CN211339509U - Spirulina wall breaking device - Google Patents

Abstract

The utility model provides a spirulina broken wall device, include: the tank body and the cover body are detachably connected, the cover body comprises a first side of the cover body and a second side of the cover body, the tank body comprises a side body and a bottom side matched with the side body, and the side body and the bottom side define an inner cavity of the tank body; the top seat is arranged on the first side of the cover body and is provided with a top seat inner cavity; the base is arranged at the bottom side and is provided with a base inner cavity; the first stirrer is connected to the top seat and comprises a first driving part and a first cutting part connected with the first driving part; the second stirrer is connected to the base and comprises a second driving portion and a second cutting portion connected with the second driving portion. The beneficial effects of the utility model reside in that: the requirement on equipment is not high, one-time operation is convenient, and the method is suitable for large-scale industrial production; two stirrers work together, so that the cutting efficiency is improved, and the cutting effect is enhanced; and a heat dissipation device is added, and the service life of the instrument is prolonged.

Description

Spirulina wall breaking device

Technical Field

The utility model belongs to spirulina processing field, concretely relates to spirulina broken wall device.

Background

The spirulina is a pronucleus multicellular alga, has the body length of 200-500 mu m and the width of 5-10 mu m, is cylindrical and takes a spiral bent shape. The spirulina mainly contains 3 kinds of spirulina platensis, spirulina maxima and spirulina salina. The spirulina contains various bioactive components such as phycocyanin, chlorophyll, carotene, unsaturated fatty acid and the like, and is rich in nutrition, and the total protein content is as high as 55-65%.

The phycocyanin has complete amino acid components, high essential amino acid content, and various physiological functions of resisting cancer, resisting oxidation, improving physiological functions, etc. In recent years, the research on the application of phycocyanin in biomedical and food fields is expanding, so the extraction and separation of phycocyanin is a great hot direction for the next technical engineering research.

At the present stage, the extraction methods of spirulina phycocyanin are various, the current commonly used cell wall breaking technologies comprise a swelling method, a repeated freezing and thawing method, an ultrasonic method, a bead milling method and the like, some methods are not suitable for industrial production due to high equipment cost, such as the ultrasonic method, some methods are not suitable for industrial production due to complex operation, and the repeated freezing and thawing method consumes long time and needs repeated operation.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a spirulina broken wall device.

The specific technical scheme is as follows:

a spirulina wall-breaking device is characterized by comprising:

the tank comprises a tank body and a cover body which are detachably connected, wherein the cover body comprises a first side of the cover body and a second side of the cover body which are oppositely arranged, the tank body comprises a side body and a bottom side matched with the side body, and the side body and the bottom side define an inner cavity of the tank body;

the top seat is arranged on the first side of the cover body and is provided with a top seat inner cavity;

the base is arranged on the bottom side and provided with a base inner cavity;

the first stirrer is connected to the top seat and comprises a first driving part and a first cutting part connected with the first driving part, and the first cutting part extends into the inner cavity of the tank body;

the second stirrer is connected to the base and comprises a second driving part and a second cutting part connected with the second driving part, and the second cutting part extends into the inner cavity of the tank body;

wherein the first cutting portion comprises a first cutting blade and the second cutting portion comprises a second cutting blade.

In the above technical solution, the first cutting portion further includes a first rotating rod connected between the first driving portion and the first cutting blade, the second cutting portion further includes a second rotating rod connected between the second driving portion and the second cutting blade, and the first cutting portion and the second cutting portion rotate in opposite directions.

In the above technical solution, the inner cavity of the top seat includes a first driving accommodating cavity, and the first driving part is disposed in the first driving accommodating cavity; the base inner chamber includes that the second drive holds the chamber, the second drive division is located the second drive holds the intracavity.

In the above technical solution, the inner cavity of the top seat includes a first heat dissipation cavity, two first air dissipation nets are installed in the first heat dissipation cavity, one of the first air dissipation nets is installed between the first heat dissipation cavity and the first driving accommodating cavity, and the other first air dissipation net is installed at the top of the first heat dissipation cavity;

the inner cavity of the base comprises a second heat dissipation cavity, two second air dissipation nets are arranged in the second heat dissipation cavity, one of the second air dissipation nets is arranged between the second heat dissipation cavity and the second drive accommodating cavity, and the other second air dissipation net is arranged at the bottom of the second heat dissipation cavity;

and heat dissipation fans are arranged in the first heat dissipation cavity and the second heat dissipation cavity.

