CN208770886U - Integrated suspension freezing concentrating device - Google Patents

Abstract

The utility model discloses a kind of integrated suspension freezing concentrating devices, including the accommodation unit for accepting raw material, freezing unit and control unit for cooling down to accommodation unit, the accommodation unit includes accepting chamber, the undertaking chamber includes superposed vitellarium portion, portion, nucleation area below the vitellarium portion, the freezing unit includes the heat exchanger plates positioned at the bottom in the nucleation portion, area, circularly cooling unit for cooling down to the heat exchanger plates, scraper component is provided on the bottom wall for accepting chamber, the scraper component includes wearing the bottom wall for accepting chamber and shape cooperates the scraper plate of the heat exchanger plates upper side wall, the scraper plate is rotated relative to the heat exchanger plates to remove the nucleus being grown on the heat exchanger plates.The utility model at least has the following advantages: integration degree is high, and compact-sized optimization.

Description

Integrated suspension freezing concentrating device

Technical field

The utility model relates to Freeze Concentration Technology more particularly to a kind of integrated suspension freezing concentrating devices.

Background technique

Method of the freeze concentration as solvent in a kind of effective removal solution, is widely used in the dense of thermosensitive solution In contracting processing.Freeze concentration mainly has gradual and two kinds floated.Gradual freezing concentrating device is simple, easy to operate, but It is as the carry out heat exchange efficiency of concentration process is low.Floated freeze concentration is high-efficient, but device is complicated.

Utility model content

The technical problem to be solved by the present invention is to provide a kind of integrated suspension freezing concentrating device, integrated journeys Degree is high, and compact-sized optimization.

In order to solve the above-mentioned technical problem, the utility model provides a kind of integrated suspension freezing concentrating device, including For accepting the accommodation unit of raw material, freezing unit and control unit for cooling down to accommodation unit, the undertaking is single Member includes accepting chamber, and the undertaking chamber includes superposed vitellarium portion, the portion, nucleation area below the vitellarium portion, The freezing unit includes the heat exchanger plates positioned at the bottom in the nucleation portion, area, the circulation for cooling down to the heat exchanger plates Refrigeration unit is provided with scraper component on the bottom wall for accepting chamber, and the scraper component includes wearing the bottom for accepting chamber Wall and shape cooperate the scraper plate of the heat exchanger plates upper side wall, and the scraper plate is rotated relative to the heat exchanger plates to remove and be grown in described change Nucleus on hot plate.

Further, the lower wall of the heat exchanger plates and the side wall for accepting chamber are tightly connected to form cooling chamber, described Freezing unit includes the cooling chamber, and the circularly cooling unit is connected to the cooling chamber by pipeline and forms circulation loop.

Further, described to accept the installation cavity being socketed on the outside of chamber with the undertaking chamber shape cooperation, the installation cavity The cavity in the corresponding vitellarium portion forms vacuum chamber.

Further, the installation cavity top is provided with the cover board for sealing the installation cavity respectively and accepting chamber, the lid It is provided on plate and protrudes into the agitating paddle accepted intracavitary portion and be used to that the nucleus to be driven to float.

Further, the bottom wall of the installation cavity seals the bottom for accepting chamber, opens up on the bottom wall of the installation cavity There is leakage fluid dram, and is provided with the strainer for filtering out the nucleus at the leakage fluid dram.

Further, it is offered on the cover board and is connected to the stomata for accepting chamber, the stomata is communicated with to be held to described Connect the compression assembly of chamber pressure.

Further, the scraper component include extend to along the vertical direction it is described accept it is intracavitary and wear the heat exchanger plates Scraper shaft, the elastic plate that is fixed on the scraper shaft, the scraper plate hingedly the elastic plate and is covered in described change On the upper side wall of hot plate.

Further, the upper side of the heat exchanger plates is in inverse Ba type shape.

Further, the exit of the circularly cooling unit is provided with the temperature measurement group for monitoring coolant temperature Part.

It, can be compared with the utility model at least has the following advantages: by being provided with freezing unit by above-mentioned technical proposal Well cool down raw material to generate nucleus；Preferably nucleus can be struck off from heat exchanger plates by scraper component, so that It obtains nucleus and rises to vitellarium portion homoepitaxial by natural buoyancy, until concentrate reaches preset concentration, concentrate is discharged；It is whole Integration degree is high for body, and compact-sized optimization.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the utility model；

Fig. 2 is the scraper component structural schematic diagram of the utility model；

Fig. 3 is the scraper component cross-sectional view of the utility model.

In the figures above: 1, accepting chamber；2, heat exchanger plates；3, circularly cooling unit；4, scraper plate；5, cooling chamber；6, installation cavity； 7, vacuum chamber；8, cover board；9, agitating paddle；10, leakage fluid dram；11, strainer；12, stomata；13, scraper shaft；14, elastic plate；15, warm Degree measurement component.

