CN214791988U - Refrigerating system of cold-carrying type refrigerated container - Google Patents
Refrigerating system of cold-carrying type refrigerated container Download PDFInfo
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- CN214791988U CN214791988U CN202120257384.0U CN202120257384U CN214791988U CN 214791988 U CN214791988 U CN 214791988U CN 202120257384 U CN202120257384 U CN 202120257384U CN 214791988 U CN214791988 U CN 214791988U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/14—Thermal energy storage
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Abstract
The utility model discloses a carry cold type refrigerated container refrigerating system, including compressor refrigeration flow and the year cold release flow through the heat exchanger hookup. The flow of the refrigerator adopts a conventional compressor refrigeration system, and then the conventional compressor refrigeration system is used for evaporating and refrigerating in a heat exchanger. The cold-carrying releasing process comprises liquid storage tanks (a plurality of liquid storage tanks) which are independently insulated and stored, an internal circulating pump, a three-way regulating valve, a tank circulating pump and an in-tank refrigerating passage, and is connected with a heat exchanger. In the cold carrying process, the refrigerating unit starts to refrigerate, the three-way regulating valve opens the internal circulation passage, the internal circulation pump starts, and the cold carrying liquid in the liquid storage tank is driven to exchange heat through the heat exchanger so as to absorb heat in the cold carrying liquid. When the interior of the box needs to be refrigerated, the three-way regulating valve opens a refrigerating passage between the liquid storage tank and the interior of the box, and the cold-carrying liquid enters the box through the box circulating pump to absorb heat in the box.
Description
Technical Field
The utility model relates to a refrigerated container technical field especially relates to a carry cold type refrigerated container refrigerating system.
Background
Refrigerated container technology is well established at present, but with respect to the current technology, there are still some problems:
1. after the refrigerated goods are loaded, the temperature in the refrigerating box can be quickly brought to the safe storage temperature by using larger refrigerating power, and in order to achieve the condition, the temperature is often required to be achieved by using larger refrigerating power, and particularly, when the temperature is very high in summer, the refrigerating condition is achieved at the same time, and very high energy is also required to be consumed.
2. The high-power refrigeration evaporation needs the participation of a large amount of liquid refrigerants, the compressor has very high load, the gaseous refrigerants can be pressed into the condensing radiator, but when the ambient temperature is high, particularly the temperature of a road surface in summer is very high, the heat dissipation effect of the radiator can be greatly reduced, and at the moment, if the high-power refrigeration evaporation needs rapid refrigeration, the consumption of energy is very large.
3. The time that needs the buffering between refrigerating system start and the stop reduces the starting pressure of compressor, and during refrigeration, the thermostat senses the compressor refrigeration of stopping after the temperature reachs, and the thermostat senses the compressor refrigeration of restarting when the temperature surpasses, but in order to protect the compressor and reduce energy consumption, this temperature difference can set up very big, because the higher start-up of density, can mean higher energy consumption.
4. During refrigeration and evaporation, liquid refrigerant can be evaporated from the front end of the tube in the evaporator, and after the temperature of the front end of the tube is reduced, the refrigerant can flow into the rear tube to continue evaporation. While containers are very long and the refrigeration distance becomes very long in such a long space, there are many problems with the uniformity of refrigeration, and although the prior art has made efforts to solve this difference, the effect is not very good, and the lower the temperature, the greater the difference is. Since the uniformity of the cooling is not good, the cooling area is seriously affected.
Although the heat absorption of the refrigerant is high during evaporation, the refrigerant needs to dissipate heat continuously during the evaporation and refrigeration process to condense, so the flow rate of refrigeration and condensation becomes the key of the refrigeration speed, and the condensation speed is reduced due to the reduction of the heat dissipation performance in the high temperature environment.
It is therefore desirable to provide a cold-loaded refrigerated container refrigeration system that addresses the above-mentioned problems.
SUMMERY OF THE UTILITY MODEL
An object of the present invention is to provide a refrigeration system for a cold-carrying type refrigerated container in order to solve the above problems.