In the above technical solution, the first driving portion and the second driving portion are motors.

In the technical scheme, the bottom surface of the base is provided with the non-slip mat.

In the technical scheme, the cover body is provided with a thermometer mounting hole and a feeding hole, the thermometer passes through the thermometer mounting hole and extends into the inner cavity of the tank body, and the feeding hole is provided with the feeding cover.

Compared with the prior art, the utility model has the advantages that (1) the equipment requirement is not high, the one-time operation is convenient, and the utility model is suitable for large-scale industrial production; (2) two stirrers work together, so that the cutting efficiency is improved, and the cutting effect is enhanced; (3) and a heat dissipation device is added, and the service life of the instrument is prolonged.

Drawings

FIG. 1 is a view of the structure of the utility model;

fig. 2 is a top view of the present invention;

fig. 3 is a bottom view of the present invention;

wherein, a tank body-1, a side body-1 a, a bottom side-1 b, a cover body-2, a first side-2 a of the cover body, a second side-2 b of the cover body, a thermometer mounting hole-201, a feed hole-202, a top seat-3, a top seat inner cavity-301, a first drive accommodating cavity-3011, a first heat dissipation cavity-3012, a first air dispersion net-3013, a base-4, a base inner cavity-401, an anti-skid pad-402, a second drive accommodating cavity-4011, a second heat dissipation cavity-4012, a second air dispersion net-4013, a first stirrer-5, a first drive part-501, a first cutting part-502, a first cutting blade-5021, a first rotating rod-2, a second stirrer-6, a second drive part-601, a second cutting part-602, a second cutting blade-6021, a second rotating rod-6022, and a heat radiating fan-7.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

Examples

A spirulina wall breaking device comprises: can dismantle jar body 1 and lid 2 of connection, lid 2 is including the relative lid first side 2a and the lid second side 2b that set up, jar body 1 including the side body 1a and with side body 1a matched with bottom side 1b, side body 1a and bottom side 1b are injectd out jar body inner chamber, lid 2 has seted up thermometer mounting hole 201 and charge door 202, and the thermometer passes through thermometer mounting hole 201 stretches into jar body inner chamber, charge door 202 is furnished with the charging cover.

The top seat 3 is arranged on the first side 2a of the cover body, and the top seat 3 is provided with a top seat inner cavity 301;

the base 4 is arranged on the bottom side 1b, the base 4 is provided with a base inner cavity 401, and the bottom surface of the base 4 is provided with an anti-skid pad 402;

the first stirrer 5 is connected to the top base 3, the first stirrer 5 comprises a first driving part 501 and a first cutting part 502 connected with the first driving part 501, and the first cutting part 502 extends into the inner cavity of the tank body;

the second stirrer 6 is connected to the base 4, the second stirrer 6 comprises a second driving part 601 and a second cutting part 602 connected with the second driving part 601, and the second cutting part 602 extends into the inner cavity of the tank body; the first cutting part 502 includes a first cutting blade 5021, the second cutting part 602 includes a second cutting blade 6021, the first cutting part 502 further includes a first rotating rod 5022 connected between the first driving part 501 and the first cutting blade 5021, the second cutting part 602 further includes a second rotating rod 6022 connected between the second driving part 601 and the second cutting blade 6021, the first cutting part 502 and the second cutting part 602 rotate in opposite directions, and the two mixers work together to process a large amount of raw materials at a time, thereby increasing the working efficiency.

