CN111690502A - High-efficient concentrated purification device of hydromel processing usefulness - Google Patents

Abstract

The invention discloses a high-efficiency concentration and purification device for honey wine processing, which comprises a container barrel, wherein the container barrel is divided into an outer heat-insulation barrel and an inner heating barrel, the top of the inner heating barrel protrudes out of the top plane of the outer heat-insulation barrel and is designed into a round table structure, the top of the round table structure is provided with a vacuumizing device, the vacuumizing device comprises a vacuum tube, the vacuumizing device is communicated and connected with the inner part of the inner heating barrel through the vacuum tube, a partition plate is horizontally cast and welded on the inner wall of the inner heating barrel, a discharge tube is arranged on one side of the outer heat-insulation barrel, one end of the discharge tube sequentially penetrates through the outer heat-insulation barrel and the inner heating barrel shell and extends to the upper end of the partition plate, one end of the upper surface of the partition plate, far away from the discharge tube. The discharging process of the invention better isolates the external air, so that the essence of the honey wine is not affected by oxidation, and the quality of the purified product is improved.

Description

High-efficient concentrated purification device of hydromel processing usefulness

Technical Field

The invention mainly relates to the technical field of honey wine processing equipment, in particular to a high-efficiency concentration and purification device for honey wine processing.

Background

The honey wine is one kind of wine and is prepared through diluting honey with water and fermenting to produce alcohol. The honey contains extremely high sugar, the microorganisms are difficult to propagate due to extremely high osmotic pressure, the concentration of the sugar is reduced after the honey is diluted by water, and the yeast can propagate under proper osmotic pressure to start fermentation. Even if the honey is only diluted by water, the natural yeast which falls into the honey in the air and is in a dormant state can be propagated and fermented. The artificial addition of yeast may reduce the chance of failure.

The existing honey wine concentration and purification equipment only has a simple heating and concentration function, and can contact external air in a concentrated solution extraction process, so that concentrated and purified essence is influenced by oxidation, and the quality of purified products is reduced.

Disclosure of Invention

The invention mainly provides a high-efficiency concentration and purification device for processing honey wine, which is used for solving the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a high-efficiency concentration and purification device for honey wine processing comprises a container barrel, wherein the container barrel is divided into an outer heat-insulation barrel and an inner heating barrel, the top of the inner heating barrel protrudes out of the top plane of the outer heat-insulation barrel and is designed into a circular truncated cone structure, the top of the circular truncated cone structure is provided with a vacuumizing device, the vacuumizing device comprises a vacuum tube, the vacuum tube penetrates through a top shell of the inner heating barrel, and the vacuumizing device is communicated with the inside of the inner heating barrel through the vacuum tube;

a partition plate is horizontally cast-welded on the inner wall of the inner heating barrel, a discharge pipe is arranged on one side of the outer heat-insulating barrel, one end of the discharge pipe sequentially penetrates through the outer heat-insulating barrel and the inner heating barrel shell and extends to the upper end of the partition plate, and one end, far away from the discharge pipe, of the upper surface of the partition plate is inclined upwards;

a material pumping pipe is vertically arranged on one side of the partition plate, the top of the material pumping pipe penetrates through the partition plate and is close to the pipe opening of the material discharging pipe, and the lower end of the material pumping pipe extends to the bottom of the internal heating barrel and is in threaded connection with a mesh filter head.

Further, evacuating device is still including cavity post, motor, intake pipe, exhaust tube, one-way solenoid valve and loudspeaker cover of breathing in, cavity post level set up and by the bottom pedestal with round platform structure top is through the bolt fastening, intake pipe and exhaust tube respectively with two pairs of threaded connection of cavity post.

Further, the motor is vertically fixed in the upper end of the circumferential wall of the hollow column, the motor output shaft movably penetrates through the hollow column shell to extend to the inside and is fixedly inserted with an air exhaust impeller, the vacuum tube is located under the air exhaust impeller and penetrates through the lower end shell of the hollow column, the one-way electromagnetic valve is fixed to the top in the circular truncated cone structure and is connected with the vacuum tube, and the lower end of the one-way electromagnetic valve is in threaded connection with the horn air suction cover.

