CN107894123A - A kind of ice pellets manufacture system that can continuously manufacture ice pellets - Google Patents

Abstract

The invention discloses a kind of ice pellets manufacture system that can continuously manufacture ice pellets,Including frozen water cold,Ice water bucket,Ice pellets shaping box,Frozen water filter,Ice water circulation pump,Sorbet heat exchanger,Sorbet temperature reducing unit and wind cooling temperature lowering unit,Ice pellets shaping box has casing,Casing has inner chamber,Interior intracavitary is provided with grid crawler belt,Ice water circulation bucket and go out ice passage,Grid crawler belt is located at the top of inner chamber,Grid crawler belt is placed on ice water circulation bucket,Go out the side that ice passage is located at casing,Frozen water cold is connected with ice water bucket by coil heat exchanger,Ice water bucket is connected with the ice water circulation bucket of ice pellets shaping box by pipeline,Ice water circulation bucket and described frozen water filter,Ice water circulation pump,Sorbet heat exchanger is sequentially connected logical by pipeline,Sorbet heat exchanger is connected with described Sorbet temperature reducing unit,Wind cooling temperature lowering unit is used to persistently blow a cold wind over to the Sorbet on grid crawler belt.The ice pellets manufacture system can continuous production ice pellets, and energy dissipation is small.

Description

A kind of ice pellets manufacture system that can continuously manufacture ice pellets

Technical field

The present invention relates to a kind of ice pellets manufacture device, in particular to a kind of ice pellets that can continuously manufacture ice pellets to manufacture system System.

Background technology

Certain temperature is prepared, the uniform ice pellets of particle size has very big demand on aquatic products fresh-keeping of vegetables.Big ice Block is when the cold insulation for fresh food is fresh-keeping, and the space that can not usually fill up between food makes its fresh-keeping effect bad.And compared with Short grained ice pellets is easy to fill vegetable and fruit, the space between aquatic products meat, makes its fresh-keeping effect best.

At present, in the market produces the method for ice pellets mainly by being crushed to berg progress physics.General line is produced Big ice cube, then carry out physics and crush, then screen out the ice pellets of suitable size.In this process, big ice cube is produced Crushed, be the process to heat up again that cools on energy, waste be present.Also, during broken, some Too little particle ice pellets just melts.Furthermore disintegrating apparatus is typically huger, system complex.

The content of the invention

It is an object of the invention to provide a kind of ice pellets manufacture system that can continuously manufacture ice pellets, the ice pellets manufacture system energy Enough continuous production ice pellets, and energy dissipation is small.

What the above-mentioned purpose of the present invention was realized by following technical solution：A kind of ice pellets system that can continuously manufacture ice pellets Make system, it is characterised in that：The ice pellets manufacture system include frozen water cold, ice water bucket, ice pellets shaping box, frozen water filter, Ice water circulation pump, Sorbet heat exchanger, Sorbet temperature reducing unit and wind cooling temperature lowering unit, the ice pellets shaping box have casing, casing With inner chamber, interior intracavitary is provided with grid crawler belt, ice water circulation bucket and goes out ice passage, and grid crawler belt is located at the top of inner chamber, lattice Grid crawler belt is placed on ice water circulation bucket, goes out the side that ice passage is located at casing, and frozen water cold and ice water bucket pass through coil heat exchange Device is connected, and ice water bucket is connected with the ice water circulation bucket of ice pellets shaping box by pipeline, and frozen water cold and ice water bucket are used to make Manufacture ice water, and the frozen water of manufacture is delivered to ice water circulation bucket, and for ice pellets granulating and forming, ice water circulation bucket filters with described frozen water Device, ice water circulation pump, Sorbet heat exchanger are sequentially connected logical by pipeline, and Sorbet heat exchanger is connected with described Sorbet temperature reducing unit Logical, frozen water enters ice water circulation pump after the filtering of frozen water filter, and ice water circulation pump is again by CHP into Sorbet heat exchanger, ice Husky temperature reducing unit is used for the frozen water cooling in Sorbet heat exchanger, and in Sorbet heat exchanger, part frozen water, into Sorbet, is formed by cold The mixture of Sorbet and water, the one outlet end of described Sorbet heat exchanger are connected with a mixture delivery pipe, and mixture is defeated Pipe is sent to pass through the casing of ice pellets shaping box, the mouth of pipe stretches into inner chamber, and the mouth of pipe of mixture delivery pipe is located at the top of grid crawler belt, ice Husky and water mixture is delivered to the top of cabinets cavity by the mixture delivery pipe, drops to the grid crawler belt of circular flow In, in grid crawler belt, the mixture of Sorbet and water is separated under the centrifugation of grid, and frozen water is fallen into circulation ice water bucket, Again ice water circulation pump circulation is passed through, Sorbet is then stayed on grid crawler belt, and ice passage, institute are delivered to out under the drive of grid crawler belt The wind cooling temperature lowering unit stated is used to persistently blow a cold wind over to the Sorbet on grid crawler belt, and Sorbet is gradually grown up into after being blown by cold wind Ice pellets, ice pellets export after falling into out ice passage.