The top seat inner cavity 301 comprises a first heat dissipation cavity 3012, two first air dispersion nets 3013 are installed in the first heat dissipation cavity 3012, one of the first air dispersion nets 3013 is installed between the first heat dissipation cavity 3012 and the first drive accommodating cavity 3011, and the other first air dispersion net 3013 is installed on the top of the first heat dissipation cavity 3012; the base inner cavity 401 comprises a second heat dissipation cavity 4012, two second air dispersion nets 4013 are installed in the second heat dissipation cavity 4012, one of the second air dispersion nets 4013 is installed between the second heat dissipation cavity 4012 and the second drive accommodating cavity 4011, and the other second air dispersion net 4013 is installed at the bottom of the second heat dissipation cavity 4012; the first heat dissipation cavity 3012 and the second heat dissipation cavity 4012 are internally provided with a heat dissipation fan 7, and the first driving part 501 and the second driving part 601 are motors; different from the common wall breaking, the spirulina wall breaking needs longer time, and the long-time high-speed operation can influence the service life of the motor, so that a heat dissipation system is needed to dissipate heat and prolong the service life of the machine.

In addition, lysozyme and other raw materials can be added into the raw materials to carry out auxiliary wall breaking by using biological and chemical methods.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (7)

1. A spirulina wall-breaking device is characterized by comprising:

the detachable connection type tank comprises a tank body (1) and a cover body (2), wherein the cover body (2) comprises a first cover body side (2a) and a second cover body side (2b) which are oppositely arranged, the tank body (1) comprises a side body (1a) and a bottom side (1b) matched with the side body (1a), and the side body (1a) and the bottom side (1b) define an inner cavity of the tank body;

a top seat (3) mounted on the first side (2a) of the cover body, the top seat (3) being provided with a top seat inner cavity (301);

a base (4) mounted on the bottom side (1b), the base (4) being provided with a base cavity (401);

the first stirrer (5) is connected to the top seat (3), the first stirrer (5) comprises a first driving part (501) and a first cutting part (502) connected with the first driving part (501), and the first cutting part (502) extends into the inner cavity of the tank body;

the second stirrer (6) is connected to the base (4), the second stirrer (6) comprises a second driving part (601) and a second cutting part (602) connected with the second driving part (601), and the second cutting part (602) extends into the inner cavity of the tank body;

wherein the first cutting portion (502) comprises a first cutting blade (5021) and the second cutting portion (602) comprises a second cutting blade (6021).

2. A wall breaking apparatus for spirulina according to claim 1, wherein the first cutting part (502) further comprises a first rotating lever (5022) connected between the first driving part (501) and the first cutting blade (5021), and the second cutting part (602) further comprises a second rotating lever (6022) connected between the second driving part (601) and the second cutting blade (6021), and the first cutting part (502) and the second cutting part (602) rotate in opposite directions.

3. A spirulina wall-breaking device according to claim 1, wherein the top seat inner cavity (301) comprises a first driving accommodating cavity (3011), and the first driving part (501) is arranged in the first driving accommodating cavity (3011); the base inner cavity (401) comprises a second drive accommodating cavity (4011), and the second drive part (601) is arranged in the second drive accommodating cavity (4011).

4. The spirulina wall breaking device according to claim 3, wherein the top seat inner cavity (301) comprises a first heat dissipation cavity (3012), two first air dissipation nets (3013) are installed in the first heat dissipation cavity (3012), one of the first air dissipation nets (3013) is installed between the first heat dissipation cavity (3012) and the first driving accommodation cavity (3011), and the other first air dissipation net (3013) is installed on top of the first heat dissipation cavity (3012);

the base inner cavity (401) comprises a second heat dissipation cavity (4012), two second air dissipation nets (4013) are installed in the second heat dissipation cavity (4012), one of the second air dissipation nets (4013) is installed between the second heat dissipation cavity (4012) and the second drive accommodating cavity (4011), and the other second air dissipation net (4013) is installed at the bottom of the second heat dissipation cavity (4012);

and heat dissipation fans (7) are arranged in the first heat dissipation cavity (3012) and the second heat dissipation cavity (4012).

5. The spirulina wall-breaking device of claim 1, wherein the first driving unit (501) and the second driving unit (601) are motors.

6. A device for breaking the wall of spirulina according to claim 1, wherein the bottom surface of the base (4) is provided with a non-slip mat (402).

7. A device for breaking the wall of spirulina according to claim 1, wherein the cover (2) is provided with a thermometer mounting hole (201) and a feeding hole (202), a thermometer extends into the inner cavity of the tank body through the thermometer mounting hole (201), and the feeding hole (202) is provided with a feeding cover.

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