Further, outer heat preservation bucket bottom is equipped with the heating chamber, install electric heater in the heating chamber, electric heating pipe is connected at the electric heater top, electric heating pipe vertically goes up to wear interior heating bottom of the drum portion casing and extends to inside, electric heating pipe top with division board lower surface contactless.

Further, the bottom of the electric heating pipe is alternately connected with an I-shaped sealing ring, a heat-resistant rubber ring is sleeved in an annular groove of the I-shaped sealing ring, the I-shaped sealing ring is inlaid on a bottom plate of the internal heating barrel and is in sealing connection with the bottom of the internal heating barrel through the heat-resistant rubber ring, and the bottom of the I-shaped sealing ring is integrally connected with the top of the electric heater.

Furthermore, the bottom of the container barrel is fixedly sleeved with a supporting base, and the bottom of the electric heater is fixedly connected with the upper surface of the supporting base through a bolt.

Furthermore, an electromagnetic discharging switch valve is arranged on the pipe body of the discharging pipe close to the outer wall of the outer heat-preservation barrel.

Further, container bucket outer wall both sides are connected with inlet pipe and condenser pipe respectively, inlet pipe and condenser pipe all run through outer heat-preserving container and interior heating barrel casing in proper order and continue to run through after bending downwards the division board, just install electromagnetism feed switch valve and electromagnetism steam switch valve on the outside body of inlet pipe and condenser pipe respectively.

Furthermore, be equipped with the screen display controller on the container bucket outer wall, the screen display controller is embedded on outer heat-preserving container, just the screen display controller is electric connection with electric heater, electromagnetism feed switch valve, electromagnetism steam switch valve, electromagnetism ejection of compact ooff valve, motor and one-way solenoid valve respectively through the wire.

Compared with the prior art, the invention has the beneficial effects that:

the invention forms a container barrel by an outer heat-insulating barrel and an inner heating barrel, a vacuumizing device is arranged at the top end of a circular truncated cone structure at the top of the inner heating barrel, a vacuum tube is communicated with the inner heating barrel, a partition plate is horizontally cast and welded on the inner wall of the inner heating barrel and is divided into an upper cavity and a lower cavity by the partition plate, when discharging is carried out, the vacuumizing device works to lead the air in the upper cavity to be pumped away to form negative pressure, so that a mesh filter head at the lower end of a pumping tube sucks concentrated and purified essence in the lower cavity and enters the upper cavity from the top of the pumping tube, one side of the partition plate is a tube opening of a discharging tube, the essence flows out from the tube opening to enter the discharging tube and is sent into an external storage article, the discharging process better isolates external air, the essence is prevented from being oxidized, the quality of the purified product is improved, and one end of the upper, so that the essence is not easy to remain and the waste is reduced.

The present invention will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a sectional view showing the inner structure of the container barrel according to the present invention;

FIG. 3 is an enlarged view of area A in FIG. 2;

fig. 4 is an enlarged view of region B in fig. 2.

Description of the drawings: 1. a container barrel; 11. an outer heat-insulating barrel; 11a, a heating cavity; 12. an internal heating barrel; 12a, a partition plate; 12b, a material pumping pipe; 12b-1, a mesh filter head; 13. an electric heater; 13a, an electric heating pipe; 13b, an I-shaped sealing ring; 13b-1, heat-resistant rubber ring; 2. a feed pipe; 21. an electromagnetic feed on-off valve; 3. a condenser tube; 31. an electromagnetic steam switch valve; 4. a discharge pipe; 41. an electromagnetic discharge switch valve; 5. a vacuum pumping device; 51. a hollow column; 52. a motor; 52a, an exhaust impeller; 53. an air inlet pipe; 54. an air exhaust pipe; 55. a one-way solenoid valve; 56. a vacuum tube; 57. a horn air suction cover; 6. a screen display controller; 7. and a base is supported.

