CN215995665U - Crystallization equipment is used in production of crystallization fructose - Google Patents

Abstract

The utility model discloses crystallization equipment for producing crystallized fructose, which comprises a crystallization device, a filter plate and a steam outlet pipe, wherein a heat conduction cover is arranged in the crystallization device, paired circulating pipes are arranged at the lower end of the heat conduction cover, a second air pump is arranged between the two circulating pipes, a condensate tank is arranged at the outer end of the crystallization device, and the two circulating pipes are respectively communicated with the two sides of the condensate tank. According to the utility model, the heat conduction cover, the heat conduction fins, the air guide pipe, the circulating pipe, the condensate tank, the second air pump, the three-way pipe and the connecting pipe are arranged, the condensate in the condensate tank can be circularly guided and sent through the circulating pipe, the temperature in the crystallizing device can be reduced by combining the heat conduction fins, and in addition, hot steam in the air guide pipe can be conveyed into the condensate tank for rapid temperature reduction, so that the temperature reduction efficiency is improved; according to the utility model, hot steam in the air duct is conveyed into the circulating pipe, the hot steam is circularly conveyed through the circulating pipe, and the heat-conducting fins are combined to preserve heat in the crystallization device, so that the energy conservation is facilitated.

Description

Crystallization equipment is used in production of crystallization fructose

Technical Field

The utility model relates to the technical field of fructose crystallization, and particularly relates to crystallization equipment for producing crystallized fructose.

Background

Fructose is one of the most common ketohexoses. Is present in honey and fruits, and is combined with glucose to form sucrose for daily use. Fructose, which contains 6 carbon atoms and is also a monosaccharide, is an isomer of glucose, and is present in large amounts in the free state in fruit juices and honey, and can also combine with glucose to form sucrose. The pure fructose is colorless crystal, has a melting point of 103-105 ℃, is not easy to crystallize, is usually viscous liquid, and is easy to dissolve in water, ethanol and diethyl ether. D-fructose is the sweet monosaccharide.

The publication number is CN207708563U proposes a crystallization device for crystalline fructose, the device is provided with a circulating device, a heating chamber, a circulating pump, a crystallization device, a filter plate, a jacket layer, a stirrer and the like, the stirrer is arranged to facilitate the effective stirring of colloidal crystalline fructose, the filter plate made of multiple groups of materials is arranged inside a feeding bin, a drainage column is additionally arranged to facilitate the effective transmission of crystalline fructose between layers and increase the flow rate and the filtering effect, but in the device, only a condensate is introduced into the jacket layer, the cooling efficiency is low, in addition, the hot steam led out by heating is not processed and output, and the energy conservation is not facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a crystallizing device for producing crystallized fructose.

In order to achieve the purpose, the technical scheme adopted by the utility model is as follows: the utility model provides a crystallization equipment is used in production of crystalline fructose, includes crystallization device, filter and steam outlet pipe, be equipped with the heat conduction cover in the crystallization device, and the heat conduction cover lower extreme is equipped with circulation pipe in pairs, two be equipped with the second air pump between the circulation pipe, the crystallization device outer end is equipped with the condensate tank, and two circulation pipes are linked together with condensate tank both sides respectively, the adjacent end of second air pump inlet end and two circulation pipes all communicates, the second air pump is given vent to anger and is held and the condensate tank and be linked together, the intercommunication has the air duct on the steam outlet pipe, and the one end and one side circulation pipe that the steam outlet pipe was kept away from to the air duct are linked together, it has the conducting strip to run through on installing first air pump on the steam outlet pipe, and the conducting strip extends to in the circulation pipe, keeps away from air duct one side the intercommunication has the blast pipe on the circulation pipe.

Preferably, the stirring is responsible for in the heat conduction cover inner cover wall rotation installation, heat conduction cover intracavity fixed mounting has the motor, and motor output and stirring are responsible for fixed connection, the stirring is responsible for and is equipped with the gas pocket on extending to heat conduction cover intracavity one end pipe wall, the stirring is responsible for and is gone up fixed mounting and has the stirring to be in charge of, and the stirring is responsible for the lumen and is linked together with the stirring and be in charge of the lumen.

Preferably, the air duct is communicated with an air distribution pipe, the air distribution pipe extends into the crystallization device, an air guide cover is fixedly installed on the extending end, and the air guide cover is opposite to the filter plate.

Preferably, the air inlet end of the second air pump is fixedly connected with the two circulating pipes through a three-way pipe, and the air outlet end of the second air pump is fixedly connected with the condensate tank through a connecting pipe.

Preferably, the heat-conducting fins are arranged and distributed along the heat-conducting cover in a transverse array, and a sealing ring is arranged on the inner opening wall of the through opening, which is contacted with the heat-conducting fins, of the heat-conducting cover.

