CN105953461A - Liquid cooling machine having high cool storage performance and rapid cool releasing performance - Google Patents

Abstract

The invention discloses a liquid cooling machine having high cool storage performance and rapid cool releasing performance. The liquid cooling machine includes a cool storage box, a circulation box, a three-way proportion adjustment valve, an outer circulating pump, a heat load, an inner circulating pump, an inner circulating solenoid valve I, a cooling plate type heat exchanger, an inner circulating solenoid valve II, a low temperature blocker I, an ice making/melting plate type heat exchanger , a low temperature blocker II, a non-return valve, an ice slurry storage box, a micro ice crystal processor, an ice making/melting circulating pump, an ice crystal blocker, an ice slurry generator, and a compression refrigeration unit, which form a cooling liquid inner circulation system I, a cooling liquid inner circulation system II, an ice slurry circulation system, a cooling liquid outer circulation system, and a compression refrigeration unit circulation system. The liquid cooling machine is compact in structure, is high efficient, is energy-saving, and is fast in response; through ice slurry cool storage and cooling liquid cool storage, a high-energy heat-density intermittent heat dissipation demand or a cool storage backup demand can be effectively met.

Description

There is high cold-storage and the cold liquid machine let cool soon

Technical field

The present invention relates to cold liquid machine field, a kind of have high cold-storage and the cold liquid machine let cool soon.

Background technology

The cold liquid machine with cool storage function is one direction of development in recent years, and its main purpose is to avoid concentrating consuming the energy, utilizes cold-storage under rich electricity condition, lets cool when high power load needs and concentrates heat radiation, and these high power loads often have intermittent work feature；Or load heat radiation particular importance, for reducing compressor cooling unit catastrophic failure or the risk of hydraulic performance decline, carries out part cold-storage to coolant, uses as emergency backup.Such as, the armament systems such as high power laser light under the conditions of vehicle-mounted, carrier-borne etc., electromagnetic pulse, heat load typically exhibits energy and concentrates, and heat density is the highest, and the feature such as discontinuous operation.For this kind of cold liquid machine, need to solve under limited space, time and power conditions, it is thus achieved that optimal comprehensive solution, wherein Cool Storage Technology is as one of them.Meanwhile, along with the progress of technology, people are promoted to pay close attention to the energy consumption of this series products, efficiency, dependable with function, to pursue the optimized solution of product.

For meeting the large span working environment of-40 DEG C～55 DEG C, the cold liquid machine with cool storage function generally uses glycol water as coolant.Liquid Cool Storage Technology common method has at present: liquid cold-storage (non-phase transformation), static ice cold-storage (phase transformation) and dynamic ice cold-storage (ice oar) three classes.If cold liquid machine only by liquid cold-storage (non-phase transformation) mode, can cause unit volume excessive, such as, 1 m³, 66 % glycol waters, it is down to-20 DEG C from 0 DEG C, Q_{66% Ethylene glycol}=C m △ t=2.88 kJ/ (kg DEG C) × 1102.64 kg × 20 DEG C=63512 kJ, in formula, glycol water physical parameter is averaged temperature-10 DEG C and checks in.And use 1 m³Aqueous phase becomes ice, then Q_{100% Ice}= C·m= 335 kJ/kg×1000 kg=335000 kJ.Can be seen that under same volume, the ability of 100 % ice cold-storages is 5.3 times during 66 % glycol water 20 DEG C of cold-storages of fall.So, cold liquid machine liquid cold-storage (non-phase transformation) mode has the occasion of space dimensional requirement to be not preferably to select at some.But cold liquid machine uses static ice cold-storage, in engineering application, this cold-storage is in freezing process, heat exchange must pass through ice sheet, along with icing thickness increases, thermal resistance is caused to sharply increase, heat exchanger effectiveness degradation, the evaporating temperature of Normal squeezing mechanism cold unit is reduced to less than-10 DEG C and just can freeze, and energy consumption is huge；Same when ice-melt, between ice and pipe, often form water ring, cause thermal resistance to sharply increase, heat transfer efficiency is extremely low, and load responding is very poor, it is impossible to meet the demand of the quick coolings such as following high power laser light.Nowadays, dynamic ice cold-storage (ice oar) gradually uses in some fields, this technology makes the evaporating temperature of compressor cooling unit be improved, unit efficiency increases substantially, refrigerating speed is fast, the specific surface area of ice oar is more than 100 times of cold ball or coil pipe, lets cool speed and improves 3～5 times, and load responding is sensitive.Such as, 1 m³Water, produces 70 % ice slurry, in terms of 0 DEG C, Q_{70% Ice}= C·m= 335 kJ/kg×1000 kg×70 %=234500 kJ.Can be seen that under same volume, the ability of 70 % ice oar cold-storages is 3.7 times during 66 % glycol water 20 DEG C of cold-storages of fall, this also realizes miniaturization for this kind of cold liquid machine and provides feasibility, but this kind of cold liquid machine generally uses glycol water to make coolant, ice oar cannot be directly realized by, so needing to solve technology linkages, cutting down the number of intermediate links, realizing ice oar cold-storage and the coolant cold-storage especial operation on cold liquid machine.

