CN219141192U - Probiotics liquid nitrogen drop freezing device - Google Patents

Abstract

The utility model discloses a probiotics liquid nitrogen drip freezing device which comprises a device main body, a telescopic rod, a freezing box, a collecting plate and a baffle ring, wherein the telescopic rod is arranged in the device main body, the freezing box is arranged at the top of the telescopic rod, the collecting plate is arranged in the freezing box, the outer diameter of the collecting plate is smaller than the inner diameter of the freezing box, an insulating layer is arranged in the freezing box, the baffle ring is arranged on the top surface of the collecting plate, a filter tank is arranged in the middle of the collecting plate, and a filter screen is arranged in the filter tank. This device is frozen to probiotic liquid nitrogen drop is provided with the closing plate, through the removal to the closing plate, can make the closing plate drive the collecting plate and remove out the device main part, collect the probiotic ice pearl in the outside of device main part, make the liquid nitrogen in the freezer lie in the inside of device main part all the time, reduced the contact of liquid nitrogen and outside air, reduced the temperature variation of liquid nitrogen, improved the utilization ratio to the liquid nitrogen, reduction in production cost.

Description

Probiotics liquid nitrogen drop freezing device

Technical Field

The utility model relates to the technical field of liquid nitrogen quick freezing, in particular to a probiotics liquid nitrogen drip freezing device.

Background

The liquid nitrogen quick freezing technology is a technology for applying liquid nitrogen to quick freezing of foods, and along with the demands of people on fresh-keeping foods, the liquid nitrogen quick freezing technology starts to slowly rise in China in recent years, and the liquid nitrogen is colorless, odorless and low-viscosity transparent liquid and has stable chemical properties. The boiling point of liquid nitrogen under normal pressure is-195.8 ℃, when the liquid nitrogen contacts frozen food, the absorbed evaporation latent heat is 198.9kJ/kg, the liquid nitrogen is used for freezing the food quickly, the texture of the food can be well maintained, the food cannot be influenced, and the liquid nitrogen quick-freezing technology is safe, environment-friendly and pollution-free and is an ideal quick-freezing technology.

The probiotics are living microorganisms which can generate beneficial effects on host health, the use of the probiotics is beneficial to improving immune system and intestinal health, relieving constipation, preventing cold and the like, after the probiotics are produced, in order to ensure the bioactivity of the probiotics, the probiotics can be treated by adopting a liquid nitrogen quick freezing technology, the traditional device for dripping the probiotics into liquid nitrogen is mainly carried out by adopting a probiotic drip way, so that the probiotics drip is dripped into the liquid nitrogen for quick freezing, after quick freezing, the probiotics drip is required to be separated by adopting a filtering way, the drip freezing device is required to be opened during separation, and then the probiotics iceballs are taken out, so that the liquid nitrogen is exposed in the air, the temperature of the liquid nitrogen is easy to rise, the waste of the liquid nitrogen is caused, and the drip freezing cost is increased.

We have therefore proposed a probiotic liquid nitrogen drip freeze device in order to solve the problems set out above.

Disclosure of Invention

The utility model aims to provide a probiotics liquid nitrogen trickling freeze device, which solves the problems that the existing device for the probiotics liquid nitrogen trickling freeze in the market provided by the background technology is mainly implemented in a probiotic liquid nitrogen trickling mode, so that the probiotics liquid nitrogen is dripped into liquid nitrogen for quick freezing, after quick freezing, separation is required to be implemented in a filtering mode, the trickling freeze device is required to be opened during separation, and then the probiotics ice beads are taken out, so that the liquid nitrogen is exposed in the air, the temperature of the liquid nitrogen is easy to rise, the waste of the liquid nitrogen is caused, and the trickling freeze cost is increased.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a probiotic liquid nitrogen drip freeze device, includes device main part, telescopic link, freezer, collecting plate and fender ring, the internally mounted of device main part has the telescopic link, the freezer is installed at the top of telescopic link, the inside of freezer is provided with the collecting plate, the external diameter of collecting plate is less than the internal diameter of freezer, the inside of freezer is provided with the heat preservation, install the fender ring on the top surface of collecting plate.

Preferably, the middle part of collecting plate has seted up the filter vat, the internally mounted of filter vat has the filter screen, the top surface of filter screen flushes with the top surface of collecting plate.

Preferably, the right-hand member of collecting plate installs the head rod, the head rod is installed on the second connecting rod, the second connecting rod is installed on the third connecting rod, the third connecting rod is located the upside of freezer, and the third connecting rod is installed on the closing plate.

Preferably, the pull ring is installed in the outside of closing plate, the pull ring is located the outside of device main part, the sealing strip is installed to the right-hand member of closing plate, the sealing strip closely laminates with the outer wall of device main part, the backup pad is installed on the right side of device main part, the backup pad is located the downside of closing plate, and the length of backup pad equals the distance of closing plate right-hand member to collecting plate left end.

