CN211913487U - A compound jar for ferment - Google Patents

Abstract

The utility model discloses a compound tank for ferment, which belongs to the field of ferment production and comprises a tank body, a stirring mechanism positioned on the tank body, a feeding hopper and a discharging pipe which are respectively connected with a feeding port and a discharging port of the tank body, and a liquid feeding pipe arranged at the top of the tank body, wherein the liquid feeding pipe runs through the outer wall of the tank body and extends to the inside of the tank body, and valves for controlling the liquid to enter and exit are respectively arranged on the liquid feeding pipe and the discharging pipe; the stirring mechanism comprises a motor, a rotating shaft, a helical impeller, an inclined paddle board and a straight paddle board; the motor is fixedly installed at the middle position of the top of the tank body, the output end of the motor faces downwards, and the rotating shaft is installed inside the tank body. This a compound jar for ferment can make the raw materials mix fully effectively, improves the quality of product, simultaneously can the effectual mixing rate who improves the raw materials, production with higher speed product, convenient to use, suitable using widely.

Description

A compound jar for ferment

Technical Field

The utility model belongs to the technical field of the ferment production, concretely relates to compound jar for ferment.

Background

The ferment is a biocatalyst, the action of which is the same as that of enzyme, and is widely applied to food and industrial production, and in the processing production of the ferment, the ferment needs to be mixed according to the proportion of raw materials, however, the existing complex formulation device of the ferment is not uniform in mixing, which causes poor product quality, and the mixing and complex formulation time is long, which affects the processing rate of the product and the input cost of the product processing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a compound jar for ferment 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:

a compound tank for ferment comprises a tank body, a stirring mechanism positioned on the tank body, a feeding hopper and a discharging pipe which are respectively connected with a feeding port and a discharging port of the tank body, and a liquid feeding pipe arranged at the top of the tank body, wherein the liquid feeding pipe penetrates through the outer wall of the tank body and extends to the inside of the tank body, and valves for controlling liquid to enter and exit are arranged on the liquid feeding pipe and the discharging pipe; the method is characterized in that: the stirring mechanism comprises a motor, a rotating shaft, a spiral impeller, an inclined paddle board and a straight paddle board;

the motor is fixedly arranged at the middle position of the top of the tank body, the output end of the motor faces downwards, the rotating shaft is arranged in the tank body, the upper end of the rotating shaft longitudinally penetrates through the top of the tank body and is fixedly connected with a driving shaft of the motor, the propeller blades are welded on the outer surface wall of the rotating shaft, the oblique paddle plates and the straight paddle plates are correspondingly arranged above and below the propeller blades respectively, and the oblique paddle plates are fixedly connected with the rotating shaft;

and the outer wall of the tank body is also provided with a circulating heating device for heating materials in the tank body.

The utility model discloses still possess following technical characteristic:

the jar body includes outer jar and inner tank, the inner tank with an intermediate layer chamber has between the outer jar.

The circulation heating device comprises a gas heater and a delivery pump which are fixedly installed on the outer wall of the tank body, the delivery pump is located below a gas outlet of the gas heater, a gas inlet of the gas heater is arranged between interlayer cavities, a gas outlet of the gas heater is arranged between an inlet end of the delivery pump and an outlet end of the delivery pump is arranged between interlayer cavities, and gas guide pipes used for delivering gas are arranged between the outlet end of the delivery pump and the interlayer cavities.

The gas heater comprises a shell fixedly mounted on the outer wall of the tank body and a heating pipe fixedly mounted inside the shell.

The gas inlet and the gas outlet of the gas heater are respectively positioned on two parallel planes of the shell, and the heating pipe is vertical to the gas inlet and the gas outlet.

The heating pipes are arranged in a shape of a Chinese character 'hui'.

And the liquid feeding pipe is also provided with a flowmeter for detecting the liquid flow.

The top of the tank body is also provided with a thermometer, and a detection pin of the thermometer penetrates through the outer wall of the tank body and extends into the tank body.

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

the compound tank for the ferment is provided with a helical impeller, an inclined paddle board and a straight paddle board, and raw materials move downwards along the axial direction through the inclined paddle board; the spiral impeller enables the raw materials to move upwards along the axial direction; the straight paddle plate makes the raw material at the bottom of the tank body generate rotary motion, and the raw material contacts the helical impeller to generate upward motion along the axial direction; all the raw materials can participate in the movement in the tank body through the comprehensive action of the helical impeller, the inclined paddle board and the straight paddle board, and the effect of uniform mixing is achieved.

This a compound jar for ferment carries out circulation heating through circulation heating device to the internal material of jar through setting up circulation heating device to improve the efficiency that the material mixes, reduce the time that the material mixes, improve the efficiency of product production.

Drawings

FIG. 1 is a schematic view of a compounding tank for ferments;

FIG. 2 is a schematic view of a tank in a complex tank for ferments;

fig. 3 is a schematic structural diagram of a heater in a complex tank for ferments.

Detailed Description

The present invention will be further described with reference to the following examples.