Summary of the invention

The invention aims to solve the problem that prior art exists, a kind of compact conformation is provided, there is the cold liquid machine of response efficient, energy-conservation, quick, comprehensive utilization ice slurry cold storage and coolant cold-storage, can effectively meet high-energy, heat density, intermittent radiating requirements or cold-storage backup requirements.

Technical scheme is as follows:

A kind of have high cold-storage and the cold liquid machine let cool soon, include cold-accumulating box, circulating box, threeway ratio adjusting valve, outer circulation pump, heat load, internal circulation pump, interior circulating electromagnetic valve I, cold plate changes, interior circulating electromagnetic valve II, low temperature block device I, ice making ice-melt plate changes, low temperature block device II, check valve, ice-reserving oar case, micro ice crystal processor, ice making ice-melt circulating pump, ice crystal block device, ice oar generator and compression refigerating machine group, it is characterized in that: the outlet of described cold-accumulating box connects the entrance of described internal circulation pump, one way outlet of described internal circulation pump connects the entrance of described interior circulating electromagnetic valve I, the outlet of described interior circulating electromagnetic valve I connects the entrance that cold plate changes, the outlet that described cold plate changes connects the entrance of described cold-accumulating box, composition coolant internal circulation system I；

The outlet of described cold-accumulating box connects the entrance of described internal circulation pump, another way outlet of described internal circulation pump connects the entrance of described interior circulating electromagnetic valve II, the entrance of low temperature block device I is connect described in the outlet of described interior circulating electromagnetic valve II, the outlet of described low temperature block device I connects the entrance that described ice making ice-melt plate changes, the outlet that described ice making ice-melt plate changes connects the entrance of described low temperature block device II, the outlet of described low temperature block device II connects the entrance of described check valve, the outlet of described check valve connects the entrance of described cold-accumulating box, forms coolant internal circulation system II；

The outlet of described ice-reserving oar case connects the entrance of micro ice crystal processor, the outlet of described micro ice crystal processor connects the entrance of described ice making ice-melt circulating pump, described ice making ice-melt circulation delivery side of pump connects makes the entrance that described ice ice-melt plate changes, described connect the outlet that ice making ice-melt plate changes and connect the entrance of described ice crystal block device, the outlet of described ice crystal block device connects the entrance of ice oar generator, the outlet of described ice oar generator connects the entrance of ice-reserving oar case, forms ice oar blood circulation；

The outlet of described cold-accumulating box and the outlet of described circulating box are respectively connected to two entrances of described threeway ratio adjusting valve, the outlet of described threeway ratio adjusting valve connects the entrance of described outer circulation pump, described outer circulation delivery side of pump connects the entrance of described heat load, the outlet of described heat load connects the entrance of described circulating box, there is pipeline to be connected between described circulating box and described cold-accumulating box, form coolant liquid external circulating system；

The outlet of described compression refigerating machine group connects the entrance that described cold plate changes, described in connect the outlet that cold plate changes and connect the entrance of compression refigerating machine group, form compression refigerating machine group blood circulation.