In the present invention, described Sorbet temperature reducing unit includes pumps for cryogenic media, cryogenic media heat exchanger and Sorbet cold, ice The port of export of husky cold is connected with an entrance point of cryogenic media heat exchanger, for reducing Jie in cryogenic media heat exchanger Matter temperature, the one outlet end of cryogenic media heat exchanger are connected with the entrance point of pumps for cryogenic media, pumps for cryogenic media and ice One entrance point of husky heat exchanger is connected, and transporting low temperature medium is pumped to Sorbet heat exchanger by pumps for cryogenic media, to Sorbet Frozen water cooling in heat exchanger, the one outlet end of Sorbet heat exchanger is connected with another entrance point of cryogenic media heat exchanger Logical, the cryogenic media in Sorbet heat exchanger after heat exchange conveys again to be back in the cryogenic media heat exchanger, cryogenic media Another port of export of heat exchanger is connected with the entrance point of Sorbet cold, and the cryogenic media for cycling back to Sorbet cold exists again Cool in Sorbet cold, then circulate, then cryogenic media heat exchanger is delivered to by the port of export of Sorbet cold

In the present invention, described wind cooling temperature lowering unit includes cold wind cold, cold wind heat exchanger, cold wind blower fan and cool air hose, Cold wind heat exchanger has two air inlets and two air outlets, the air inlet and an air outlet of cold wind heat exchanger respectively with The air outlet of the cold wind cold is connected with air inlet, for receive the cold wind from cold wind cold, cold wind heat exchanger it is another One air inlet is connected with the air outlet of cold wind blower fan, and the air inlet of cold wind blower fan stretches into the interior intracavitary of casing, cold wind heat exchange Another air outlet of device is connected with the air inlet of cool air hose, and the air outlet of cool air hose stretches into the interior intracavitary of casing, cool air hose The cold wind of blowout is used to cool to the Sorbet on grid crawler belt.

In the present invention, the coil heat exchanger is built in ice water bucket, and the outer surface of ice water bucket is enclosed with one layer of 100mm thickness Heat-insulation layer.

In the present invention, the delivery port of the ice water bucket is higher than the entrance of ice water circulation bucket, and the water in ice water bucket is in gravity Effect is lower to be entered in ice water circulation bucket.

In the present invention, liquid level gauge is provided with the ice water bucket, for showing the water level in bucket.

In the present invention, the preferred ethylene glycol of described cryogenic media, any material that can be pumped less than 0 DEG C by pump is all Can be as the cryogenic media of the present invention.

In the present invention, described Sorbet heat exchanger, cryogenic media heat exchanger and cold wind heat exchanger are preferably pipe shell type heat exchange Device, is not limited to structural shape, and the heat exchange that any one can be exchanged heat all can be as the heat exchanger of the present invention.