The utility model discloses a following technical scheme realizes above-mentioned purpose:
a refrigerating system of a cold-carrying type refrigerated container comprises a compressor refrigerating passage and a cold-carrying releasing passage connected through a heat exchanger;
the compressor refrigeration passage comprises a compressor, a radiator and a throttle valve, the output end of the compressor is connected with one end of the radiator, and the other end of the radiator is connected with the throttle valve;
the cold-carrying release passage comprises a heat exchanger, a first liquid storage tank, a second liquid storage tank, an internal circulating pump, a three-way change-over valve, a box circulating pump and an in-box refrigeration device, wherein one end of the heat exchanger is connected with the second liquid storage tank, the other end of the heat exchanger is connected with the inlet end of the internal circulating pump, the outlet end of the internal circulating pump is connected with the inlet end of the three-way change-over valve, the A outlet end of the three-way change-over valve is connected with the first liquid storage tank, the other way of the three-way change-over valve is connected with the in-box refrigeration device, the B outlet end of the three-way change-over valve is connected with the inlet end of the box circulating pump, and the outlet end of the box circulating pump is connected with the in-box refrigeration device.
Further, the refrigerating equipment in the container is an air cooler arranged on the refrigerated container body.
Further, the refrigerating equipment in the container is a coil pipe arranged on the refrigerated container body.
Further, cold carrying liquid is arranged in the first liquid storage tank and the second liquid storage tank.
Further, the cold-carrying release passage is provided with a plurality of liquid storage tanks connected in series.
Further, the first liquid storage tank and the second liquid storage tank are externally provided with heat insulation layers.
And the first liquid storage tank and the heat exchanger and the second liquid storage tank and the heat exchanger are communicated through metal pipes or plastic pipes.
Compared with the prior art, the beneficial effects of the utility model are as follows:
cold-loaded refrigerated container advantages:
1. because the characteristics of refrigerator car, main transportation give birth to bright food, the refrigerated demand of fast dissolving is very many, can refrigerate fast, just can guarantee the sanitary safety of food more, and can refrigerate the prestorage in advance, and refrigerate fast after the goods of packing into and release to reach the quick refrigerated effect of goods, solved the unable quick refrigerated problem of traditional system.
2. Under the same volume, the efficiency of the liquid energy-carrying of the same volume is far higher than that of air, so that the cold-carrying liquid arranged in the energy conversion tank can absorb the refrigeration energy of the evaporator more efficiently, and the problem of low heat exchange efficiency of the traditional system is solved.
3. Because the cold-carrying liquid can circulate in the refrigeration equipment in the box at a high speed, and the energy-carrying capacity of the cold-carrying liquid is very strong, the temperature of the refrigeration equipment in the box can be very uniform, and the problem of uneven long-distance refrigeration of the traditional system is solved.
4. The storage of refrigeration energy is equivalent to the effect of battery energy storage, the cost and the service life are far higher than those of battery energy storage, and the requirement on the refrigeration energy becomes simpler and more effective.
5. The cost can be lower, adopt traditional refrigeration technology, need set up the evaporimeter of copper pipe or aluminum pipe in the container, because the requirement of evaporimeter is higher, also can lead to the cost of manufacture high, but adopt this system, the liquid pipe that is the ordinary pressure in the incasement setting, it is high to require not also having the evaporimeter, the structure also designs more easily, and simultaneously, the material of preparation can adopt the tubular metal resonator, also can adopt the plastic pipe, and the evaporimeter is in the liquid storage pot, the structure is simpler, and intensity is also high, it is not fragile, the problem of the easy damage of traditional incasement evaporimeter has been solved.
6. Owing to there is the refrigeration to store, and the incasement is used prestores and carries cold, and under the incasement had the condition that does not have cold demand, as long as the liquid storage pot has the demand just can refrigerate, and the conversion efficiency of energy can be very high moreover, so, even ambient temperature is high, refrigerated speed slows down, can not influence the refrigeration of incasement yet.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.
Fig. 1 is a schematic diagram of the overall structure of the system of the present invention.