Described has high cold-storage and the cold liquid machine let cool soon, it is characterised in that: described cold plate changes the conventional plate type heat exchanger of employing.

Described has high cold-storage and the cold liquid machine let cool soon, it is characterised in that: described ice making ice-melt plate changes and uses the plate type heat exchanger that a pitch of fins is little, corner apertures is big.

Described has high cold-storage and the cold liquid machine let cool soon, it is characterised in that: described low temperature block device I and low temperature block device II are outer respectively is cased with electric heating tube.

The cold-storage principle of the present invention divides 3 steps, is described below:

1st step: coolant internal circulation system I and compression refigerating machine group blood circulation are opened, and in making cold-accumulating box, coolant temperature is down to required ice-reserving oar temperature (such as-3 DEG C～-3.5 DEG C) by room temperature；2nd step: ice-reserving oar temperature keeps, coolant internal circulation system II and ice oar blood circulation are opened, preparing ice oar, and after completing, coolant internal circulation system II and ice oar blood circulation are closed；3rd step: coolant internal circulation system I and compression refigerating machine group blood circulation work on, low temperature (such as-20 DEG C) that design requires turns off to make coolant temperature in cold-accumulating box be further reduced to, and whole cold-storage completes.

The principle that lets cool of the present invention is described below:

After cold-storage completes, during foreign work, coolant liquid external circulating system is opened, temperature required coolant is provided for heat load by coolant ratio in regulation cold-accumulating box and circulating box, when the cold-storage in cold-accumulating box be finished (as > 0 DEG C), coolant internal circulation system II and ice oar blood circulation are opened, and continue to provide secondary cold-storage.

Coolant internal circulation system I: cold-accumulating box → internal circulation pump → interior circulating electromagnetic valve I → cold plate changes → cold-accumulating box, successively blood circulation.

Coolant internal circulation system II: cold-accumulating box → internal circulation pump → interior circulating electromagnetic valve II → low temperature block device → ice making ice-melt plate changes → low temperature block device → check valve → cold-accumulating box, successively blood circulation.

Ice oar blood circulation: ice-reserving oar case → micro ice crystal processor → ice making ice-melt circulating pump → ice making ice-melt plate changes → ice crystal block device → ice oar generator → ice-reserving oar case, blood circulation successively.

Coolant liquid external circulating system: cold-accumulating box+circulating box → threeway ratio adjusting valve → outer circulation pump → heat load → circulating box → cold-accumulating box, successively blood circulation.

Compression refigerating machine group blood circulation: compression refigerating machine group → cold plate changes → compression refigerating machine group, successively blood circulation.

Coolant internal circulation system I and compression refigerating machine group blood circulation realize heat exchange, are i.e. changed by cold plate, and described cold plate changes the conventional plate type heat exchanger of employing.

Ice oar blood circulation and coolant internal circulation system II with the use of, there are ice oar cold-storage or the two kinds of functions externally let cool, and depend on coolant temperature.

Described ice making ice-melt plate changes has two kinds of functions, and i.e. ice making slurry during cold-storage, melts the ice oar in ice-reserving oar case, preferably use the plate type heat exchanger that a pitch of fins is little, corner apertures is big when letting cool.

Described low temperature block device I and low temperature block device II are to prevent from cryogenic liquid from making ice making ice-melt plate change generation to freeze, as used the modes such as overcoat electrothermal tube.

