CN214142387U - Aerobic rapid temperature-changing enzymolysis tank - Google Patents

Abstract

The utility model discloses an aerobic rapid temperature-changing enzymolysis tank, relating to the technical field of biological enzymolysis, which comprises a tank body, wherein the top of the tank body is provided with a sterile breather valve and a feed port; the upper part of the side wall is provided with a feed inlet of egg liquid and a feed electromagnetic valve; the bottom is provided with an egg liquid discharge port and a discharge electromagnetic valve; an air inlet pipe is arranged at the lower part close to the tank body and opposite to the feed port of the egg liquid, and a heat exchange part is arranged in the tank body; the heat exchange part comprises a plurality of water inlet and outlet pipelines which are opposite up and down, and a plurality of heat exchange pipes are vertically arranged in the middle of the heat exchange part to ensure that the egg liquid provides quick temperature rise and quick temperature reduction; the intake pipe lets in aseptic air and can provide required oxygen for the enzymolysis of egg liquid when stirring egg liquid, and the setting of outer heat preservation for the effectual loss that has saved the energy in the enzymolysis of egg liquid process.

Description

Aerobic rapid temperature-changing enzymolysis tank

Technical Field

The utility model relates to a biological enzymolysis technical field specifically is an aerobic rapid temperature-changing enzymolysis tank.

Background

The eggs have high nutritional value, contain various nutrient substances necessary for human bodies, and have good functional properties, but the fresh eggs have short shelf life and are very easy to damage and lose in the processes of carrying and transporting, so that the eggs which are prepared into egg products which are easier to store and transport have long shelf life compared with the fresh eggs, and are more convenient to transport, store and use as ingredients.

The whole egg liquid can be used to prepare whole egg powder, egg white liquid can be prepared into albumen powder, and the egg liquid can be prepared into egg yolk powder.

In the manufacturing process, for guaranteeing the quality of product, the desugarization technology is used saccharomycete fermentation or enzymolysis reaction more and is got rid of, in the prior art, use glucose oxidase as the enzymolysis main part in the enzymolysis technology of egg deep-processing more, but glucose oxidase need provide sufficient oxygen in the enzymolysis in-process and just can guarantee the smooth of enzymolysis and go on, add hydrogen peroxide solution and come to provide the oxygen for enzymolysis reaction in the prior art more, the water content that leads to egg liquid increases like this and promotes the burden for subsequent technology processing, the control of the addition of hydrogen peroxide solution is also more difficult simultaneously, just satisfy the demand of enzymolysis when unable audio-visual judgement adds how much, can lead to the acidity of egg liquid too big if the addition too much.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a quick alternating temperature enzymolysis tank of aerobic to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an aerobic rapid temperature-changing enzymolysis tank comprises a tank body, wherein the top of the tank body is provided with a sterile breather valve, a feed opening and a citric acid spraying pipeline, and a pH detection sensor is arranged on the side wall of the tank body; a feeding hole is arranged on the side wall close to the upper part of the side wall and is provided with a feeding electromagnetic valve; the bottom is provided with an egg liquid discharge port and a discharge electromagnetic valve; the lower part of the tank body close to the tank body on the opposite side of the feed port is provided with an air inlet pipe, and a heat exchanging part is arranged in the tank body.

Furthermore, the air inlet pipe penetrates through the wall of the tank body and extends into the tank body, a plurality of vent pipes with the interval of 10-15cm are horizontally arranged at the bottom close to the tank body side by side, and a one-way air outlet head is arranged at the top of each pipeline on each vent pipe at the interval of 10-15 cm.

Furthermore, the heat exchange part comprises a circulating water inlet which is arranged on the opposite side of the feed inlet and is close to the upper part of the tank body, a circulating water outlet which is arranged on the same side of the tank body at the feed inlet and is close to the lower part of the tank body is arranged on the same side of the feed inlet, the water inlet connecting pipeline stretches into the tank body, a plurality of circulating water inlet pipelines with the interval of 15-20cm are horizontally arranged side by side at the top of the tank body, a plurality of circulating water outlet pipelines with the interval of 15-20cm are horizontally arranged above the vent pipe in the tank body, the positions of the circulating water inlet pipelines and the circulating water outlet pipelines are vertically opposite, and vertical circulating water communicating pipes are arranged between the two sets of the vertically opposite pipelines at intervals of 15-20 cm.