Detailed Description

In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in different forms and not limited to the embodiments described herein, but which are provided so as to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the knowledge of the terms used herein in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

In the embodiment, referring to fig. 1-4, a high-efficiency concentration and purification device for honey wine processing comprises a container barrel 1, wherein the container barrel 1 is divided into an outer heat-preservation barrel 11 and an inner heating barrel 12, the top of the inner heating barrel 12 protrudes out of the top plane of the outer heat-preservation barrel 11 and is in a circular truncated cone structure, the top of the circular truncated cone structure is provided with a vacuum pumping device 5, the vacuum pumping device 5 comprises a vacuum tube 56, the vacuum tube 56 penetrates through the top shell of the inner heating barrel 12, the vacuum pumping device 5 is in through connection with the inside of the inner heating barrel 12 through the vacuum tube 56, a partition plate 12a is horizontally cast and welded on the inner wall of the inner heating barrel 12, one side of the outer heat-preservation barrel 11 is provided with a discharge tube 4, one end of the discharge tube 4 sequentially penetrates through the shells of the outer heat-preservation barrel 11 and the inner heating barrel 12 and extends to the upper end of the partition plate, the device has the advantages that the sucked essence can be collected towards the discharge pipe 4 better, the pumping pipe 12b is vertically arranged on one side of the partition plate 12a, the top of the pumping pipe 12b penetrates through the partition plate 12a and is close to the pipe opening of the discharge pipe 4, the lower end of the pumping pipe 12b extends to the bottom of the internal heating barrel 12 and is connected with the mesh filter head 12b-1 in a threaded mode, the filtering effect is achieved, and precipitates are limited.

In an embodiment, referring to fig. 3, the vacuum pumping device 5 further includes a hollow column 51, a motor 52, an air inlet pipe 53, an air exhaust pipe 54, a one-way electromagnetic valve 55 and a horn air suction cover 57, the hollow column 51 is horizontally disposed and fixed to the top of the circular truncated cone structure by a bottom seat through a bolt, the air inlet pipe 53 and the air exhaust pipe 54 are respectively connected to two pairs of threads of the hollow column 51, one end of the air exhaust pipe 54 is connected to an external air suction pump, the motor 52 is vertically fixed to the upper end of the circumferential wall of the hollow column 51, an output shaft of the motor 52 movably penetrates through the casing of the hollow column 51 and extends to the inside to be fixedly inserted with an air exhaust impeller 52a, the motor 52 drives the air exhaust impeller 52a to rotate at a high speed to accelerate air extraction, the vacuum pipe 56 is located right below the air exhaust impeller 52a and penetrates through the casing at the lower end of the hollow column 51, the one, the lower end of the one-way electromagnetic valve 55 is in threaded connection with a horn air suction cover 57, and the opening and closing of the one-way electromagnetic valve 55 determines whether air extraction is needed.

In an embodiment, referring to fig. 1, 2 and 4, a heating cavity 11a is formed at the bottom of the outer heat-preserving container 11, an electric heater 13 is installed in the heating cavity 11a, the top of the electric heater 13 is connected with an electric heating pipe 13a, the electric heater 13 is powered on to enable the electric heating pipe 13a to generate a heating phenomenon, so as to heat the honey wine in the inner heating container 12, the electric heating pipe 13a vertically penetrates through the bottom shell of the inner heating container 12 and extends to the inside, the top of the electric heating pipe 13a is not in contact with the lower surface of the partition plate 12a, an i-shaped sealing ring 13b is penetratingly connected to the bottom of the electric heating pipe 13a, a heat-resistant rubber ring 13b-1 is sleeved in an annular groove of the i-shaped sealing ring 13b, the i-shaped sealing ring 13b is inlaid on the bottom plate of the inner heating container 12 and is in sealing connection with the heat-resistant rubber ring, and the bottom of the I-shaped sealing ring 13b is integrally connected with the top of the electric heater 13, the bottom of the container barrel 1 is fixedly sleeved with the supporting base 7, and the bottom of the electric heater 13 is fixedly connected with the upper surface of the supporting base 7 through a bolt, so that the electric heater is convenient to detach and install.