In the present invention, frozen water cold and ice water bucket responsibility system manufacture ice water, there is provided ice pellets shaping box are given, for being finally granulated into Type.Frozen water in ice water bucket is entered in ice pellets shaping box by the pipeline of frozen water bottom of the barrel, in ice pellets shaping box bottom, frozen water warp Enter ice water circulation pump after crossing the filtering of frozen water filter, ice water circulation pump again delivers to frozen water in Sorbet heat exchanger, and frozen water exists Sorbet heat exchanger is cooled, and part frozen water into Sorbet, forms the mixture of Sorbet and water by cold.The mixture of Sorbet and water returns to At the top of ice pellets shaping box, fall in the grid crawler belt of circular flow.In grid crawler belt, the centrifugation of Sorbet and water in grid Under separated, frozen water fall into circulation ice water bucket in, again by ice water circulation pump circulation.Sorbet is then stayed on grid crawler belt, Ice mouth is gone under the drive of motor.In this process, the cold wind that Sorbet is blown by cold wind blower fan, gradually grows up into Ice pellets.Before ice mouth is fallen into, the size of ice pellets is grown up to required size, is then fallen into ice mouth.

Brief description of the drawings

The present invention is described in further details with reference to the accompanying drawings and detailed description.

Fig. 1 is the overall structure diagram of ice pellets manufacture device of the present invention

In figure：1 frozen water cold, 2 ice water buckets, 21 coil heat exchangers, 3 ice pellets shaping boxs, 31 grid crawler belts,

32 ice water circulation buckets, 33 go out ice passage, 34 casings, 4 frozen water filters, 5 ice water circulation pumps,

6 Sorbet heat exchangers, 7 pumps for cryogenic media, 8 cryogenic media heat exchangers, 9 Sorbet cold,

10 cold wind cold, 11 cold wind heat exchangers, 12 cold wind blower fans, 13 mixture delivery pipes, 14 cool air hoses.

Embodiment

A kind of ice pellets manufacture system that can continuously manufacture ice pellets as shown in Figure 1, including frozen water cold 1, ice water bucket 2, Ice pellets shaping box 3, frozen water filter 4, ice water circulation pump 5, Sorbet heat exchanger 6, Sorbet temperature reducing unit and wind cooling temperature lowering unit.

Ice pellets shaping box 3 has casing 34, and casing 34 has inner chamber, and interior intracavitary is provided with grid crawler belt 31, ice water circulation Bucket 32 and goes out ice passage 33, and grid crawler belt 31 is located at the top of inner chamber, and grid crawler belt 31 is placed on ice water circulation bucket 32, goes out ice Passage 33 is located at the side of casing 34, and frozen water cold 1 is connected with ice water bucket 2 by coil heat exchanger 21, coil heat exchanger 21 It is built in ice water bucket 2, the outer surface of ice water bucket 2 is enclosed with the thick heat-insulation layers of one layer of 100mm, ice water bucket 2 and ice pellets shaping box 3 Ice water circulation bucket 32 be connected by pipeline, frozen water cold 1 and ice water bucket 2 are used to manufacture frozen water, and the frozen water of manufacture is delivered to Ice water circulation bucket 32, for ice pellets granulating and forming, ice water circulation bucket 32 exchanges heat with frozen water filter 4, ice water circulation pump 5, Sorbet Device 6 is sequentially connected logical by pipeline, and Sorbet heat exchanger 6 is connected with Sorbet temperature reducing unit, and frozen water is after the filtering of frozen water filter 4 Into ice water circulation pump 5, again by CHP into Sorbet heat exchanger 6, Sorbet temperature reducing unit is used to change ice water circulation pump 5 to Sorbet Frozen water cooling in hot device 6, in Sorbet heat exchanger 6, part frozen water into Sorbet, forms the mixture of Sorbet and water, ice by cold The one outlet end of husky heat exchanger 6 is connected with a mixture delivery pipe 13, and mixture delivery pipe 13 passes through ice pellets shaping box 3 Casing 34, the mouth of pipe stretch into inner chamber, and the mouth of pipe of mixture delivery pipe 13 is located at the mixture of the top of grid crawler belt 31, Sorbet and water The top of the inner chamber of casing 34 is delivered to by the mixture delivery pipe 13, is dropped in the grid crawler belt 31 of circular flow, in lattice In grid crawler belt 31, the mixture of Sorbet and water is separated under the centrifugation of grid, and frozen water is fallen into circulation ice water bucket 32, again Circulated by ice water circulation pump 5, Sorbet is then stayed on grid crawler belt 31, and ice passage is delivered to out under the drive of grid crawler belt 31 33, wind cooling temperature lowering unit is used to persistently blow a cold wind over to the Sorbet on grid crawler belt 31, Sorbet gradual long great achievement after being blown by cold wind For ice pellets, ice pellets exports after falling into out ice passage 33.