Preferably, constant-temperature circulating water with the temperature of 36 ℃ is introduced into the water inlet.

Preferably, constant-temperature ice water with the temperature less than or equal to 7 ℃ is introduced into the water inlet.

Furthermore, the bottom of the tank body is uniformly provided with three support legs with the same specification on the same circumference.

Furthermore, a glass tube liquid level meter is arranged outside the side wall of the tank body.

Furthermore, the outer side of the tank body is provided with a heat-insulating layer, and the inner layer is filled with heat-insulating materials.

Preferably, the aseptic breather valve, the feeding port, the feeding electromagnetic valve, the discharging port, the discharging electromagnetic valve, the air inlet pipe, the vent pipe, the one-way air outlet head, the water inlet, the circulating water inlet pipeline, the circulating water communicating pipe, the circulating water outlet pipeline, the water outlet, the heat preservation layer, the citric acid spraying pipeline and other parts in contact with liquid are all made of stainless steel.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the bottom is introduced with sterile air to replace hydrogen peroxide solution, so that the increase of the moisture of the egg liquid is reduced;

2. sterile air is introduced to the bottom of the stirring tank to stir the egg liquid instead of a stirring shaft, so that the use of the stirring shaft is saved, and meanwhile, energy is saved;

3. the plurality of heat exchange pipelines provide heat exchange for the egg liquid together, so that the egg liquid can be quickly heated and quickly cooled;

4. the arrangement of the outer heat-insulating layer enables the energy loss to be effectively saved in the process of egg liquid enzymolysis.

Drawings

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

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a top view of the air intake structure;

FIG. 4 is a plan view of the heat exchanging section 7;

FIG. 5 is a schematic view of the addition of a heat retention side and a heat insulating material;

in the figure: the device comprises a tank body-1, support legs-11, an aseptic breather valve-2, a feeding port-3, a feeding port-4, a feeding electromagnetic valve-41, a discharging port-5, a discharging electromagnetic valve-51, an air inlet pipe-6, an air vent pipe-61, a one-way air outlet head-62, a heat exchange part-7, a water inlet-71, a circulating water inlet pipeline-72, a circulating water communicating pipe-73, a circulating water outlet pipeline-74, a water outlet-75, a glass tube liquid level-8, a heat insulation layer-9, a heat insulation material-91, a citric acid spray pipeline-10 and a pH detection sensor-12.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution in the embodiments of the present invention is described below clearly and completely with reference to the accompanying drawings and the specific embodiments.

Referring to fig. 1-5, fig. 1 is a schematic view of the present invention; FIG. 2 is a schematic structural view of the present invention; FIG. 3 is a top view of the air intake structure; FIG. 4 is a plan view of the heat exchanging section 7; FIG. 5 is a schematic view of the installation of a heat-insulating side and a heat-insulating material.

The utility model provides an aerobic rapid temperature-changing enzymolysis tank, which comprises a tank body 1, wherein the top of the tank body 1 is provided with a sterile breather valve 2, so as to ensure that the tank body 1 and the external air are kept to be recycled in the enzymolysis process; the top of the tank is also provided with a feed inlet 3 for adding glucose oxidase, the citric acid spraying pipeline 10 is used for spraying citric acid solution in the tank to adjust the pH value of the egg liquid to 5 so as to ensure that the activity of the glucose oxidase reaches the maximum, and the side wall of the tank is also provided with a pH detection sensor 12 for detecting the pH value of the egg liquid in the tank in real time; a feed inlet 4 is arranged on the side wall close to the upper part and is provided with a feed electromagnetic valve 41 for adding egg liquid to be processed into the tank body 1; the bottom is provided with an egg liquid discharge port 5 and a discharge electromagnetic valve 51 for discharging the egg liquid after the enzymolysis is finished and conveying the egg liquid to the next process.

