Fig. 4 is a kind of processing pipe structural schematic diagram of the refrigerating method of the fresh self-carry cabinet of heat energy utilization in the present invention.

Appended drawing reference: 1, bottom plate；2, cooling chamber；3, refrigeration mechanism；301, central processing unit；302, transformer；303, warm Spend sensor；304, buzzer；305, regulating and controlling mechanism；3051, compressor；3052, diversion pipe；3053, evaporator；3054, swollen Swollen valve；3055, condenser；4, mounting shell；5, infusion pump；6, the first conduit；7, the second conduit；8, processing pipe；9, utility grid； 10, solenoid valve；11, strainer；12, spring；13, mounting rack.

Specific embodiment

In order to be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, tie below Specific embodiments and the drawings are closed, the present invention is further explained, and however, the following embodiments are merely preferred embodiments of the present invention, not All.Based on the implementation example in the implementation mode, those skilled in the art are obtained without making creative work Other embodiments belong to protection scope of the present invention.

Specific embodiments of the present invention are described with reference to the accompanying drawing.

The present embodiment 1, as shown in Figure 1, Figure 2, Figure 3 and Figure 4, a kind of refrigerating method of the fresh self-carry cabinet of heat energy utilization, packet Bottom plate 1 is included, the upper end face of bottom plate 1 is fixedly connected with cooling chamber 2, and the upper end face of bottom plate 1 is fixedly connected with mounting shell 4, peace The inner wall of dress shell 4 is fixedly connected with refrigeration mechanism 3, and the right side wall of cooling chamber 2 is communicated with infusion pump 5 and the second conduit 7, and second leads Pipe 7 and infusion pump 5 are located in the same vertical plane, and the second conduit 7 is located at the lower section of infusion pump 5, and infusion pump 5 extends transversely through Cooling chamber 2 and two walls close to each other of mounting shell 4, infusion pump 5 are communicated with the first conduit 6 far from one end of cooling chamber 2, and first leads Pipe 6 is communicated with processing pipe 8 far from one end of infusion pump 5, handles pipe 8 far from one end of the first conduit 6 and is communicated with the second conduit 7, The surface of second conduit 7 extends transversely through cooling chamber 2 and two walls close to each other of mounting shell 4, and the inner wall of processing pipe 8 slidably connects Strainer 11, the left side side wall of strainer 11 are fixedly connected with spring 12, and the inner wall of processing pipe 8 is fixedly connected with mounting rack 13, spring 12 one end far from strainer 11 is fixedly connected with 13 surface of mounting rack.

The specifically specific setting and effect of refrigeration mechanism 3 and regulating and controlling mechanism 305 once below:

As shown in Figure 1, Figure 2 and Figure 3, refrigeration mechanism 3 includes the central processing unit 301 being fixedly connected with 4 inner wall of mounting shell, The I/O terminal of central processing unit 301 is electrically connected by the output terminal of conducting wire and temperature sensor 303, transformer 302 Output end is electrically connected with the power input of expansion valve 3054 and compressor 3051 respectively by conducting wire, central processing unit 301 I/O terminal be electrically connected by conducting wire and 304 input terminal of buzzer, the I/O terminal of central processing unit 301 by conducting wire with Regulating and controlling mechanism 305 is electrically connected, and the power input of central processing unit 301 is electrically connected by conducting wire and transformer 302, transformation The input terminal and utility grid 9 of device 302 are electrically connected, and the output end of transformer 302 is electrically connected by conducting wire with regulating and controlling mechanism 305 It connects, temperature sensor 303 is located on the inner wall of cooling chamber 2.

As shown in Figure 1, Figure 2 and Figure 3, entire effect refrigeration mechanism 3 motion principle and reached are as follows: utilize temperature sensing Thermistor inside device 303 changes with temperature and is changed, to make to change by the current value inside temperature sensor 303 Become, the current value that temperature sensor 303 is passed back to fluctuation is compared processing using central processing unit 301, thus in passing through The electric current that central processor 301 exports corresponding variable quantity regulates and controls compressor 3051 and expansion valve 3054.To reach The working condition of compressor 3051 Yu expansion valve 3054 is adjusted for the practical refrigeration effect of evaporator 3053, solves nothing The problem of method real-time monitoring freezes.