In the figure, specifically:
1. a compressor; 2. a heat sink; 3. a throttle valve; 4. a heat exchanger; 5. a first liquid storage tank; 6. a second liquid storage tank; 7. an internal circulation pump; 8. a three-way regulating valve; 9. a tank circulation pump; 10. and (4) refrigerating equipment in the box.
Detailed Description
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; 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 meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.
The present invention will be further explained with reference to the accompanying drawings:
as shown in fig. 1, a cold-carrying type refrigerated container refrigeration system includes a compressor refrigeration passage and a cold-carrying discharge passage connected by a heat exchanger; the compressor refrigeration passage comprises a compressor 1, a radiator 2 and a throttle valve 3, wherein the output end of the compressor 1 is connected with one end of the radiator 2, and the other end of the radiator 2 is connected with the throttle valve 3; carry cold release route and include heat exchanger 4, liquid storage pot one 5, liquid storage pot two 6, internal circulation pump 7, three-way change-over valve 8, case circulating pump 9 and incasement refrigeration plant 10, liquid storage pot two 6 is connected to the one end of heat exchanger 4, and heat exchanger 4's other end liquid storage pot one 5, the end of advancing of internal circulation pump 7 is connected to the other end of liquid storage pot two 6, and the end of advancing of three-way change-over valve 8 is connected to the output of internal circulation pump 7, and liquid storage pot one 5 is connected all the way to three-way change-over valve 8's A exit end, another way junction incasement refrigeration plant 10, the B exit end junction case circulating pump 9's of three-way change-over valve 8 advances the end, and the end junction incasement refrigeration plant 10 of case circulating pump 9. The utility model discloses a compressor refrigeration flow and the cold release flow of carrying through the heat exchanger hookup. The flow of the refrigerator adopts a conventional compressor refrigeration system, and then the conventional compressor refrigeration system is used for evaporating and refrigerating in the heat exchanger 4. The cold-carrying releasing process comprises liquid storage tanks (a plurality of liquid storage tanks) which are independently insulated and stored, an internal circulating pump 7, a three-way regulating valve 8, a tank circulating pump 9 and an in-tank refrigerating device 10, and is connected with the heat exchanger 4. In the cold carrying process, the compressor refrigerating unit starts to refrigerate, the three-way regulating valve 8 opens the internal circulation passage, the internal circulation pump 7 starts, and drives the cold carrying liquid in the liquid storage tank I5 and the liquid storage tank II 6 to exchange heat through the heat exchanger 4, so that heat in the cold carrying liquid is absorbed. When the interior of the box needs to be refrigerated, the three-way regulating valve 8 opens a refrigerating passage between the liquid storage tank and the interior of the box, and cold-carrying liquid enters the box through the box circulating pump 9 to absorb heat in the box.
The utility model discloses in, incasement refrigeration plant 10 is for setting up air-cooler or coil pipe on cold-stored container body. And cold carrying liquid is arranged in the first liquid storage tank 5 and the second liquid storage tank 6. The two techniques for refrigerating in the box are air coolers, namely, cold liquid is sent into a cold air fan pipe, then air is driven by a fan, and the cold liquid absorbs heat in the air through louver blades. The other type is a coil pipe, namely a plurality of pipes are coiled on the inner wall of the box, air flows automatically, cold air flows downwards after being cooled than hot air, the hot air floats upwards, and the air is cooled in such a way. It needs to be noted very much, the utility model discloses different with prior art, the refrigerator evaporation refrigeration among the prior art, and the utility model discloses with carrying cold liquid refrigeration, with the volume down, the efficiency that can be carried with the liquid of volume is higher than the air far away, so carry cold liquid can more efficient absorption evaporimeter refrigeration energy of setting in the transduction jar, solved the problem that traditional system heat exchange efficiency is low. Because the cold-carrying liquid can circulate in the refrigeration equipment in the box at a high speed, and the energy-carrying capacity of the cold-carrying liquid is very strong, the temperature of the refrigeration equipment in the box can be very uniform, and the problem of uneven long-distance refrigeration of the traditional system is solved. The storage of refrigeration energy is equal to the effect of battery energy storage, the cost and the service life are far higher than those of battery energy storage, and the requirement on the refrigeration energy becomes simpler and more effective
The utility model discloses in, carry cold release route and set up the liquid storage pot of a plurality of series connections, set up the quantity of energy storage jar according to refrigerated container's box size to more effective refrigeration.