In the present invention, Sorbet temperature reducing unit includes pumps for cryogenic media 7, cryogenic media heat exchanger 8 and Sorbet cold 9, Sorbet The port of export of cold 9 is connected with an entrance point of cryogenic media heat exchanger 8, for reducing in cryogenic media heat exchanger 8 Medium temperature, the one outlet end of cryogenic media heat exchanger 8 are connected with the entrance point of pumps for cryogenic media 7, pumps for cryogenic media 7 It is connected with an entrance point of Sorbet heat exchanger 6, transporting low temperature medium is pumped to Sorbet heat exchanger 6 by pumps for cryogenic media 7, To the frozen water cooling in Sorbet heat exchanger 6, cryogenic media is ethylene glycol, the one outlet end of Sorbet heat exchanger 6 and cryogenic media Another entrance point of heat exchanger 8 is connected, and the cryogenic media in Sorbet heat exchanger 6 after heat exchange conveys again is back to low temperature In media heat exchanger 8, another port of export of cryogenic media heat exchanger 8 is connected with the entrance point of Sorbet cold 9, cycles back to The cryogenic media of Sorbet cold 9 cools in Sorbet cold 9 again, then circulates, then the port of export by Sorbet cold 9 It is delivered to cryogenic media heat exchanger 8

In the present invention, wind cooling temperature lowering unit includes cold wind cold 10, cold wind heat exchanger 11, cold wind blower fan 12 and cool air hose 14, cold wind heat exchanger 11 has two air inlets and two air outlets, an air inlet of cold wind heat exchanger 11 and an air-out Mouth is connected with the air outlet and air inlet of cold wind cold 10 respectively, and for receiving the cold wind from cold wind cold 10, cold wind changes Another air inlet of hot device 11 is connected with the air outlet of cold wind blower fan 12, and the air inlet of cold wind blower fan 12 stretches into casing 34 Interior intracavitary, another air outlet of cold wind heat exchanger 11 are connected with the air inlet of cool air hose 14, and the air outlet of cool air hose 14 is stretched Enter the interior intracavitary of casing 34, the cold wind that cool air hose 14 is blown out is used to cool to the Sorbet on grid crawler belt 31.

In the present invention, the delivery port of ice water bucket 2 is higher than the entrance of ice water circulation bucket 32, and the water in ice water bucket 2 is in gravity Effect is lower to be entered in ice water circulation bucket 32.Liquid level gauge is provided with ice water bucket 2, for showing the water level in bucket, if ice water bucket 2 In water shortage, then supplemented by the water supplement port on ice water bucket top.Sorbet heat exchanger 6, cryogenic media heat exchanger 8 and cold wind change Hot device 11 is shell-and-tube heat exchanger.

