CN205388432U - Frozen water cooling tank - Google Patents

Abstract

The utility model discloses a frozen water cooling tank, including cell body, logical liquid pipe, inlet tube and drain pipe, it wears to establish the cell body to lead to the liquid pipe, in the cell body from down supreme inlay to be equipped with be used for slipping through the net through a plurality of of different volume ice -cubes, all be equipped with a plurality of meshs on slipping through the net, the supreme setting that tapers off is down followed to the mesh size, the cell body bottom is equipped with into the ice mouth. Cell body one side is equipped with along the defeated ice pipeline of cell body degree of depth direction, fail ice pipeline bottom and go into the ice mouth and be linked together. Be equipped with the axis of rotation in the defeated ice pipeline, the axis of rotation evenly is provided with the cutter along the circumferencial direction. Above -mentioned technical scheme solved prior art can't be in the pond each section formation ice -water mixture 's problem, this practicality provides the low temperature state that always can keep ice -water mixture, it is even to lead to liquid guan shouwen, a frozen water cooling tank that the cooling effect is good.

Description

A kind of frozen water cooling bay

Technical field

This utility model relates to chiller field, particularly to a kind of frozen water cooling bay.

Background technology

Acid stain is the water-soluble dye on a class formation with acidic-group, dyes in acid medium.Acid stain in process of production, can produce great heat, all can have refrigerating work procedure in general acid material produces, for the acid material of high temperature is carried out fast cooling cooling.

The patent document of China Patent Publication No. CN10456748A discloses a kind of quickly cooling tank, including: logical liquid portion, cooling layer, dispensing port, cooling water inlet, cooling water outlet, feed tube, drain pipe；Described logical liquid portion is provided externally with cooling layer, and one end, described logical liquid portion is provided with feed tube, and the other end is provided with drain pipe, and top, cooling layer one end is provided with cooling water inlet, and other end bottom is provided with cooling water outlet, and described cooling layer top is provided with multiple dispensing port.The quick cooling tank of one of the present invention, cooling layer top is provided with multiple dispensing port, in the process that logical liquid portion liquid is cooled down by cooling layer, throws in ice cube by dispensing port to cooling layer.Ice cube is put in tank body by technique scheme, but the density of ice cube density ratio water is little, ice cube will float on the surface, the water of tank body inner bottom part cannot be carried out fast cooling, also ice cube cannot be made to be uniformly distributed in around the outer wall of fluid-through tube, thus causing being deteriorated for the cooling effect of acid stain, the water temperature around fluid-through tube outer wall is different, cause that liquid is subject to temperature uneven, make the liquid in fluid-through tube be unable to reach suitable temperature requirement.

Utility model content

The purpose of this utility model is to provide the low temperature state that always can keep mixture of ice and water, and fluid-through tube is uniform by temperature, a kind of frozen water cooling bay of good cooling results.

Above-mentioned technical purpose of the present utility model has the technical scheme that a kind of frozen water cooling bay, including cell body, fluid-through tube, water inlet pipe and drain pipe, described fluid-through tube wears cell body, it is embedded with for being slipped through the net by the some of different volumes ice cube in described cell body from bottom to up, described slip through the net on be equipped with some mesh, described mesh size tapers off setting from bottom to up, and described cell body bottom is provided with ice mouth.

By adopting technique scheme, utilize the effect of slipping through the net that mesh size from top to bottom is successively decreased step by step, after adding ice cube at cell body bottom, effect due to upper different mesh size of slipping through the net, the ice cube of small size will float to slips through the net in layer accordingly, thus utilizing the partition slipped through the net, ensure that around each section of fluid-through tube, all there is mixture of ice and water, whole cooling bay temperature from top to bottom is made to keep uniformly, low temperature can be always maintained at, mixture of ice and water is made to be distributed evenly in fluid-through tube outer wall, thus fluid-through tube is when by cooling bay, can lower the temperature to the full extent, improve the utilization rate of cooling bay, make full use of the resource of ice cube, reduce waste and production cost, improve productivity effect.