Specific embodiment

The utility model is described in further detail in the following with reference to the drawings and specific embodiments, so that those skilled in the art The utility model may be better understood and can be practiced, but illustrated embodiment is not as the restriction to the utility model.

Referring to figs. 1 and 2, the utility model discloses a kind of integrated suspension freezing concentrating devices, including are used for Accept accommodation unit, the freezing unit and control unit for cooling down to accommodation unit of raw material.In the utility model, institute Stating accommodation unit includes accepting chamber 1, and the undertaking chamber 1 includes superposed vitellarium portion, is located at below the vitellarium portion Portion, nucleation area.The outside for accepting chamber 1 is socketed with the installation cavity 6 with undertaking 1 shape of the chamber cooperation, and the installation cavity 6 is right The cavity in the vitellarium portion is answered to form vacuum chamber 7.By being provided with vacuum chamber 7, it can effectively completely cut off vitellarium portion and outer The heat exchange on boundary reduces thermal loss, structure optimization.

In the utility model, 6 top of installation cavity is provided with the cover board for sealing the installation cavity 6 respectively and accepting chamber 1 8, it is provided on the cover board 8 and protrudes into 1 inside of undertaking chamber and the agitating paddle 9 for driving the nucleus to float.By setting It is equipped with cover board 8, vitellarium portion and extraneous heat exchange can be reduced.Stirring electricity is fixedly installed on the lower surface of the cover board 8 Machine provides power source for agitating paddle 9.It is fixedly installed cover board handle on the upper surface of the cover board 8, it can be convenient for cover board 8 It takes, structure optimization.In the utility model, the bottom of the installation cavity 6 is provided with the support for being used to support the installation cavity 6 Frame.

In the utility model, the bottom wall of the installation cavity 6 seals the bottom for accepting chamber 1, the bottom wall of the installation cavity 6 On offer leakage fluid dram 10, and the strainer 11 for filtering out the nucleus is provided at the leakage fluid dram 10.The preferably described filter Net 11 is covered on the bottom wall of the installation cavity 6.It is offered on the cover board 8 and is connected to the stomata 12 for accepting chamber 1, the gas Hole 12 is communicated with the compression assembly to press to the undertaking chamber 1.By above-mentioned set-up mode, during drain, compression Component applies certain pressure to chamber 1 is accepted, so that concentrate quickly passes through strainer 11, completes drain movement.

In the utility model, the freezing unit includes the heat exchanger plates 2 positioned at the bottom in the nucleation portion, area, for institute State the circularly cooling unit 3 that heat exchanger plates 2 cool down.The lower wall of the heat exchanger plates 2 and the side wall for accepting chamber 1 seal and connect It connects to form cooling chamber 5, the freezing unit includes the cooling chamber 5, and the circularly cooling unit 3 is connected to described cold by pipeline But chamber 5 and circulation loop is formed.In the utility model, the exit of the preferably described circularly cooling unit 3 is provided with for supervising The temperature for controlling coolant temperature measures component 15.

It is accepted described in the utility model and is provided with scraper component on the bottom wall of chamber 1, the scraper component includes wearing institute It states the bottom wall for accepting chamber 1 and shape cooperates the scraper plate 4 of 2 upper side wall of heat exchanger plates, the scraper plate 4 is rotated relative to the heat exchanger plates 2 To remove the nucleus being grown on the heat exchanger plates 2.By above-mentioned set-up mode, scraper plate 4 can be effectively by heat exchanger plates 2 It is struck off in the nucleus grown on nucleation portion, area side, nucleus is avoided to grow on heat exchanger plates 2 and cause scraper plate 4 stuck.Wherein, institute It states agitating paddle 9 at work, is capable of providing the nucleus for assisting the scraper plate 4 to strike off and floats to the power in vitellarium portion, and realize Adequately mixing, compact-sized optimization.

In the utility model, the upper side of the heat exchanger plates 2 is in inverse Ba type shape；The scraper component includes along vertical side To extending in the undertaking chamber 1 and the bullet that wears the scraper shaft 13 of the heat exchanger plates 2, be fixed on the scraper shaft 13 Property plate 14, the hinged elastic plate 14 of the scraper plate 4 are simultaneously covered on the upper side wall of the heat exchanger plates 2.It is excellent in the utility model The material of scraper plate 4 described in selection of land uses high molecular material, and the frictional force with preferable wearability and between heat exchanger plates is small.Institute It states elastic plate 14 and the scraper plate 4 uses hinged connection type, enable to the angle adjustable of scraper plate 4 in order to be close to State heat exchanger plates 2.In the utility model, the material of the preferably described elastic plate 14 uses stainless steel, and the elastic plate 14 is close The side of the scraper shaft 13 offers the notch for abutting the scraper plate 4, can guarantee elastic plate by the setting of notch 14 have certain elasticity and do not lose rigidity.