In the embodiment, referring to fig. 1-3, an electromagnetic discharging switch valve 41 is installed on a pipe body of the discharging pipe 4 close to the outer wall of the outer heat-preserving container 11, a feeding pipe 2 and a condensing pipe 3 are respectively connected to two sides of the outer wall of the container barrel 1, the feeding pipe 2 and the condensing pipe 3 sequentially penetrate through the shells of the outer heat-preserving container 11 and the inner heating container 12 and are bent downwards to continue to penetrate through the partition plate 12a, an electromagnetic feeding switch valve 21 and an electromagnetic steam switch valve 31 are respectively installed on the outer pipe bodies of the feeding pipe 2 and the condensing pipe 3, a screen display controller 6 is installed on the outer wall of the container barrel 1, the screen display controller 6 is embedded in the outer heat-preserving container 11, and the screen display controller 6 is electrically connected with an electric heater 13, the electromagnetic feeding switch valve 21, the electromagnetic steam switch valve 31, the electromagnetic discharging switch valve 41, a motor 52 and a one-way electromagnetic valve 55 through wires respectively, the electromagnetic feeding switch valve 21 is controlled to be opened through a screen display controller 6 which is mainstream in the market, feeding work can be carried out by utilizing the feeding pipe 2, and the electromagnetic steam switch valve 31 is opened during heating, so that steam can enter the condensation pipe 3 to circulate and present a phenomenon of condensation liquefaction treatment.

The specific process of the invention is as follows:

firstly, the electromagnetic feeding switch valve 21 is controlled to be opened by the screen display controller 6, the honey wine is injected into a cavity below a partition plate 12a of the inner heating barrel 12 from the feeding pipe 2, then the electric heater 13 is started to work by electrifying, the electric heating pipe 13a generates a heating phenomenon, the honey wine in the inner heating barrel 12 is heated, the honey wine is concentrated and purified, meanwhile, the electromagnetic steam switch valve 31 is also started, the steam generated by heating enters the condensation pipe 3 to be condensed and liquefied, after the purification is finished, the electric heater 13, the electromagnetic feeding switch valve 21 and the electromagnetic steam switch valve 31 are kept closed, then the one-way electromagnetic valve 55 is started, the vacuum pipe 56 can circulate air, meanwhile, the motor 52 is started to work, the exhaust impeller 52a is driven to rotate at a high speed, and under the condition that the exhaust pipe 54 is connected with the exhaust pump to perform air extraction, the one-way high-speed air flow is formed by matching with the air inlet, the cavity above the partition plate 12a is conveniently pumped away along the vacuum tube 56, so that the cavity above the partition plate 12a enters a negative pressure state, and is influenced by the state, the essence in the cavity below the partition plate 12a is sucked into the cavity above the partition plate 12a from the mesh filter head 12b-1 at the bottom of the pumping pipe 12b and enters the discharge pipe 4, along with the opening of the electromagnetic discharge switch valve 41 on the discharge pipe 4, the essence can be sent into corresponding storage articles along the discharge pipe 4, when the essence is sucked to a certain degree, the one-way electromagnetic valve 55 is closed, and the essence is prevented from entering the hollow column 51.

The invention is described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the above-described embodiments, and it is within the scope of the invention to adopt such insubstantial modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims (9)

1. The efficient concentration and purification device for honey wine processing comprises a container barrel (1) and is characterized in that the container barrel (1) is divided into an outer heat-insulating barrel (11) and an inner heating barrel (12), the top of the inner heating barrel (12) protrudes out of the top plane of the outer heat-insulating barrel (11) and is in a circular truncated cone structure, a vacuumizing device (5) is mounted at the top of the circular truncated cone structure, the vacuumizing device (5) comprises a vacuum tube (56), the vacuum tube (56) penetrates through a top shell of the inner heating barrel (12), and the vacuumizing device (5) is communicated with the inside of the inner heating barrel (12) through the vacuum tube (56);

a partition plate (12 a) is horizontally cast-welded on the inner wall of the inner heating barrel (12), a discharge pipe (4) is arranged on one side of the outer heat-insulating barrel (11), one end of the discharge pipe (4) sequentially penetrates through the outer heat-insulating barrel (11) and the inner heating barrel (12) and extends to the upper end of the partition plate (12 a), and one end, far away from the discharge pipe (4), of the upper surface of the partition plate (12 a) is inclined upwards;

a material pumping pipe (12 b) is vertically arranged on one side of the separation plate (12 a), the top of the material pumping pipe (12 b) penetrates through the separation plate (12 a) and is close to a pipe opening of the material discharging pipe (4), and the lower end of the material pumping pipe (12 b) extends to the bottom of the inner heating barrel (12) and is in threaded connection with a mesh filter head (12 b-1).