When the ice pellets manufacture system works, -0 DEG C of cold water is first prepared, becomes Sorbet and water after -0 DEG C of cold water cooling The mixture of mixture, Sorbet and water is separated into Sorbet and water, and frozen water cools down again, and Sorbet then cools by cold wind, becomes The consistent ice pellets of particle diameter.The ice pellets manufacture system can continuously manufacture the consistent ice pellets of granular size.

The ice pellets manufacture system of the present invention, there are two groups to return between the coil heat exchanger in frozen water cold 1 and ice water bucket 2 Pipeline connects.During work, frozen water cold 1 continues low-temperature receiver being sent into coil pipe, and ice is controlled by the temperature transmitter in ice water bucket 2 The low-temperature receiver output quantity of water cooling unit 1, the water refrigeration in ice water bucket is arrived -0 DEG C.Ice of the delivery port of ice water bucket 2 than ice pellets shaping box 3 The entrance of water circulation bucket is high, and -0 DEG C of water of ice water bucket 2 under gravity, constantly enters in circulation ice water bucket.If Water shortage in ice water bucket 2, then supplemented by the water supplement port on ice water bucket top.

There are two airducts of one-in-and-one-out the circular flow from right to left of grid crawler belt 31, the upper end of the cavity of casing 34, respectively with The hot junction of cold wind blower fan 12 is connected with cool air hose 14.End of being kept right above cavity is Sorbet entrance, with mixture delivery pipe 13 It is connected, for receiving the mixture of Sorbet and water from Sorbet heat exchanger 6.

- 0 DEG C of water in the ice water circulation bucket of ice pellets shaping box 3, by frozen water filter 4, ice is sent into by ice water circulation pump 5 In husky heat exchanger, by cold caused by absorbing pumps for cryogenic media 7, become the mixture of Sorbet and water, finally by ice pellets The Sorbet entrance of shaping box 3 enters the epicoele of ice pellets shaping box 3, falls on grid crawler belt 31.Lattice are installed on grid crawler belt 31 Grid, grid can separate Sorbet and water, and Sorbet is stayed on crawler belt, the ice water circulation bucket that water is fallen into ice pellets forming machine 3 In.Grid crawler belt 31 rotates under the drive of motor, it is possible to achieve constantly from right toward left movement, i.e., by Sorbet constantly by ice Husky entrance is sent to ice mouth.In this process, the hot blast from the epicoele right-hand member of ice pellets shaping box 3 is sent into cold by cold wind blower fan 12 In wind heat exchanger 11, hot blast absorbs the cold from cold wind cold 10, and temperature drops to -15 DEG C, become to return to after cold wind ice pellets into The epicoele left end of molding box 3, cold, which is transmitted to, now has grid crawler belt to transport on the Sorbet come, and Sorbet receives cold, at this from the right side To must slowly become ice pellets during left movement.Because the temperature of Sorbet is certain, the temperature of cold wind is certain, the fortune of crawler belt grid Dynamic speed is certain, and therefore, the cold that all Sorbets obtain is certain, and when all Sorbets become ice pellets, the particle diameter of ice pellets is certain 's.Ice pellets falls into out ice passage 33, collected by worker after the high order end of grid crawler belt 31 is formed.

Pumps for cryogenic media 7 is connected by pipeline with Sorbet heat exchanger 6, cryogenic media heat exchanger 8.Pipeline wherein pours into low temperature Medium ethylene glycol.Temperature can as little as -8 DEG C of ethylene glycol under the pumping of pumps for cryogenic media 7, be pumped into Sorbet heat exchanger 6, will be cold Amount gives the frozen water in the hot junction of Sorbet heat exchanger 6, makes the reduction of its temperature, becomes the mixture of Sorbet and water.The cold quilt of ethylene glycol After changing away, become -2 DEG C, subsequently into the hot junction of cryogenic media heat exchanger 8, in cryogenic media heat exchanger 8, by frozen water cold 9 The cold cooling sent, becomes -8 DEG C again.