The utility model discloses in, heat preservation is set up to liquid storage pot one 5 and liquid storage pot two 6 outsides. A large amount of cold-carrying liquid is arranged in the liquid storage tank, and a thick heat-insulating layer is arranged outside the liquid storage tank to keep the temperature in the tank.
The utility model discloses in, communicate through tubular metal resonator or plastic tubing between liquid storage pot one 5 and the heat exchanger 4 and between the liquid storage pot two 6 heat exchangers 4. The cost can be lower, adopt traditional refrigeration technology, need set up the evaporimeter of copper pipe or aluminum pipe in the container, because the requirement of evaporimeter is higher, also can lead to the cost of manufacture high, but adopt this system, the liquid pipe that is the ordinary pressure in the incasement setting, it is high to require not also having the evaporimeter, the structure also designs more easily, and simultaneously, the material of preparation can adopt the tubular metal resonator, also can adopt the plastic pipe, and the evaporimeter is in the liquid storage pot, the structure is simpler, and intensity is also high, it is not fragile, the problem of the easy damage of traditional incasement evaporimeter has been solved.
The utility model discloses theory of operation and use flow:
1. the space of a common container is about 50-60 cubic meters, the total weight of air is about 65KG, each liter of high temperature needs about 12 kilocalories, the temperature reduction is 10 kilocalories, the liquid storage tank only needs 1 cubic meter, and the cold-carrying liquid can approach 1000 KG. The energy carrying capacity of liquid and gas in a space of one cubic meter is the same, and the liquid is 775 times of the gas. One cubic meter of liquid is higher by one degree per liter, the energy can be absorbed by about 1000 kilocalories, 10000 kilocalories can be stored when the liquid is cooled by 10 degrees, if low-temperature cold-carrying liquid is adopted, the liquid can be cooled to more than 50 degrees below zero, namely, the liquid can be cooled by 1 cubic meter and the energy of 50000 kilocalories can be stored, and different cold-carrying liquids have a little difference. By the principle, the cold storage by adopting the cold carrying liquid has practical significance.
2. When the refrigerated container is not loaded, the compressor refrigerating system can be automatically started, the internal circulating pump 7 is started, the internal circulating passage is opened by the three-way regulating valve 8 (the inlet end IN and the outlet end OUT A), the refrigerating circulating pump 7 IN the container is closed, cold-carrying liquid IN the cold-carrying liquid storage tank starts to refrigerate, and when the cold-carrying liquid reaches the set temperature, the refrigeration is stopped, the internal circulating pump 7 is also stopped, and the cold-carrying liquid enters a heat-preservation standby state.
3. After the refrigerated container is loaded with goods, the refrigerating plate box circulating pump 9 is started, the OUT B of the three-way regulating valve 8 opens the refrigerating circulation passage in the container, the OUT A of the three-way regulating valve 6 is closed, so that the internal circulation passage is closed, and low-temperature cold-carrying liquid quickly enters the refrigerating equipment 10 in the container to absorb heat to the air in the container body. Due to the very strong energy carrying capacity of the cold carrying liquid, the refrigeration equipment 10 in the box can quickly and uniformly perform the refrigeration process by the high-speed circulation of the cold carrying liquid.
4. When the temperature of the cold-carrying liquid in the cold-carrying liquid heat exchanger 4 rises to exceed the set temperature, the refrigeration compressor 1 is started, the compressor refrigeration system refrigerates the cold-carrying liquid heat exchanger 4, the three-way regulating valve 8 carries out flux regulation as required at the moment, and the internal circulating pump 7 and the tank circulating pump 9 are also started as required.