The lower part of the tank body 1 close to the tank body 1 at the opposite side of the feed port 4 is provided with an air inlet pipe 6 for introducing sterile air into the tank, the air inlet pipe 6 penetrates through the wall of the tank body and extends into the tank body 1, a plurality of vent pipes 61 with the interval of 10-15cm are horizontally arranged at the bottom close to the tank body side by side, one-way air outlet heads 62 are arranged at the top of each pipeline on the vent pipes 61 every 10-15cm and used for blowing the sterile air into the tank body and providing enough oxygen for glucose oxidase to the enzymolysis of egg liquid in the tank body, and meanwhile, the egg liquid is continuously stirred in the process of upward movement of the air from the tank bottom, so that a stirring part is not required to be additionally arranged in the tank body.

The tank body 1 is also internally provided with a heat exchange part 7, the heat exchange part 7 comprises a water inlet 71 which is arranged at the opposite side of the feed inlet 4 and is close to the upper part of the tank body and used for circulating water inlet, a water outlet 75 which is arranged at the same side of the feed inlet 4 and is close to the lower part of the tank body 1, a connecting pipeline of the water inlet 71 extends into the tank body 1, a plurality of circulating water inlet pipelines 72 which are arranged at intervals of 15-20cm are horizontally arranged at the top close to the tank body 1 side by side, the water outlet 75 extends into the tank body 1 through the connecting pipeline, a plurality of circulating water outlet pipelines 74 which are arranged at intervals of 15-20cm are horizontally arranged at the upper part of the vent pipe 61 side by side, the positions of the circulating water inlet pipeline 72 and the circulating water outlet pipelines 74 are vertically opposite, and vertical circulating water communicating pipes 73 are arranged between two groups of the pipelines which are vertically opposite at intervals of 15-20cm, circulating water is introduced into the circulating water inlet pipeline 72, the circulating water communicating pipe 73 and the circulating water outlet pipeline 74, and heat exchange is provided for the egg liquid in the tank together.

In the process of carrying out enzymolysis on the egg liquid in the tank, in order to keep the enzymolysis efficiency to the maximum, constant-temperature circulating water at 36 ℃ can be introduced from the water inlet 71, and the constant-temperature circulating water can quickly raise the temperature of the egg liquid in the tank to 36 ℃ and keep the temperature constant after passing through the circulating water inlet pipeline 72, the circulating water communicating pipe 73 and the circulating water outlet pipeline 74; after the enzymolysis is completed, in the process of discharging, in order to avoid excessive enzymolysis caused by continuous enzymolysis of the glucose magnesium oxide on the egg liquid, the egg liquid needs to be cooled to reduce the activity of enzyme, so that the product quality of discharging is ensured.

The same stabilizer blade 11 of three specification is provided with to jar body 1's bottom, evenly distributed on same circumference for support whole jar body 1, in order to make things convenient for jar body 1 fixed, still conveniently be connected ejection of compact solenoid valve 51 and ejection of compact pipeline with bottom discharge mouth 5 simultaneously.

A glass tube liquid level meter 8 is further mounted outside the side wall of the tank body 1 and used for displaying the liquid level height of the egg liquid in the tank;

in addition, in order to save energy, the outer side of the tank body 1 can be further provided with a heat insulation layer 9, and the inner layer is filled with a heat insulation material 91, so that the heat of the tank body 1 can be reduced from being dissipated outwards, and the energy consumption is reduced.

The aseptic breather valve 2, the feeding port 3, the feeding port 4, the feeding electromagnetic valve 41, the discharging port 5, the discharging electromagnetic valve 51, the air inlet pipe 6, the air vent pipe 61, the one-way air outlet head 62, the water inlet 71, the circulating water inlet pipeline 72, the circulating water communicating pipe 73, the circulating water outlet pipeline 74, the water outlet 75, the heat preservation layer 9, the citric acid spraying pipeline 10 and other parts in contact with liquid are all made of stainless steel materials, so that the discharging quality is guaranteed.