This utility model is further arranged to: described cell body side is provided with the ice transport pipe along cell body depth direction, and described ice transport pipe bottom is connected with ice mouth.

By adopting technique scheme, utilize the ice transport pipe of cell body side, ice cube can be put into from the mouth of pipe of ice transport pipe, it is transported to the ice mouth of cell body bottom again, such that it is able to the ice cube of all sizes is passed first to bottom cell body, utilize the feature that ice cube density ratio water is little, size in conjunction with different upper mesh of slipping through the net, the ice cube making different volumes floats gradually, thus being cut off in different layers, make can be formed around each section of fluid-through tube in cooling bay good mixture of ice and water, reach best cooling effect.

This utility model is further arranged to: being provided with rotation axle in described ice transport pipe, described rotation axle is along the circumferential direction evenly arranged with cutting knife.

By adopting technique scheme, utilize the deicing in ice transport pipe, the large volume ice cube originally put into can be crushed in advance, it is made to utilize the cutting knife effect on rotating shaft, large volume ice cube is fragmented into the ice cube that volume is different, it is thus possible to up floated by different size of mesh, it is fragmented into the ice cube of small volume, can better be distributed in around fluid-through tube outer wall, good mixture of ice and water is formed with water, enable ice cube to fill whole cooling bay, thus reaching better cooling effect as far as possible.

This utility model is further arranged to: described ice transport pipe bottom is provided with slide rail, and described slide rail is inclined to set, and described slide rail is connected with ice mouth away from ice transport pipe one end.

By adopting technique scheme, slide rail is utilized the ice cube in ice transport pipe can successfully to be put into ice mouth, the bottom hence into cell body, utilize being obliquely installed of slide rail, ice cube in pipeline can be carried out the guiding on a direction, ice cube is passed directly into the cell body bottom, will not be accumulated in inside ice transport pipe, ice cube is made full use of, waste will not be produced.

This utility model is further arranged to: described ice mouth is provided with the baffle plate for closing cell body, is hinged setting, is provided with elastic component bottom described cell body bottom described baffle plate side and cell body, and described baffle plate is inconsistent with elastic component near cell body side.

By adopting technique scheme, a baffle plate can closed bottom cell body it is provided with at ice mouth place, utilize the elastic recovery effect of elastic component, when ice transport pipe does not carry out defeated ice, baffle plate is supported by the restoring force of elastic component, ice mouth is closed, thus the liquid in pond will not flow in ice transport pipe, cell body is made to make full use of cooling water and ice cube, when ice transport pipe starts to throw ice, utilize the action of gravity that ice cube drops, the effect of the baffle plate of ice mouth can be washed open, overcome the elastic force of elastic component, so that ice cube can enter the cell body bottom smoothly, utilize the scalability of elastic component, achieve the automatic folding of cell body, avoid and manually go to be operated.Making whole throwing ice process more convenient, the service efficiency also making cooling bay is higher.

This practicality carries out a step and is set to: described fluid-through tube is set to helical form, and described fluid-through tube outer wall contacts with mixture of ice and water.

By adopting technique scheme, fluid-through tube in cell body is set to helical form, so that pipe inner acidic dyestuff can rest in cooling bay for more time, enable that liquid in pipe is sufficiently conducted lowers the temperature, reach better cooling effect, also improve the utilization ratio of cooling bay, make full use of mixture of ice and water and lower the temperature.

In sum, this utility model has the advantages that and utilizes ice transport pipe to be connected with the cell body bottom, first the ice cube of different volumes size is put into the cell body bottom, recycle the effect of slipping through the net that mesh size from top to bottom is successively decreased step by step, the ice cube that can make small size floats, thus being cut off by slipping through the net around the fluid-through tube outer wall of different sections, whole cooling bay is made all to have good mixture of ice and water from top to bottom, ice cube all it is evenly distributed with at fluid-through tube outer wall, thus the homogeneous temperature within whole cell body, a relatively low state of temperature can be always maintained at, so that the liquid in fluid-through tube can be subject to better cooling effect.