As shown in Figure 1, Figure 2 and Figure 3, regulating and controlling mechanism 305 include the compressor 3051 being fixedly connected with 4 inner wall of mounting shell, The output end of diversion pipe 3052 and expansion valve 3054, compressor 3051 is communicated with condenser 3055 by diversion pipe 3052, condenses Device 3055 is located at the right hand external of mounting shell 4, and the bottom end of condenser 3055 is fixedly connected with the outer wall of bottom plate 1, condenser 3055 Port is connected by diversion pipe 3052 with expansion valve 3054, and diversion pipe 3052 extends transversely through 4 left and right sides wall of mounting shell, and leads Flow tube 3052 runs through the right sidewall of cooling chamber 2, and evaporator 3053 is located at the left hand external of mounting shell 4, and evaporator 3053 Surface is fixedly connected with 2 inner wall of cooling chamber, expansion valve 3054 far from condenser 3055 one end port by diversion pipe 3052 with Evaporator 3053 is connected, and the port of evaporator 3053 is connected by diversion pipe 3052 with 3051 input terminal of compressor.

As shown in Figure 1, Figure 2 and Figure 3, entire effect regulating and controlling mechanism 305 motion principle and reached are as follows: pass through compressor Refrigerant is carried out compression by 3051 to be transmitted to inside condenser 3055 by diversion pipe 3052 through the condensation heat release of condenser 3055, Coolant is conducting to the inside of evaporator 3053 using expansion valve 3054 and diversion pipe 3052, using refrigerant evaporation to Heat absorption reduces by 2 internal temperature of cooling chamber.

As shown in Figure 1, Figure 2, Figure 3 and Figure 4, the bottom end outer wall for handling pipe 8 is fixedly connected with 4 inner wall of mounting shell, and is handled Pipe 8 is u-shaped, and the bottom end outer wall of processing pipe 8 is communicated with solenoid valve 10, the signal port and central processing unit 301 of solenoid valve 10 I/O interface be electrically connected, the output end of the power input terminal of solenoid valve 10 and transformer 302 is electrically connected.

The working principle of entire mechanism are as follows: using the voltage of 302 utility grid 9 of transformer be converted into central processing unit 301, The voltage of compressor 3051 and expansion valve 3054 is changed with temperature using the thermistor inside temperature sensor 303 and is changed Become, to make to change by the current value inside temperature sensor 303, using central processing unit 301 by temperature sensor 303 current values for being passed back to fluctuation are compared processing, to export the electric current of corresponding variable quantity by central processing unit 301 Compressor 3051 and expansion valve 3054 are regulated and controled.It is carried out to reach for the practical refrigeration effect of evaporator 3053 The working condition for adjusting compressor 3051 and expansion valve 3054, passes through centre when temperature sensor 303 experiences temperature imbalance Reason device 301 drives buzzer 304 to pipe alarm, and the air inside cooling chamber 2 is passed through the first conduit 6 and is transported to U-shaped by infusion pump 5 Inside the processing pipe 8 of shape, the air-flow conveyed by infusion pump 5 is through filter screen 11, to be filtered to air-flow, it is miscellaneous to reduce particle The pollution of confrontation cooling chamber 2 has the function of using U-shaped processing pipe 8 by gas buffer, defeated when strainer 11 blocks The gas push strainer 11 that liquid pump 5 is blown out squeezes spring 12, to make the vibration of strainer 11 to be adsorbed on filter using spring 12 The particle on 11 surface of net is shaken off down, pumps to inside U-shaped using by air cooling inside cooling chamber 2 to compressor 3051 cool down, and avoid the problem that the work of 3051 long-term overheat of compressor reduces the service life.

In the present invention unless specifically defined or limited otherwise, fisrt feature second feature "upper" or "lower" It may include that the first and second features directly contact, also may include that the first and second features are not direct contacts but pass through it Between other characterisation contact.Moreover, fisrt feature includes the first spy above the second feature " above ", " above " and " above " Sign is right above second feature and oblique upper, or is merely representative of first feature horizontal height higher than second feature.Fisrt feature exists Second feature " under ", " lower section " and " following " include that fisrt feature is directly below and diagonally below the second feature, or is merely representative of First feature horizontal height is less than second feature.