Described cold-accumulating box and ice-reserving oar case, its capacity should determine according to demand and shared spatial synthesis, be listed below further:

Heat load 400 kW, work 0.5 h, stops 1 h, and the cold liquid machine cold-storage that (do not considers surplus) in theory works 1 h, unit refrigerating capacity 200 kW, lets cool work 0.5 h, and theoretical cold storage capacity is 720000 kJ.If cold-accumulating box and circulating box take identical capacity 1 m³, not considering that in cold-accumulating box, 66 % glycol waters are down to the cold storage capacity of required ice-reserving oar temperature gained from room temperature, simplification is down to-20 DEG C of cold storage capacities from 0 DEG C and is about 63512 kJ, the remaining ice oar cold-storage that utilizes, and conversion needs about 2.8 m to 70 % ice slurry³.Learning, cold-accumulating box and ice-reserving oar case available capacity amount to about 3.8 m³, and only with cold-accumulating box 11.3 m³Comparing, capacity declines about 66 %.For this cold liquid machine harsh to the requirement in space, there is good market using value.

Coolant of the present invention uses the glycol water of variable concentrations according to work and environmental condition.

Beneficial effects of the present invention:

1, the present invention makes full use of ice oar cold-storage, improves the evaporating temperature of compression refigerating machine group, and unit efficiency increases substantially, and makes complete machine obtain higher energy-saving effect.

2, Appropriate application coolant (glycol water) cold-storage of the present invention, meets large span work requirements, and effectively combines ice oar cold-storage, meet the demand that quickly lets cool.

3, present invention, avoiding the deficiencies such as static ice cold-storage thermal resistance is big, efficiency is low, load responding, by three step cold-storages, make unit safety and reliability.

4, the present invention structure Miniaturizable, can modularity, it is easy to accomplish, can effectively meet high-energy, heat density, intermittent radiating requirements or cold-storage for demand.

5, in the present invention, coolant and ice making oar water are mutually isolated, it is to avoid coolant is impacted.

Accompanying drawing explanation

Fig. 1 is present system principle schematic.

Fig. 2 is present configuration system principle evolutionary pattern 1 schematic diagram.

Fig. 3 is present configuration system principle evolutionary pattern 2 schematic diagram.

Detailed description of the invention

See Fig. 1, a kind of have high cold-storage and the cold liquid machine let cool soon, include cold-accumulating box 1, circulating box 2, threeway ratio adjusting valve 3, outer circulation pump 4, heat load 5, internal circulation pump 6, interior circulating electromagnetic valve I 7, cold plate changes 8, interior circulating electromagnetic valve II 9, low temperature block device I 10, ice making ice-melt plate changes 11, low temperature block device II 12, check valve 13, ice-reserving oar case 14, micro ice crystal processor 15, ice making ice-melt circulating pump 16, ice crystal block device 17, ice oar generator 18 and compression refigerating machine group 19, form coolant internal circulation system I respectively, coolant internal circulation system II, ice oar blood circulation, coolant liquid external circulating system and compression refigerating machine group blood circulation.

Coolant internal circulation system I: the outlet of cold-accumulating box 1 connects the entrance of internal circulation pump 6, one way outlet of internal circulation pump 6 connects the entrance of interior circulating electromagnetic valve I 7, the outlet of interior circulating electromagnetic valve I 7 connects cold plate and changes the entrance of 8, and cold plate changes the outlet of 8 and connects the entrance of cold-accumulating box 1；

Coolant internal circulation system II: the outlet of cold-accumulating box 1 connects the entrance of internal circulation pump 6, another way outlet of internal circulation pump 6 connects the entrance of interior circulating electromagnetic valve II 9, the outlet of interior circulating electromagnetic valve II 9 connects the entrance of low temperature block device I 10, the outlet of low temperature block device I 10 connects ice making ice-melt plate and changes the entrance of 11, ice making ice-melt plate changes the outlet of 11 and connects the entrance of low temperature block device II 12, the outlet of low temperature block device II 12 connects the entrance of check valve 13, and the outlet of check valve 13 connects the entrance of cold-accumulating box 1；