Preferably, install pressure sensor and release valve on the blast pipe, install first solenoid valve on the circulating pipe, and install the second solenoid valve on the air duct, equal electric connection of pressure sensor, release valve, first solenoid valve and second solenoid valve and outer end control device.

Preferably, the wall of the condensate tank is covered with an insulating layer.

Compared with the prior art, the utility model has the advantages that:

according to the utility model, the heat conduction cover, the heat conduction fins, the air guide pipe, the circulating pipe, the condensate tank, the second air pump, the three-way pipe and the connecting pipe are arranged, so that condensate in the condensate tank can be circularly guided and sent through the circulating pipe, and the temperature in the crystallizing device is reduced by combining the heat conduction fins; the circulating pipe circularly guides hot gas, and the heat conducting fins are combined to preserve heat in the crystallization device, so that energy is saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a crystallization apparatus for producing crystallized fructose according to the present invention;

FIG. 2 is a schematic diagram of the installation structure of a main stirring pipe and branch stirring pipes of the crystallization equipment for producing crystalline fructose;

FIG. 3 is a schematic view of the installation structure of a heat conducting fin of the crystallization device for producing crystallized fructose on a heat conducting cover;

fig. 4 is an enlarged schematic view of a in fig. 1.

In the figure: the device comprises a crystallization device 1, a heat conduction cover 2, a heat conduction sheet 3, a circulation pipe 4, a first electromagnetic valve 5, a condensate tank 6, a steam outlet pipe 7, an air guide pipe 8, a first air pump 9, a gas distribution pipe 10, a gas guide cover 11, a filter plate 12, a second electromagnetic valve 13, an exhaust pipe 14, a pressure sensor 15, an air release valve 16, a stirring main pipe 17, a stirring branch pipe 18, a motor 19, a second air pump 20, a three-way pipe 21 and a connecting pipe 22.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the scope of the present invention will be more clearly and clearly defined.

Referring to fig. 1-4, the utility model provides a crystallization device for producing crystallized fructose, which comprises a crystallization device 1, a filter plate 12 and a steam outlet pipe 7, wherein a heat conduction cover 2 is arranged in the crystallization device 1, paired circulation pipes 4 are arranged at the lower end of the heat conduction cover 2, a second air pump 20 is arranged between the two circulation pipes 4, a condensate tank 6 is arranged at the outer end of the crystallization device 1, the two circulation pipes 4 are respectively communicated with two sides of the condensate tank 6, the air inlet end of the second air pump 20 is communicated with the adjacent ends of the two circulation pipes 4, the air outlet end of the second air pump 20 is communicated with the condensate tank 6, the air inlet end of the second air pump 20 is fixedly connected with the two circulation pipes 4 through a three-way pipe 21, the air outlet end of the second air pump 20 is fixedly connected with the condensate tank 6 through a connecting pipe 22, and the condensate tank 6 and the two circulation pipes 4 form a circulation passage through the three-way pipe 21 and the connecting pipe 22.

The wall of the condensate tank 6 is covered with a heat preservation layer, and the heat preservation layer plays a role in preserving heat in the condensate tank 6.

The intercommunication has air duct 8 on steam outlet pipe 7, and air duct 8 keeps away from the one end and the one side circulating pipe 4 of steam outlet pipe 7 and is linked together, install first air pump 9 on the steam outlet pipe 7, the intercommunication has trachea 10 on the air duct 8, trachea 10 extends to in the crystallization device 1, and extend and serve fixed mounting have air guide cover 11, air guide cover 11 is just to filter 12, air guide cover 11 blowout hot steam concentrates on heating to filter 12, guarantee that the fructose material that passes through is fully heated, avoid the fructose material to be heated totally and the adhesion to block up filter 12, also carry out reutilization to exporting hot steam in addition.

Run through on the heat conduction cover 2 and have the conducting strip 3, and in conducting strip 3 extended to circulating pipe 4, conducting strip 3 was horizontal array dress and distributes along heat conduction cover 2, and establishes the sealing washer on the mouth wall in the opening that runs through of heat conduction cover 2 and the contact of conducting strip 3, establishes the sealing washer and guarantees that conducting strip 3 runs through heat conduction cover 2 when, guarantees its seal installation, avoids the liquid material to reveal in going into heat conduction cover 2.

2 inner cover walls of heat conduction cover rotate to install the stirring and be responsible for 17, and extend to 2 cover intracavity of heat conduction cover, 2 cover intracavity fixed mounting of heat conduction cover has motor 19, and the motor 19 output is responsible for 17 fixed connection with the stirring, the stirring is responsible for 17 and is extended to 2 cover intracavity one end pipe walls and be equipped with the gas pocket, fixed mounting has the stirring to be in charge of on 17 to divide and manage 18 pipes, and the stirring is responsible for 17 pipes and is divided 18 pipes and be linked together, when the fin 3 heats or cools down heat conduction cover 2 cover chambeies with the air conditioning of condensate transmission or the steam of steam transmission, air conditioning or steam can be transmitted again the gas pocket to the stirring and be responsible for 17 and the stirring and divide 18 pipe intracavity, the stirring is responsible for 17 and the stirring and divide 18 abundant contact materials of pipe under the stirring effect, guarantee to heat or the cooling effect more evenly comprehensive.