2. The efficient concentration and purification device for honey wine processing according to claim 1, wherein the vacuum extractor (5) further comprises a hollow column (51), a motor (52), an air inlet pipe (53), an air extraction pipe (54), a one-way solenoid valve (55) and a horn air suction cover (57), the hollow column (51) is horizontally arranged and fixed with the top of the circular truncated cone structure through a bolt by a bottom base body, and the air inlet pipe (53) and the air extraction pipe (54) are respectively in two pairs of threaded connection with the hollow column (51).

3. The efficient concentration and purification device for honey wine processing according to claim 2, wherein the motor (52) is vertically fixed at the upper end of the circumferential wall of the hollow column (51), the output shaft of the motor (52) movably penetrates through the casing of the hollow column (51) to extend to the inside, an exhaust impeller (52 a) is fixedly inserted in the casing, the vacuum pipe (56) is positioned under the exhaust impeller (52 a) and penetrates through the casing at the lower end of the hollow column (51), the one-way electromagnetic valve (55) is fixed at the top in the circular truncated cone structure and connected with the vacuum pipe (56), and the lower end of the one-way electromagnetic valve (55) is in threaded connection with the horn air suction cover (57).

4. The efficient concentration and purification device for the honey wine processing according to claim 3, wherein the bottom of the outer heat-preserving barrel (11) is provided with a heating cavity (11 a), an electric heater (13) is installed in the heating cavity (11 a), the top of the electric heater (13) is connected with an electric heating pipe (13 a), the electric heating pipe (13 a) vertically penetrates through the bottom shell of the inner heating barrel (12) and extends to the inside, and the top of the electric heating pipe (13 a) is not in contact with the lower surface of the partition plate (12 a).

5. The efficient concentration and purification device for the honey wine processing according to claim 4, wherein an I-shaped sealing ring (13 b) is inserted and connected to the bottom of the electric heating pipe (13 a), a heat-resistant rubber ring (13 b-1) is sleeved in an annular groove of the I-shaped sealing ring (13 b), the I-shaped sealing ring (13 b) is embedded on a bottom plate of the inner heating barrel (12) and is in sealing connection with the bottom of the I-shaped sealing ring (13 b) through the heat-resistant rubber ring (13 b-1), and the bottom of the I-shaped sealing ring (13 b) is integrally connected with the top of the electric heater (13).

6. The efficient concentration and purification device for the honey wine processing as claimed in claim 5, wherein the bottom of the container barrel (1) is fixedly sleeved with a supporting base (7), and the bottom of the electric heater (13) is fixedly connected with the upper surface of the supporting base (7) through bolts.

7. The efficient concentration and purification device for the honey wine processing according to claim 6, wherein the electromagnetic discharging switch valve (41) is installed on the pipe body of the discharging pipe (4) close to the outer wall of the outer heat-preserving barrel (11).

8. The efficient concentration and purification device for the honey wine processing according to claim 7, wherein the two sides of the outer wall of the container barrel (1) are respectively connected with a feeding pipe (2) and a condensing pipe (3), the feeding pipe (2) and the condensing pipe (3) sequentially penetrate through the shells of the outer heat preservation barrel (11) and the inner heating barrel (12) and continuously penetrate through the partition plate (12 a) after being bent downwards, and the outer pipe bodies of the feeding pipe (2) and the condensing pipe (3) are respectively provided with an electromagnetic feeding switch valve (21) and an electromagnetic steam switch valve (31).

9. The efficient concentration and purification device for honey wine processing as claimed in claim 8, wherein a screen display controller (6) is arranged on the outer wall of the container barrel (1), the screen display controller (6) is embedded in the outer heat-preservation barrel (11), and the screen display controller (6) is electrically connected with the electric heater (13), the electromagnetic feeding switch valve (21), the electromagnetic steam switch valve (31), the electromagnetic discharging switch valve (41), the motor (52) and the one-way electromagnetic valve (55) through wires respectively.

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