Ice oar blood circulation: the outlet of ice-reserving oar case 14 connects the entrance of micro ice crystal processor 15, the outlet of micro ice crystal processor 15 connects the entrance of ice making ice-melt circulating pump 16, the outlet of ice making ice-melt circulating pump 16 connects ice making ice-melt plate and changes the entrance of 11, connect ice making ice-melt plate to change the outlet of 11 and connect the entrance of ice crystal block device 17, the outlet of ice crystal block device 17 connects the entrance of ice oar generator 18, and the outlet of ice oar generator 18 connects the entrance of ice-reserving oar case 14；

Coolant liquid external circulating system: the outlet of cold-accumulating box 1 and the outlet of circulating box 2 are respectively connected to two entrances of threeway ratio adjusting valve 3, the outlet of threeway ratio adjusting valve 3 connects the entrance of outer circulation pump 4, the outlet of outer circulation pump 4 connects the entrance of heat load 5, the outlet of heat load 5 connects the entrance of circulating box 2, has pipeline to be connected between circulating box 2 and cold-accumulating box 1；

Compression refigerating machine group blood circulation: the outlet of compression refigerating machine group 19 connects cold plate and changes the entrance of 8, connects cold plate and changes the outlet of 8 and connect the entrance of compression refigerating machine group 19.

In the 1st step cold-storage work, in cold-accumulating box 1, coolant initial temperature is usually room temperature (such as 20 DEG C), has been carried out part solution cold-storage before being down to ice making oar temperature, and according to the feed flow temperature requirements of outer circulation pump 4, this part cold-storage specifically should be considered as in the design.

Ice oar cold-storage: when being that coolant temperature is down to required ice-reserving oar temperature (such as-3 DEG C～-3.5 DEG C) and keeps in cold-accumulating box 1, utilize coolant internal circulation system II and ice oar blood circulation to realize heat exchange, and preparing ice oar, complete the 2nd step ice oar cold-storage.

Coolant cold-storage: be after ice oar cold-storage completes, ice oar blood circulation and coolant internal circulation system II are closed, the most corresponding ice making ice-melt circulating pump 16 and interior circulating electromagnetic valve II 9 are closed, coolant internal circulation system I and compression refigerating machine group blood circulation is utilized to work on, low temperature (such as-20 DEG C) that design requires turns off to make coolant temperature in cold-accumulating box 1 be further reduced to, and completes the 3rd step low-temperature cold accumulation.

Low temperature block device I 10 and low temperature block device II 12 are to prevent from cryogenic liquid from making ice making ice-melt plate change 11 generations to freeze, and as used the modes such as overcoat electrothermal tube, how much and when concrete heating heats, and is determined on a case-by-case basis.

When letting cool work, outer circulation pump 4 is opened, temperature required coolant is provided for heat load by coolant ratio in regulation cold-accumulating box 1 and circulating box 2, when the cold-storage in cold-accumulating box 1 be finished (as > 0 DEG C), ice oar blood circulation and coolant internal circulation system II are opened, the most corresponding ice making ice-melt circulating pump 16 and interior circulating electromagnetic valve II 9 are opened, and continue to provide secondary cold-storage.

Ice making ice-melt plate changes 11, has two kinds of functions, and i.e. ice making slurry during cold-storage, melts the ice oar in ice-reserving oar case, preferably select the plate type heat exchanger that a pitch of fins is little, corner apertures is big when letting cool.

Cold-accumulating box 1 and ice-reserving oar case 14, particular capacity size should determine according to demand and shared spatial synthesis.

Coolant uses the glycol water of variable concentrations according to work and environmental condition.

Needed for cold oar, water can use deionized water or pure water etc..