In the utility model, the scraper component further includes being socketed the scraper shaft 13 and being fixed on 6 bottom of installation cavity Scraper plate shaft seal on wall.By being provided with scraper plate shaft seal, refrigerant and/or concentrate can be effectively prevent to leak.Institute State scraper plate shaft seal include circle tube form shell body, along the shell axis be successively set on the shell it is intracorporal first sealing Circle, the second sealing ring, third sealing ring and bearing composition.In the utility model, the material of the preferably described shell is using stainless Steel.

The working principle of the utility model is as follows, includes the following steps；

Step 1: starting refrigeration unit specifically includes: opening circularly cooling unit 3, and is arranged by control unit and is preset After reaching default cooling temperature, refrigerant is pumped into cooling chamber 5 for cooling temperature；

Step 2: adding raw materials into the undertaking chamber 1；

Step 3: starting stirring action specifically includes: step 31: opening scraper plate 4, and scraper plate 4 is arranged by control unit Preset rotation speed；Step 32: opening agitating paddle 9, and 9 preset rotation speed of agitating paddle is arranged by control unit；

Step 4: cooling action specifically includes: the heat of raw material is passed in cooling chamber 5 by heat exchanger plates 2 and is taken away by refrigerant, Until forming nucleus on heat exchanger plates 2, nucleus is struck off and floated up under the action of agitating paddle 9 by scraper plate 4 for material temperature decline Vitellarium portion, nucleus is in vitellarium portion homoepitaxial until reaching preset striking point；

Step 5: concentrate is collected, and is specifically included: being closed circularly cooling unit 3 and is applied by compression assembly to chamber 1 is accepted Pressure, concentrate are flowed into external supporting by leakage fluid dram 10；

Step 6: the secondary collection of concentrate specifically includes: cleaning, collects brilliant to the nucleus being reserved in undertaking chamber 1 The a small amount of concentrate carried secretly in core is collected and is completed.

Embodiment described above is only preferred embodiments for fully illustrating the utility model, the utility model Protection scope it is without being limited thereto.Those skilled in the art made equivalent substitute or change on the basis of the utility model It changes, both is within the protection scope of the present invention.The protection scope of the utility model is subject to claims.

Claims (9)

1. a kind of integration suspension freezing concentrating device, which is characterized in that including for accepting raw material accommodation unit, for pair The freezing unit and control unit that accommodation unit cools down, the accommodation unit include accepting chamber, and the undertaking chamber includes position Vitellarium portion in top, the portion, nucleation area below the vitellarium portion, the freezing unit include being located at the nucleation The heat exchanger plates of the bottom in portion, area, the circularly cooling unit for cooling down to the heat exchanger plates, it is described accept chamber bottom wall on It is provided with scraper component, the scraper component includes the bottom wall for wearing the undertaking chamber and shape cooperates the heat exchanger plates upper side wall Scraper plate, the scraper plate are rotated relative to the heat exchanger plates to remove the nucleus being grown on the heat exchanger plates.

2. integration suspension freezing concentrating device as described in claim 1, which is characterized in that the lower wall of the heat exchanger plates with The side wall for accepting chamber is tightly connected to form cooling chamber, and the freezing unit includes the cooling chamber, the circulating refrigerator Group is connected to the cooling chamber by pipeline and forms circulation loop.

3. integration suspension freezing concentrating device as described in claim 1, which is characterized in that the outside socket for accepting chamber There is the installation cavity with the undertaking chamber shape cooperation, the cavity that the installation cavity corresponds to the vitellarium portion forms vacuum chamber.

4. integration suspension freezing concentrating device as claimed in claim 3, which is characterized in that the installation cavity top is provided with The installation cavity is sealed respectively and accepts the cover board of chamber, is provided on the cover board and is protruded into the intracavitary portion of the undertaking and for driving The agitating paddle that the nucleus floats.

5. integration suspension freezing concentrating device as claimed in claim 3, which is characterized in that the bottom wall of the installation cavity seals The bottom for accepting chamber, offers leakage fluid dram on the bottom wall of the installation cavity, and be provided at the leakage fluid dram for filtering out The strainer of the nucleus.

6. integration suspension freezing concentrating device as claimed in claim 4, which is characterized in that offer connection on the cover board The stomata for accepting chamber, the stomata are communicated with the compression assembly to the undertaking chamber pressure.

7. integration suspension freezing concentrating device as described in claim 1, which is characterized in that the scraper component includes along perpendicular Histogram described accepts scraper shaft intracavitary and that wear the heat exchanger plates, the elasticity being fixed on the scraper shaft to extending to Plate, the scraper plate hingedly the elastic plate and are covered on the upper side wall of the heat exchanger plates.

8. integration suspension freezing concentrating device as described in claim 1, which is characterized in that the upper side of the heat exchanger plates is in Inverse Ba type shape.

9. integration suspension freezing concentrating device as described in claim 1, which is characterized in that the circularly cooling unit goes out The temperature measurement component for monitoring coolant temperature is provided at mouthful.