Preferably, the nitrogen inlet pipe is arranged on the device main body, the right end of the nitrogen inlet pipe is positioned on the upper side of the refrigerator, the left end of the nitrogen inlet pipe is connected to the nitrogen conveyer, the nitrogen conveyer adopts the principle of a water pump to convey liquid nitrogen, and the bottom of the nitrogen conveyer is arranged on the nitrogen storage tank.

Preferably, the beneficial bacteria storage tank is installed at the top of device main part, the force (forcing) pump is installed at the top center of beneficial bacteria storage tank, and the force (forcing) pump adopts the structural principle of air pump, the filling tube is installed in beneficial bacteria storage tank top left side, the dripper is installed to the bottom of beneficial bacteria storage tank, the dripper is located the direct upside of freezer.

Compared with the prior art, the utility model has the beneficial effects that: the liquid nitrogen dropping freezing device for the probiotics,

(1) The sealing plate is arranged, and the sealing plate can drive the collecting plate to move out of the device main body through moving the sealing plate, so that the probiotic iceballs are collected at the outer side of the device main body, and the liquid nitrogen in the refrigerator is always positioned in the device main body, so that the contact between the liquid nitrogen and the outside air is reduced, the temperature change of the liquid nitrogen is reduced, the utilization rate of the liquid nitrogen is improved, and the production cost is reduced;

(2) Be provided with the collecting plate, can collect the ice pearl that falls through the collecting plate, can prevent through the baffle ring that the ice pearl from removing the collecting plate, increased the collecting capacity of collecting plate to the ice pearl, and can make the liquid nitrogen flow out from the filter vat through the filtration effect of filter screen, reach the separation effect to the ice pearl, reduced the separation degree of difficulty to the ice pearl.

Drawings

FIG. 1 is a schematic view of the vertical section of the present utility model;

FIG. 2 is a schematic top view of the present utility model;

FIG. 3 is a schematic top view of the collecting plate of the present utility model;

fig. 4 is a schematic view of the vertical sectional structure of the refrigerator of the present utility model.

In the figure: 1. a device body; 2. a telescopic rod; 3. a freezer; 4. a collection plate; 5. a baffle ring; 6. a filter tank; 7. a filter screen; 8. a first connecting rod; 9. a second connecting rod; 10. a third connecting rod; 11. a sealing plate; 12. a pull ring; 13. a sealing strip; 14. a support plate; 15. a nitrogen inlet pipe; 16. a nitrogen conveyer; 17. a nitrogen storage tank; 18. a probiotic storage tank; 19. a pressurizing pump; 20. a feeding tube; 21. a drip head; 22. and a heat preservation layer.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides a probiotic liquid nitrogen drip freeze device, including device main part 1, telescopic link 2, freezer 3, collecting plate 4, baffle ring 5, filter vat 6, filter screen 7, head rod 8, second connecting rod 9, third connecting rod 10, closing plate 11, pull ring 12, sealing strip 13, backup pad 14, advance nitrogen pipe 15, nitrogen conveyer 16, nitrogen storage tank 17, probiotic storage tank 18, force (forcing) pump 19, charging tube 20, dripper 21 and heat preservation 22, the internally mounted of device main part 1 has telescopic link 2, freezer 3 is installed at the top of telescopic link 2, the inside of freezer 3 is provided with collecting plate 4, the external diameter of collecting plate 4 is less than the internal diameter of freezer 3, the inside of freezer 3 is provided with heat preservation 22, install baffle ring 5 on the top surface of collecting plate 4.

The filter vat 6 has been seted up at the middle part of collecting plate 4, and filter vat 6 internally mounted has filter screen 7, and the top surface of filter screen 7 flushes with the top surface of collecting plate 4, makes the liquid nitrogen flow through filter screen 7.

The right-hand member of collecting plate 4 installs head rod 8, and head rod 8 installs on second connecting rod 9, and second connecting rod 9 installs on third connecting rod 10, and third connecting rod 10 is located the upside of freezer 3, and third connecting rod 10 installs on closing plate 11, supports collecting plate 4's position through third connecting rod 10.

The pull ring 12 is installed in the outside of closing plate 11, and pull ring 12 is located the outside of device main part 1, and sealing strip 13 is installed to the right-hand member of closing plate 11, and sealing strip 13 closely laminates with the outer wall of device main part 1, and backup pad 14 is installed on the right side of device main part 1, and backup pad 14 is located the downside of closing plate 11, and the length of backup pad 14 equals the distance of closing plate 11 right-hand member to collecting plate 4 left end, supports through closing plate 11 to the collecting plate 4 that moves out.

The nitrogen inlet pipe 15 is arranged on the device main body 1, the right end of the nitrogen inlet pipe 15 is positioned on the upper side of the freezing box 3, the left end of the nitrogen inlet pipe 15 is connected to the nitrogen conveyer 16, the nitrogen conveyer 16 conveys liquid nitrogen by adopting the principle of a water pump, the bottom of the nitrogen conveyer 16 is arranged on the nitrogen storage tank 17, and nitrogen is added into the freezing box 3 through the nitrogen conveyer 16.