Accompanying drawing explanation

Fig. 1 is the structural representation after a kind of frozen water cooling bay of this utility model removes a pool wall；

Fig. 2 is the structural representation after a kind of frozen water cooling bay of this utility model removes a pool wall；

Fig. 3 is the structural representation of a kind of frozen water cooling bay of this utility model.

Accompanying drawing labelling: 1, cell body；2, fluid-through tube；3, water inlet pipe；4, outlet pipe；5, slip through the net；6, mesh；7, ice mouth；8, ice transport pipe；9, axle is rotated；10, cutting knife；11, slide rail；12, baffle plate；13, elastic component.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described in further detail.

With reference to shown in Fig. 1-3, a kind of frozen water cooling bay, including cell body 1, cell body 1 is a hollow circuit cylinder cell body 1, cell body 1 being arranged on subsurface, is cased with one layer of heat preservation layer on the outer wall of bottom, ground cell body 1, in heat-insulation layer, material is preferably polyurethane heat insulation material, it is thus possible to make the low temperature in cooling bay keep the longer time, reduce cell body 1 and be directly heated and affect the chilling temperature in cell body 1.It is provided with a water inlet pipe 3, for forming mixture of ice and water with the ice cube in cell body 1, thus reaching better cooling effect in cell body 1 upper end.And the sidewall in cell body 1 bottom has opened an outlet, connection outlet pipe 4, thus after ice melting in cooling bay, outlet pipe 4 is utilized to be discharged by the water in cell body 1, water is discharged in collecting tank, it is re-used, reach a circulation, thus reducing the use cost of cooling bay, improve productivity effect.

Fluid-through tube 2 is passed into from the upper end of cooling bay, fluid-through tube 2 in cell body 1 from top to bottom in the shape of a spiral, it is thus possible to make the acid stain in pipe stop the longer time in cooling bay, such that it is able to carry out sufficient heat exchange with mixture of ice and water, reach better cooling effect, also can make full use of the frozen water resource of cooling bay, improve the utilization rate of cooling bay.

It is arranged in parallel from bottom to up in cooling bay four and slipped through the net 5, slipping through the net for four 5 is distributed evenly on cell body 1 depth direction, making often adjacent slipping through the net one layer formed between 5 cut off the degree of depth just uniformly having cut whole cell body 1, fluid-through tube 2 wears successively from top to bottom and slips through the net 5.And slip through the net and be evenly arranged with some mesh 6 on 5, mesh 6 is provided in round, the diameter of mesh 6 successively decreases on 5 from bottom to up step by step slipping through the net, 5 mesh 6 diameters of slipping through the net being positioned at cell body 1 bottom are maximum, 5 mesh 6 diameters of slipping through the net topmost are minimum, and offer an ice mouth 7 in the side of cell body 1 bottom, an ice transport pipe 8 along cell body 1 depth direction has been connected in the side of ice mouth 7, ice transport pipe 8 upper end is parallel with cell body 1 upper end, bottom is connected to a slide rail being inclined to set 11, when ice transport pipe 8 starts to throw ice, ice cube drops on slide rail 11 from top to bottom, utilize the inclined plane on slide rail 11, ice cube is guided and enters directly into cell body 1 bottom.One piece of baffle plate 12 in ice mouth 7 bottom-hinged, utilize baffle plate 12 can cut off cell body 1 inner chamber and ice transport pipe 8, on cell body 1 one side, an elastic component 13 it is connected at baffle plate 12, it is preferably a spring, bottom spring one end and cell body 1 inconsistent, thus utilizing the scalability of the hinged effect bottom baffle plate 12 and cell body 1 and spring, when ice transport pipe 8 does not carry out throwing ice, utilize the state that the restoring force of spring is embedded mutually to support baffle plate 12 to keep with ice mouth 7, thus closing whole cell body 1, make cooling water will not flow in ice transport pipe 8, thus improve the service efficiency of cooling bay.When ice transport pipe 8 starts to throw ice, utilize the gravity that ice cube drops to overcome the damping force of spring, so that baffle plate 12 and ice mouth 7 depart from, ice cube is enable to enter into cell body 1 bottom, utilize the scalability of elastic component 13, achieve the automatic folding of cell body 1, it is to avoid manually go to be operated, make the whole throwing ice process more convenient.