Keep away from 8 one sides of air duct circulating pipe 4 on the intercommunication have blast pipe 14, install pressure-sensitive device 15 and release valve 16 on the blast pipe 14, install first solenoid valve 5 on the circulating pipe 4, and install second solenoid valve 13 on the air duct 8, pressure-sensitive device 15, release valve 16, first solenoid valve 5 and second solenoid valve 13 and the equal electric connection of outer end controlgear, when pressure-sensitive device 15 surveyed 14 internal gas pressures of blast pipe and reached the settlement standard value, can give external controller with signal transmission, external controlgear control release valve 16 opens, lose air, and accessible external control equipment controls first solenoid valve 5 or second solenoid valve 13, with the switching condition of control circulating pipe 4 and air duct 8.

The working principle is as follows: in the heating process, output hot steam is conveyed into the circulating pipe 4 at one side through the air guide pipe 8, the circulating pipe 4 at one side conveys the steam into the circulating pipe 4 at the other side through the three-way pipe 21, the first electromagnetic valve 5 and the second air pump 20 are both in a closed state, the hot steam cannot enter the condensate tank 6, and the hot steam guides heat into the crystallization device 1 through the heat conducting sheet 3 to heat and preserve heat of materials;

when the crystallization needs cooling, the first electromagnetic valve 5 and the second air pump 20 can be opened, so that the condensate circularly flows in the two circulating pipes 4, the cooling liquid contacts the heat conducting fins 3, the heat conducting fins 3 conduct low-temperature conduction, and the crystallization device 1 is cooled.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, various changes or modifications may be made by the patentees within the scope of the appended claims, and within the scope of the utility model, as long as they do not exceed the scope of the utility model described in the claims.

Claims (7)

1. The utility model provides a crystallization equipment is used in production of crystallization fructose, includes crystallization unit, filter and steam outlet pipe, its characterized in that: be equipped with the heat conduction cover in the crystallization device, and the heat conduction cover lower extreme is equipped with circulation pipe in pairs, two be equipped with the second air pump between the circulation pipe, the crystallization device outer end is equipped with the condensate tank, and two circulation pipes are linked together with condensate tank both sides respectively, second air pump inlet end and two adjacent ends of circulation pipe all communicate, the second air pump is given vent to anger and is held and the condensate tank and be linked together, the intercommunication has the air duct on the steam outlet pipe, and the air duct keeps away from the one end and one side circulation pipe of steam outlet pipe and be linked together, it has the conducting strip to run through on installing first air pump on the steam outlet pipe, and the conducting strip extends to in the circulation pipe, keeps away from air duct one side the intercommunication has the blast pipe on the circulation pipe.

2. The crystallization apparatus for producing crystallized fructose according to claim 1, wherein: the stirring pipe is characterized in that a stirring main pipe is installed on the inner wall of the heat conduction cover in a rotating mode, a motor is installed in the cavity of the heat conduction cover in a fixed mode, the output end of the motor is fixedly connected with the stirring main pipe, an air hole is formed in one end of the pipe wall, extending to the cavity of the heat conduction cover, of the stirring main pipe, the stirring main pipe is fixedly installed with a stirring branch pipe, and the pipe cavity of the stirring main pipe is communicated with the pipe cavity of the stirring branch pipe.

3. The crystallization apparatus for producing crystallized fructose according to claim 1, wherein: the gas guide pipe is communicated with a gas distribution pipe, the gas distribution pipe extends into the crystallization device, a gas guide cover is fixedly installed on the extending end, and the gas guide cover is opposite to the filter plate.

4. The crystallization apparatus for producing crystallized fructose according to claim 1, wherein: the air inlet end of the second air pump is fixedly connected with the two circulating pipes through a three-way pipe, and the air outlet end of the second air pump is fixedly connected with the condensate tank through a connecting pipe.

5. The crystallization apparatus for producing crystallized fructose according to claim 1, wherein: the heat conducting fins are arranged and distributed along the heat conducting cover in a transverse array mode, and a sealing ring is arranged on the inner opening wall of the penetrating opening, in contact with the heat conducting fins, of the heat conducting cover.

6. The crystallization apparatus for producing crystallized fructose according to claim 1, wherein: install pressure sensor and release valve on the blast pipe, install first solenoid valve on the circulating pipe, and install the second solenoid valve on the air duct, equal electric connection of pressure sensor, release valve, first solenoid valve and second solenoid valve and outer end control device.

7. The crystallization apparatus for producing crystallized fructose according to claim 1, wherein: and the wall of the condensate tank is covered with a heat-insulating layer.

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