Fig. 2, Fig. 3 are two kinds of evolutionary patterns of the present invention, and still fall within the present invention is embodied as category.As Fig. 2 adds an internal circulation pump 20, remove interior circulating electromagnetic valve I 7 and the interior circulating electromagnetic valve II 9 having eliminated in Fig. 1 accordingly, but its operation principle is still equal to Fig. 1；Fig. 3 uses a three-way control valve 21, the interior circulating electromagnetic valve I 7 in alternate figures 1 and interior circulating electromagnetic valve II 9, and wherein three-way control valve 21 is not limited to threeway ratio adjusting valve, but operation principle is still equal to Fig. 1.

The above embodiment is only the preferred embodiment of the present invention; but the invention is not restricted to above-mentioned embodiment; for persons skilled in the art; the any obvious change done it on the premise of without departing substantially from the principle of the invention, broadly falls into the design of the present invention and the protection domain of claims.

Claims (4)

1. one kind has high cold-storage and the cold liquid machine let cool soon, include cold-accumulating box, circulating box, threeway ratio adjusting valve, outer circulation pump, heat load, internal circulation pump, interior circulating electromagnetic valve I, cold plate changes, interior circulating electromagnetic valve II, low temperature block device I, ice making ice-melt plate changes, low temperature block device II, check valve, ice-reserving oar case, micro ice crystal processor, ice making ice-melt circulating pump, ice crystal block device, ice oar generator and compression refigerating machine group, it is characterized in that: the outlet of described cold-accumulating box connects the entrance of described internal circulation pump, one way outlet of described internal circulation pump connects the entrance of described interior circulating electromagnetic valve I, the outlet of described interior circulating electromagnetic valve I connects the entrance that cold plate changes, the outlet that described cold plate changes connects the entrance of described cold-accumulating box, composition coolant internal circulation system I；

The outlet of described cold-accumulating box connects the entrance of described internal circulation pump, another way outlet of described internal circulation pump connects the entrance of described interior circulating electromagnetic valve II, the entrance of low temperature block device I is connect described in the outlet of described interior circulating electromagnetic valve II, the outlet of described low temperature block device I connects the entrance that described ice making ice-melt plate changes, the outlet that described ice making ice-melt plate changes connects the entrance of described low temperature block device II, the outlet of described low temperature block device II connects the entrance of described check valve, the outlet of described check valve connects the entrance of described cold-accumulating box, forms coolant internal circulation system II；

The outlet of described ice-reserving oar case connects the entrance of micro ice crystal processor, the outlet of described micro ice crystal processor connects the entrance of described ice making ice-melt circulating pump, described ice making ice-melt circulation delivery side of pump connects makes the entrance that described ice ice-melt plate changes, described connect the outlet that ice making ice-melt plate changes and connect the entrance of described ice crystal block device, the outlet of described ice crystal block device connects the entrance of ice oar generator, the outlet of described ice oar generator connects the entrance of ice-reserving oar case, forms ice oar blood circulation；

The outlet of described cold-accumulating box and the outlet of described circulating box are respectively connected to two entrances of described threeway ratio adjusting valve, the outlet of described threeway ratio adjusting valve connects the entrance of described outer circulation pump, described outer circulation delivery side of pump connects the entrance of described heat load, the outlet of described heat load connects the entrance of described circulating box, there is pipeline to be connected between described circulating box and described cold-accumulating box, form coolant liquid external circulating system；

The outlet of described compression refigerating machine group connects the entrance that described cold plate changes, described in connect the outlet that cold plate changes and connect the entrance of compression refigerating machine group, form compression refigerating machine group blood circulation.

The most according to claim 1 have high cold-storage and the cold liquid machine let cool soon, it is characterised in that: described cold plate changes the conventional plate type heat exchanger of employing.

The most according to claim 1 have high cold-storage and the cold liquid machine let cool soon, it is characterised in that: described ice making ice-melt plate changes and uses the plate type heat exchanger that a pitch of fins is little, corner apertures is big.

The most according to claim 1 have high cold-storage and the cold liquid machine let cool soon, it is characterised in that: described low temperature block device I and low temperature block device II are outer respectively is cased with electric heating tube.