The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention. The condition in the embodiment can be further adjusted according to concrete condition the utility model discloses a it is right under the design prerequisite the utility model discloses a simple improvement of method all belongs to the utility model discloses the scope of claiming.

As shown in fig. 1 and 2, the utility model provides a compound jar for ferment, including a jar body 1, be located jar stirring mechanism 2 on 1, the feeding funnel 3 and the discharging pipe 5 that are connected with the feed inlet of a jar body 1 and discharge gate respectively and set up at the liquid inlet pipe 4 at 1 top of a jar body, liquid inlet pipe 4 runs through in the outer wall of a jar body 1 and extends to the inside of a jar body 1, all is provided with the valve 6 that is used for controlling the liquid business turn over on liquid inlet pipe 4 and the discharging pipe 5.

Compared with the prior art, the stirring mechanism 2 of the compound tank for the ferment comprises a motor 21, a rotating shaft 22, a spiral impeller 23, an inclined paddle plate 24 and a straight paddle plate 25.

The motor 21 is fixedly installed at the middle position of the top of the tank body 1, the output end of the motor 21 faces downwards, the rotating shaft 22 is installed inside the tank body 1, the upper end of the rotating shaft 22 longitudinally penetrates through the top of the tank body 1 and is fixedly connected with the driving shaft of the motor 21, the propeller blades 23 are welded on the outer surface wall of the rotating shaft 22, the inclined propeller plates 24 and the straight propeller plates 25 are correspondingly installed above and below the propeller blades 23 respectively, and the inclined propeller plates 24 are fixedly connected with the rotating shaft 22.

When the motor 21 drives the rotating shaft 22 to rotate, the raw materials are enabled to move downwards along the axial direction through the inclined blades 24; the helical impeller 23 can make the raw material move upwards along the axial direction; the straight paddle board 25 can make the raw material at the bottom of the tank body 1 generate rotary motion, contact with the helical impeller 23 and generate upward motion along the axial direction; all the raw materials can participate in the movement in the tank body 1 through the comprehensive action of the spiral impeller 23, the inclined paddle plate 24 and the straight paddle plate 25, and the effect of uniform mixing is achieved.

In addition, as shown in fig. 1, a circulation heating device 8 for heating the materials in the tank body 1 is further arranged on the outer wall of the tank body 1.

The materials in the tank body 1 are heated through the circulating heating device 8, so that the molecular motion rate of the materials is improved, the materials are rapidly mixed, and the production efficiency of the materials is improved.

Specifically, as shown in fig. 3, the tank body 1 comprises an outer tank 11 and an inner tank 12, and an interlayer cavity 13 is formed between the inner tank 12 and the outer tank 11; the circulation heating device 8 comprises a gas heater 81 and a delivery pump 82 which are fixedly installed on the outer wall of the tank body 1, the delivery pump 82 is positioned below a gas outlet of the gas heater 81, and gas conduits 83 for delivering gas are respectively arranged between a gas inlet of the gas heater 81 and the interlayer cavity 13, between the gas outlet of the gas heater 81 and an inlet end of the delivery pump 82, and between an outlet end of the delivery pump 82 and the interlayer cavity 13.

When the raw materials are mixed, the gas heater 81 and the delivery pump 82 are started, gas in the gas heater 81 is pumped through the delivery pump 82, negative pressure is generated in the gas heater 81, the gas in the interlayer cavity 13 is increased, the gas in the interlayer cavity 13 enters the heater 1 to be heated, the heated gas is conveyed into the interlayer cavity 13 through the delivery pump 82, the raw materials in the tank body 1 are circularly heated, and the material mixing efficiency is improved.

In order to improve the heating efficiency of the gas, as shown in fig. 3, the gas heater 81 includes a housing 811 fixedly mounted on the outer wall of the tank 1, and heating pipes 812 fixedly mounted inside the housing 811 and arranged in a zigzag shape; the gas inlet and the gas outlet of the gas heater 81 are respectively located on two parallel planes of the housing 811, and the heating pipe 812 is perpendicular to the gas inlet and the gas outlet.

When gas enters the housing 811 of the pair of gas heaters 81, the gas vertically passes through the heating pipe 812 under the action of the delivery pump 82, increasing the contact area between the gas and the heating pipe 812, so that the gas passing through the electric heating pipe 812 is heated by the heating pipe 812, and further improving the heating efficiency of the gas.

In order to facilitate the addition of the liquid raw material and the additive, as shown in fig. 1, a flow meter 7 for detecting a liquid flow rate is further provided on the liquid feed pipe 4. The flowmeter 7 is a liquid turbine flowmeter, the flowmeter 7 can effectively monitor the flow of the liquid flow flowmeter 7, and when the liquid addition amount reaches the required addition amount, the addition is stopped, so that the quantitative control of the liquid flow can be realized.

In order to facilitate monitoring of the temperature change in the can body 1, as shown in fig. 1 and 2, a thermometer 9 is further disposed on the top of the can body 1, and a detection pin of the thermometer 9 penetrates through the outer wall of the can body 1 and extends into the can body 1. The thermometer 9 is a bimetallic thermometer, when the raw materials are compounded, the temperature inside the tank body 1 can be detected through the thermometer 9, and when the temperature reaches the mixing requirement, the gas heater 81 can be turned off, so that the heating is stopped, and the temperature of the raw materials in the tank body 1 can be conveniently monitored and controlled.