In the present invention, frozen water cold 1, Sorbet cold 9 and cold wind cold 10 are connected with cooling tower, pass through cooling tower band Walk heat.

As the conversion of the present invention, cryogenic media is not limited to ethylene glycol, and any one can be below 0 DEG C by pump pumping Material can serve as the cryogenic media of the present invention.Described Sorbet heat exchanger, cryogenic media heat exchanger and cold wind heat exchanger are excellent Elect shell-and-tube heat exchanger as, be not limited to structural shape, the heat exchange that any one can be exchanged heat all can be as the heat exchange of the present invention Device.

The above embodiment of the present invention is not limiting the scope of the present invention, and embodiments of the present invention are not limited to This, all this kind, according to the ordinary technical knowledge and customary means of this area, is not departing from this according to the above of the present invention Under the premise of inventing above-mentioned basic fundamental thought, modification, replacement or the change of the other diversified forms made to said structure of the present invention More, all should fall within the scope and spirit of the invention.

Claims (10)

1. A kind of 1. ice pellets manufacture system that can continuously manufacture ice pellets, it is characterised in that：The ice pellets manufacture system includes frozen water Cold (1), ice water bucket (2), ice pellets shaping box (3), frozen water filter (4), ice water circulation pump (5), Sorbet heat exchanger (6), ice Husky temperature reducing unit and wind cooling temperature lowering unit, the ice pellets shaping box (3) have casing (34), and casing (34) has inner chamber, inner chamber Inside it is provided with grid crawler belt (31), ice water circulation bucket (32) and goes out ice passage (33), grid crawler belt (31) is located at the top of inner chamber, Grid crawler belt (31) is placed on ice water circulation bucket (32), goes out the side that ice passage (33) is located at casing (34), frozen water cold (1) It is connected with ice water bucket (2) by coil heat exchanger (21), the ice water circulation bucket (32) of ice water bucket (2) and ice pellets shaping box (3) It is connected by pipeline, frozen water cold (1) and ice water bucket (2) are used to manufacture frozen water, and the frozen water of manufacture is delivered to ice water circulation bucket (32), for ice pellets granulating and forming, ice water circulation bucket (32) and described frozen water filter (4), ice water circulation pump (5), Sorbet Heat exchanger (6) is sequentially connected logical by pipeline, and Sorbet heat exchanger (6) is connected with described Sorbet temperature reducing unit, and frozen water is through ice Water filter (4) filtering after enter ice water circulation pump (5), ice water circulation pump (5) again by CHP into Sorbet heat exchanger (6), Sorbet temperature reducing unit is used for the frozen water cooling in Sorbet heat exchanger (6), in the Sorbet heat exchanger (6), part frozen water by it is cold into Sorbet, forms the mixture of Sorbet and water, and the one outlet end of described Sorbet heat exchanger (6) is connected with a mixture conveying Manage (13), mixture delivery pipe (13) passes through the casing (34) of ice pellets shaping box (3), and the mouth of pipe stretches into inner chamber, mixture delivery pipe (13) the mouth of pipe is located at the top of grid crawler belt (31), and the mixture of Sorbet and water is delivered to by the mixture delivery pipe (13) The top of casing (34) inner chamber, drop in the grid crawler belt (31) of circular flow, in grid crawler belt (31), Sorbet and water Mixture is separated under the centrifugation of grid, and frozen water is fallen into circulation ice water bucket (32), is followed again by ice water circulation pump (5) Ring, Sorbet are then stayed on grid crawler belt (31), are delivered to out ice passage (33) under grid crawler belt (31) drive, described is air-cooled Temperature reducing unit is used to persistently blow a cold wind over to the Sorbet on grid crawler belt (31), and Sorbet gradually grows up into ice after being blown by cold wind Grain, ice pellets fall into out ice passage (33) and exported afterwards.