In the description of the present invention, it is to be understood that the terms "one side", "bottom", "upper", "top", "bottom", "same side", "inner", "outer" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

While embodiments of the invention have been illustrated and described, it is to be understood that the embodiments described are only some embodiments of the invention and not all embodiments. Based on the embodiments of the present invention, it can be understood to those skilled in the art that all other embodiments obtained by making various changes, modifications, substitutions and variations to the embodiments without any creative work without departing from the principles and spirit of the present invention belong to the protection scope of the present invention.

Claims (9)

1. The utility model provides an aerobic rapid temperature-changing enzymolysis tank, includes a tank body (1), its characterized in that: the top of the tank body (1) is provided with a sterile breather valve (2), a feed opening (3) and a citric acid spraying pipeline (10), and the side wall is provided with a pH detection sensor (12); a feed inlet (4) is arranged on the side wall close to the upper part and is provided with a feed electromagnetic valve (41); the bottom is provided with an egg liquid discharge port (5) and a discharge electromagnetic valve (51); the lower part of the tank body (1) close to the tank body on the opposite side of the feed inlet (4) is provided with an air inlet pipe (6), and a heat exchanging part (7) is arranged in the tank body (1).

2. The aerobic rapid temperature change enzymolysis tank of claim 1, wherein: the air inlet pipe (6) penetrates through the wall of the tank body and extends into the tank body (1), a plurality of vent pipes (61) with the interval of 10-15cm are horizontally arranged at the bottom close to the tank body side by side, and a one-way air outlet head (62) is arranged at the top of each pipeline on each vent pipe (61) at the interval of 10-15 cm.

3. The aerobic rapid temperature change enzymolysis tank of claim 2, wherein: the heat exchanging part (7) comprises a circulating water inlet (71) which is arranged at the opposite side of the feed inlet (4) and is close to the upper part of the tank body, a circulating water outlet (75) is arranged on the same side of the feed inlet (4) of the tank body (1) and close to the lower part of the tank body, the water inlet (71) is connected with a pipeline and extends into the tank body (1), a plurality of circulating water inlet pipelines (72) with the interval of 15-20cm are horizontally arranged side by side near the top of the tank body (1), the water outlet (75) extends into the tank body (1) through a connecting pipeline, a plurality of circulating water outlet pipelines (74) with the interval of 15-20cm are horizontally arranged above the vent pipe (61) side by side, the positions of the circulating water inlet pipeline (72) and the circulating water outlet pipeline (74) are opposite up and down, and vertical circulating water communicating pipes (73) are arranged between the two groups of pipelines which are opposite to each other at intervals of 15-20 cm.

4. The aerobic rapid temperature change enzymolysis tank of claim 3, wherein: constant temperature circulating water with the temperature of 36 ℃ is introduced into the water inlet (71).

5. The aerobic rapid temperature change enzymolysis tank of claim 3, wherein: constant temperature ice water with the temperature less than or equal to 7 ℃ is introduced into the water inlet (71).

6. The aerobic rapid temperature change enzymatic hydrolysis tank according to any of claims 1 to 5, wherein: the bottom of the tank body (1) is uniformly provided with three support legs (11) with the same specification on the same circumference.

7. The aerobic rapid temperature change enzymolysis tank of claim 6, wherein: and a glass tube liquid level meter (8) is arranged outside the side wall of the tank body (1).

8. The aerobic rapid temperature change enzymolysis tank of claim 7, wherein: the outer side of the tank body (1) is provided with a heat preservation layer (9), and the inner layer is filled with a heat insulation material (91).

9. The aerobic rapid temperature change enzymolysis tank of claim 8, wherein: aseptic breather valve (2), dog-house (3), feed inlet (4), feeding solenoid valve (41), discharge gate (5), ejection of compact solenoid valve (51), intake pipe (6), breather pipe (61), one-way gas outlet head (62), water inlet (71), circulating water inlet channel (72), circulating water communicating pipe (73), circulating water outlet conduit (74), delivery port (75), heat preservation (9), citric acid shower pipeline (10) etc. each part and the material of the part of liquid contact all select stainless steel for use.

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