The basic principles, main features and advantages of the present invention have been shown and described above.The technology of the industry For personnel it should be appreciated that the present invention is not limited to the above embodiments, described in the above embodiment and specification is only the present invention Preference, be not intended to limit the invention, without departing from the spirit and scope of the present invention, the present invention also has various Changes and improvements, these changes and improvements all fall within the protetion scope of the claimed invention.The claimed scope of the invention is by institute Attached claims and its equivalent thereof.

Claims (7)

1. a kind of refrigerating method of the fresh self-carry cabinet of heat energy utilization, including bottom plate, it is characterised in that: the upper end face of the bottom plate It is fixedly connected with cooling chamber, the upper end face of the bottom plate is fixedly connected with mounting shell, and the inner wall of the mounting shell is fixedly connected There is refrigeration mechanism, the right side wall of the cooling chamber is communicated with infusion pump and the second conduit, and the infusion pump extends transversely through cooling chamber Two walls close to each other with mounting shell, the infusion pump are communicated with the first conduit, first conduit far from one end of cooling chamber One end far from infusion pump is communicated with processing pipe, and the processing manages one end far from the first conduit and is communicated with the second conduit, described The surface of second conduit extends transversely through cooling chamber and mounting shell two walls close to each other, and the inner wall of the processing pipe slidably connects Strainer, the left side side wall of the strainer are fixedly connected with spring, and the inner wall of the processing pipe is fixedly connected with mounting rack, the bullet The one end of spring far from strainer is fixedly connected with mounting rack surface；

The refrigeration mechanism includes the central processing unit being fixedly connected with mounting shell inner wall, the I/O terminal of the central processing unit It is electrically connected by the output terminal of conducting wire and temperature sensor, the I/O terminal of the central processing unit passes through conducting wire and buzzing Device input terminal is electrically connected, and the I/O terminal of the central processing unit is electrically connected by conducting wire and regulating and controlling mechanism, the center The power input of processor is electrically connected by conducting wire and transformer, and the input terminal of the transformer electrically connects with utility grid It connects, the output end of the transformer is electrically connected by conducting wire and regulating and controlling mechanism.

2. a kind of refrigerating method of the fresh self-carry cabinet of heat energy utilization according to claim 1, it is characterised in that: the regulation Mechanism includes the compressor, diversion pipe and expansion valve being fixedly connected with mounting shell inner wall, and the output end of the compressor is by leading Flow tube is communicated with condenser, and the condenser port is connected by diversion pipe with expansion valve, and the expansion valve is far from condenser One end port be connected by diversion pipe with evaporator, the port of the evaporator passes through diversion pipe and compressor input terminal phase Connection.

3. a kind of refrigerating method of the fresh self-carry cabinet of heat energy utilization according to claim 1, it is characterised in that: the processing The bottom end outer wall of pipe is fixedly connected with mounting shell inner wall, and processing pipe is u-shaped, and the bottom end outer wall of the processing pipe is communicated with electricity Magnet valve.

4. a kind of refrigerating method of the fresh self-carry cabinet of heat energy utilization according to claim 2, it is characterised in that: the condensation Device is located at the right hand external of mounting shell, and the bottom end of the condenser is fixedly connected with the outer wall of bottom plate.

5. a kind of refrigerating method of the fresh self-carry cabinet of heat energy utilization according to claim 2, it is characterised in that: the evaporation Device is located at the left hand external of mounting shell, and the surface of evaporator is fixedly connected with cooling chamber interior walls.

6. a kind of refrigerating method of the fresh self-carry cabinet of heat energy utilization according to claim 2, it is characterised in that: the water conservancy diversion Pipe extends transversely through wall at left and right sides of mounting shell, and diversion pipe runs through the right sidewall of cooling chamber.

7. a kind of refrigerating method of the fresh self-carry cabinet of heat energy utilization according to claim 1, it is characterised in that: the transformation The output end of device is electrically connected with the power input of expansion valve and compressor respectively by conducting wire.