nullIn addition，When throwing ice in ice transport pipe 8，Ice cube volume is bigger，So being provided with a rotating shaft parallel with cell body 1 depth direction in ice transport pipe 8，And the surrounding at rotating shaft has been uniformly distributed three cutting knifes 10，Cutting knife 10 surface has the knife edge，Can under the drive of rotating shaft，Cutting knife 10 is utilized to be crushed by large volume of ice cube，And in ice cube drops process, rotate the stirring rip cutting of axle，Berg is made to become the ice cube of different volumes size，Thus when entering into the bottom of cell body 1，Have different size of ice cube，Thus utilizing different size of mesh 6 diameter on 5 of slipping through the net，Just different size of ice cube can be separated in the insulating course that difference is slipped through the net between 5，So that fluid-through tube 2 can be surrounded by good mixture of ice and water around each section of outer wall from top to bottom in cell body 1，So that cooling bay in the depth direction each section can keep a low temperature state，Will not due to the little characteristic of ice cube density ratio water，And only there is ice cube on water surface surface，Avoid the rising of cell body 1 bottom coohng coolant-temperature gage.Acid stain in fluid-through tube 2 from top to bottom by time, good heat exchange can be carried out each section of cooling bay, thus reaching better cooling effect.

This specific embodiment is only to explanation of the present utility model; it is not to restriction of the present utility model; the present embodiment can be made the amendment not having creative contribution as required by those skilled in the art after reading this specification, but as long as being affected by the protection of Patent Law in right of the present utility model.

Claims (6)

1. a frozen water cooling bay, including cell body (1), fluid-through tube (2), water inlet pipe (3) and drain pipe, described fluid-through tube (2) wears cell body (1), it is characterized in that: be embedded with for by some slip through the net (5) of different volumes ice cube in described cell body (1) from bottom to up, described slip through the net (5) are equipped with some mesh (6), described mesh (6) size tapers off setting from bottom to up, and described cell body (1) bottom is provided with ice mouth (7).

2. a kind of frozen water cooling bay according to claim 1, is characterized in that: described cell body (1) side is provided with the ice transport pipe (8) along cell body (1) depth direction, and described ice transport pipe (8) bottom is connected with ice mouth (7).

3. a kind of frozen water cooling bay according to claim 2, is characterized in that: being provided with rotation axle (9) in described ice transport pipe (8), described rotation axle (9) is along the circumferential direction evenly arranged with cutting knife (10).

4. a kind of frozen water cooling bay according to claim 2, it is characterized in that: described ice transport pipe (8) bottom is provided with slide rail (11), described slide rail (11) is inclined to set, and described slide rail (11) is connected with ice mouth (7) away from ice transport pipe (8) one end.

5. a kind of frozen water cooling bay according to claim 2, it is characterized in that: described ice mouth (7) is provided with the baffle plate (12) for closing cell body (1), described baffle plate (12) side and cell body (1) bottom are in hinged setting, described cell body (1) bottom is provided with elastic component (13), and described baffle plate (12) is inconsistent with elastic component (13) near cell body (1) side.

6. a kind of frozen water cooling bay according to claim 1, is characterized in that: described fluid-through tube (2) is set to helical form, and described fluid-through tube (2) outer wall contacts with mixture of ice and water.