5. When the temperature in the box reaches the set temperature, there are two cases: a. when the cold-carrying liquid does not reach the set temperature, the three-way regulating valve 8 opens the internal circulation passage (OUT A), the compressor 1 continues to refrigerate, and the internal circulation of the tank is closed. b. The temperature of the cooling liquid also reaches the set temperature, and the refrigeration of the compressor is stopped at the moment.
6. When little difference appears with setting up the temperature when the temperature in the box, case circulating pump 9 starts, and the flow of carrying cold liquid in the three-way control valve 8 regulating box, when the incasement needs to add cold, and interior circulating pump 7 starts, when need not add cold, and interior circulating pump 7 closes, and case circulating pump 9 still starts the circulation, and the temperature that lets the incasement passes through the incasement refrigeration piece and balances.
7. When the temperature of the box body rises, the box circulating pump 9 is started again to circulate the cold-carrying liquid again, and when the temperature of the cold-carrying liquid in the cold-carrying liquid heat exchanger 4 exceeds a set value, the compressor 1 is started again, and the circulation is carried out.
The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.
Claims (7)
1. A cold-carrying refrigerated container refrigeration system characterized by: the system comprises a compressor refrigeration passage and a cold-carrying release passage connected through a heat exchanger;
the compressor refrigeration passage comprises a compressor (1), a radiator (2) and a throttle valve (3), the output end of the compressor (1) is connected with one end of the radiator (2), and the other end of the radiator (2) is connected with the throttle valve (3);
carry cold release route and include heat exchanger (4), liquid storage pot (5), liquid storage pot two (6), internal circulation pump (7), three-way change-over valve (8), case circulating pump (9) and incasement refrigeration plant (10), liquid storage pot two (6) are connected to the one end of heat exchanger (4), the other end liquid storage pot (5) of heat exchanger (4), the end that advances of internal circulation pump (7) is connected to the other end of liquid storage pot two (6), the end that advances of three-way change-over valve (8) is connected to the play end of internal circulation pump (7), liquid storage pot (5) are connected all the way to the A exit end of three-way change-over valve (8), another way junction incasement refrigeration plant (10), the end that the B exit end of three-way change-over valve (8) is connected the end that advances of case circulating pump (9), the play end junction incasement refrigeration plant (10) of case circulating pump (9).
2. A cold-carrying refrigerated container refrigeration system as claimed in claim 1 wherein: the refrigerating equipment (10) in the box is an air cooler arranged on the refrigerated container body.
3. A cold-carrying refrigerated container refrigeration system as claimed in claim 1 wherein: the refrigerating equipment (10) in the container is a coil pipe arranged on the refrigerated container body.
4. A cold-carrying refrigerated container refrigeration system as claimed in claim 1 wherein: and cold carrying liquid is arranged in the first liquid storage tank (5) and the second liquid storage tank (6).
5. A cold-carrying refrigerated container refrigeration system as claimed in claim 1 or 4 wherein: the cold-carrying release passage is provided with a plurality of liquid storage tanks which are connected in series.
6. A cold-carrying refrigerated container refrigeration system as claimed in claim 1 wherein: and heat preservation layers are arranged outside the first liquid storage tank (5) and the second liquid storage tank (6).
7. A cold-carrying refrigerated container refrigeration system as claimed in claim 1 or 6 wherein: the first liquid storage tank (5) is communicated with the heat exchanger (4) and the second liquid storage tank (6) is communicated with the heat exchanger (4) through metal pipes or plastic pipes.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120257384.0U CN214791988U (en) | 2021-01-29 | 2021-01-29 | Refrigerating system of cold-carrying type refrigerated container |
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CN202120257384.0U CN214791988U (en) | 2021-01-29 | 2021-01-29 | Refrigerating system of cold-carrying type refrigerated container |
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CN214791988U true CN214791988U (en) | 2021-11-19 |
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CN202120257384.0U Active CN214791988U (en) | 2021-01-29 | 2021-01-29 | Refrigerating system of cold-carrying type refrigerated container |
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2021
- 2021-01-29 CN CN202120257384.0U patent/CN214791988U/en active Active
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