When the device is used, a metered solid material is placed into the feeding hopper 3, so that the material is added into the tank body 1, then the liquid feeding pipe 4 is communicated with an external liquid raw material conveying pipe, an external feeding pump is started, the liquid material is added into the tank body 1 according to the material proportion, when the flow on the flowmeter 7 shows that the quantity of the liquid material is reached, the feeding is stopped, then the motor 21 is started, the motor 21 simultaneously drives the helical impeller 23, the inclined paddle plate 24 and the straight paddle plate 25 to rotate through the rotating shaft 22 so as to stir the raw material, and the raw material is enabled to move downwards along the axial direction through the inclined paddle plate 24; the helical impeller 23 can make the raw material move upwards along the axial direction; the straight paddle board 25 can make the raw material at the bottom of the tank body 1 generate rotary motion, contact with the helical impeller 23 and generate upward motion along the axial direction; all the raw materials can participate in the movement in the tank body 1 through the comprehensive action of the spiral impeller 23, the inclined paddle plate 24 and the straight paddle plate 25, so that the effect of uniform mixing is achieved; meanwhile, during mixing, the gas heater 81 and the delivery pump 82 are started, gas in the gas heater 81 is pumped through the delivery pump 82, negative pressure is generated in the gas heater 81, the gas in the interlayer cavity 13 is increased, the gas in the interlayer cavity 13 enters the heater 1 to be heated, and the heated gas is conveyed into the interlayer cavity 13 through the delivery pump 82, so that the raw materials in the tank body 1 are circularly heated, and the material mixing efficiency is improved; after the raw materials are mixed, the valve 6 on the discharge pipe 5 is opened, so that the materials are discharged through the discharge pipe 5.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A compound tank for ferment comprises a tank body (1), a stirring mechanism (2) positioned on the tank body (1), a feeding hopper (3) and a discharging pipe (5) which are respectively connected with a feeding hole and a discharging hole of the tank body (1), and a liquid feeding pipe (4) arranged at the top of the tank body (1), wherein the liquid feeding pipe (4) penetrates through the outer wall of the tank body (1) and extends to the inside of the tank body (1), and valves (6) for controlling liquid to enter and exit are respectively arranged on the liquid feeding pipe (4) and the discharging pipe (5); the method is characterized in that: the stirring mechanism (2) comprises a motor (21), a rotating shaft (22), a helical impeller (23), an inclined paddle plate (24) and a straight paddle plate (25);

the motor (21) is fixedly installed at the middle position of the top of the tank body (1), the output end of the motor (21) faces downwards, the rotating shaft (22) is installed inside the tank body (1), the upper end of the rotating shaft (22) longitudinally penetrates through the top of the tank body (1) and is fixedly connected with the driving shaft of the motor (21), the propeller (23) is welded on the outer surface wall of the rotating shaft (22), the oblique propeller plates (24) and the straight propeller plates (25) are correspondingly installed above and below the propeller (23) respectively, and the oblique propeller plates (24) are fixedly connected with the rotating shaft (22);

the outer wall of the tank body (1) is also provided with a circulating heating device (8) for heating the materials in the tank body (1).

2. The compounding tank for ferments according to claim 1, characterized in that: the tank body (1) comprises an outer tank (11) and an inner tank (12), and an interlayer cavity (13) is arranged between the inner tank (12) and the outer tank (11).

3. The compounding tank for ferments according to claim 2, characterized in that: the circulation heating device (8) comprises a gas heater (81) and a delivery pump (82) which are fixedly installed on the outer wall of the tank body (1), wherein the delivery pump (82) is located below a gas outlet of the gas heater (81), a gas inlet of the gas heater (81) is arranged between the interlayer cavities (13), a gas outlet of the gas heater (81) is arranged between inlet ends of the delivery pump (82) and outlet ends of the delivery pump (82) are arranged between the interlayer cavities (13) and gas guide pipes (83) used for conveying gas are arranged.

4. The compounding tank for ferments according to claim 3, wherein: the gas heater (81) comprises a shell (811) fixedly installed on the outer wall of the tank body (1) and a heating pipe (812) fixedly installed inside the shell (811).

5. The compounding tank for ferments according to claim 4, wherein: the air inlet and the air outlet of the air heater (81) are respectively positioned on two parallel planes of the shell (811), and the heating pipe (812) is vertical to the air inlet and the air outlet.

6. The compounding tank for ferments according to claim 5, wherein: the heating pipes (812) are arranged in a shape of a Chinese character 'hui'.

7. The compounding tank for ferments according to claim 1, characterized in that: and a flowmeter (7) for detecting the liquid flow is also arranged on the liquid feeding pipe (4).

8. The compounding tank for ferments according to claim 1, characterized in that: the top of the tank body (1) is also provided with a thermometer (9), and a detection pin of the thermometer (9) penetrates through the outer wall of the tank body (1) and extends into the tank body (1).

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