2. 2. the ice pellets manufacture system of ice pellets can be continuously manufactured as claimed in claim 1, it is characterised in that：Described Sorbet drop Warm unit includes pumps for cryogenic media (7), cryogenic media heat exchanger (8) and Sorbet cold (9), the port of export of Sorbet cold (9) with One entrance point of cryogenic media heat exchanger (8) is connected, low for reducing the medium temperature in cryogenic media heat exchanger (8) The one outlet end of warm media heat exchanger (8) is connected with the entrance point of pumps for cryogenic media (7), pumps for cryogenic media (7) and ice One entrance point of husky heat exchanger (6) is connected, and being pumped transporting low temperature to Sorbet heat exchanger (6) by pumps for cryogenic media (7) is situated between Matter, to the frozen water cooling in Sorbet heat exchanger (6), one outlet end and the cryogenic media heat exchanger (8) of Sorbet heat exchanger (6) Another entrance point be connected, the cryogenic media in the Sorbet heat exchanger (6) after heat exchange conveys again is back to the low temperature In media heat exchanger (8), another port of export of cryogenic media heat exchanger (8) is connected with the entrance point of Sorbet cold (9), follows The cryogenic media for looping back to Sorbet cold (9) cools in Sorbet cold (9) again, then circulates, then cold by Sorbet The port of export of machine (9) is delivered to cryogenic media heat exchanger (8).
3. 3. the ice pellets manufacture system of ice pellets can be continuously manufactured as claimed in claim 1, it is characterised in that：Described air-cooled drop Warm unit includes cold wind cold (10), cold wind heat exchanger (11), cold wind blower fan (12) and cool air hose (14), cold wind heat exchanger (11) With two air inlets and two air outlets, the air inlet and an air outlet of cold wind heat exchanger (11) respectively with it is described cold The air outlet of Air cooler (10) is connected with air inlet, for receiving the cold wind from cold wind cold (10), cold wind heat exchanger (11) another air inlet is connected with the air outlet of cold wind blower fan (12), and the air inlet of cold wind blower fan (12) stretches into casing (34) interior intracavitary, another air outlet of cold wind heat exchanger (11) are connected with the air inlet of cool air hose (14), cool air hose (14) air outlet stretches into the interior intracavitary of casing (34), and the cold wind of cool air hose (14) blowout is used for the ice on grid crawler belt (31) Sand cooling.
4. 4. the ice pellets manufacture system of ice pellets can be continuously manufactured as claimed in claim 1, it is characterised in that：The coil heat exchange Device (21) is built in ice water bucket (2), and the outer surface of ice water bucket (2) is enclosed with the thick heat-insulation layers of one layer of 100mm.
5. 5. the ice pellets manufacture system of ice pellets can be continuously manufactured as claimed in claim 1, it is characterised in that：The ice water bucket (2) delivery port is higher than the entrance of ice water circulation bucket (32), and the water in ice water bucket (2) enters ice water circulation under gravity In bucket (32).
6. 6. the ice pellets manufacture system of ice pellets can be continuously manufactured as claimed in claim 1, it is characterised in that：The ice water bucket (2) liquid level gauge is provided with, for showing the water level in bucket.
7. 7. the ice pellets manufacture system of ice pellets can be continuously manufactured as claimed in claim 2, it is characterised in that：Described low temperature is situated between Matter is ethylene glycol.
8. 8. the ice pellets manufacture system of ice pellets can be continuously manufactured as claimed in claim 1, it is characterised in that：Described Sorbet changes Hot device (6) is shell-and-tube heat exchanger.
9. 9. the ice pellets manufacture system of ice pellets can be continuously manufactured as claimed in claim 2, it is characterised in that：Described low temperature is situated between Matter heat exchanger (8) is shell-and-tube heat exchanger.
10. 10. the ice pellets manufacture system of ice pellets can be continuously manufactured as claimed in claim 3, it is characterised in that：Described cold wind Heat exchanger (11) is shell-and-tube heat exchanger.