The beneficial bacteria storage tank 18 is installed at the top of the device main body 1, the booster pump 19 is installed at the top center of the beneficial bacteria storage tank 18, the booster pump 19 adopts the structural principle of an air pump, the feeding pipe 20 is installed at the left side of the top of the beneficial bacteria storage tank 18, the drip head 21 is installed at the bottom of the beneficial bacteria storage tank 18, the drip head 21 is located on the right upper side of the freezer 3, and the drip of the beneficial bacteria is carried out through the drip head 21.

Working principle: when the probiotic liquid nitrogen drip freezing device is used, the device is firstly moved to a place where the probiotic liquid nitrogen drip freezing device is required to be used, the nitrogen conveyer 16 is started, the nitrogen conveyer 16 is enabled to pump liquid nitrogen in the probiotic storage tank 18, the liquid nitrogen is conveyed into the freezing box 3 through the nitrogen inlet pipe 15, the rising speed of the liquid nitrogen temperature is reduced through the heat preservation layer 22, the liquid nitrogen in the freezing box 3 gradually drops out of the baffle ring 5, the nitrogen conveyer 16 is suspended, a sufficient amount of probiotic liquid nitrogen is added into the probiotic storage tank 18 through the charging pipe 20, the charging pipe 20 is closed, the pressurizing pump 19 is started, the pressurizing pump 19 is enabled to gradually overflow from the drip head 21 through controlling the pressure in the probiotic storage tank 18, the overflowed probiotic liquid nitrogen gradually becomes larger into liquid drops, the liquid drops drop onto the collecting plate 4 in the freezing box 3, the liquid drops are frozen into ice balls in contact with the liquid nitrogen in the freezing box 3, and the ice balls drop onto the filter screen 7.

Then start telescopic link 2 again, make telescopic link 2 drive freezer 3 decline, make freezer 3 drive liquid nitrogen whereabouts to the downside of collecting plate 4, make liquid nitrogen flow out collecting plate 4 through filter screen 7, collecting plate 4 separates the ice ball through the effect of filter screen 7 and baffle ring 5, can pull closing plate 11 to the right side through pull ring 12, make closing plate 11 slide to the backup pad 14 gradually to the right, make closing plate 11 pull collecting plate 4 through head rod 8, second connecting rod 9 and third connecting rod 10 remove to closing plate 11, and then collect the ice ball in the collecting plate 4, and the content that does not make detailed description in this specification all belongs to the prior art that the expert in the field knows.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. The utility model provides a device is frozen to probiotic liquid nitrogen drip, includes device main part (1), telescopic link (2), freezer (3), collecting plate (4) and fender ring (5), its characterized in that: the inside of device main part (1) is installed telescopic link (2), freezer (3) are installed at the top of telescopic link (2), the inside of freezer (3) is provided with collecting plate (4), the external diameter of collecting plate (4) is less than the internal diameter of freezer (3), the inside of freezer (3) is provided with heat preservation (22), install baffle ring (5) on the top surface of collecting plate (4).

2. A probiotic liquid nitrogen drip freezing device according to claim 1, characterized in that: the middle part of collecting plate (4) has seted up filter vat (6), internally mounted of filter vat (6) has filter screen (7), the top surface of filter screen (7) flushes with the top surface of collecting plate (4).

3. A probiotic liquid nitrogen drip freezing device according to claim 1, characterized in that: the right-hand member of collecting plate (4) is installed head rod (8), head rod (8) are installed on second connecting rod (9), second connecting rod (9) are installed on third connecting rod (10), third connecting rod (10) are located the upside of freezer (3), and third connecting rod (10) are installed on closing plate (11).

4. A probiotic liquid nitrogen drip freezing device according to claim 3, characterized in that: pull ring (12) are installed in the outside of closing plate (11), pull ring (12) are located the outside of device main part (1), sealing strip (13) are installed to the right-hand member of closing plate (11), sealing strip (13) are closely laminated with the outer wall of device main part (1), backup pad (14) are installed on the right side of device main part (1), backup pad (14) are located the downside of closing plate (11), and the length of backup pad (14) equals the distance of closing plate (11) right-hand member to collecting plate (4) left end.

5. A probiotic liquid nitrogen drip freezing device according to claim 1, characterized in that: install into nitrogen pipe (15) on device main part (1), the right-hand member that advances nitrogen pipe (15) is located the upside of freezer (3), and advances the left end of nitrogen pipe (15) and be connected to nitrogen conveyer (16), nitrogen conveyer (16) adopt the principle of water pump to carry the liquid nitrogen, the bottom of nitrogen conveyer (16) is installed on nitrogen storage tank (17).

6. A probiotic liquid nitrogen drip freezing device according to claim 1, characterized in that: the beneficial bacteria storage tank (18) is installed at the top of device main part (1), force (forcing) pump (19) are installed at the top center of beneficial bacteria storage tank (18), and force (forcing) pump (19) adopt the structural principle of air pump, charging tube (20) are installed in beneficial bacteria storage tank (18) top left side, dropping liquid head (21) are installed to the bottom of beneficial bacteria storage tank (18), dropping liquid head (21) are located the directly upper side of freezer (3).

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