CN211595672U - Rana temporaria egg protein extraction equipment - Google Patents

Abstract

The utility model discloses a wood frog egg albumen draws equipment, including the enzymolysis tank with cross the filter tank, water inlet and first feed inlet have been seted up at enzymolysis tank top, first discharge gate has been seted up to enzymolysis tank bottom, filter tank top and seted up the second feed inlet, filter tank bottom has seted up the second discharge gate, and first discharge gate is linked together through pipeline and second feed inlet, is equipped with rabbling mechanism in the enzymolysis tank, filters the interior filter screen that has set gradually a plurality of apertures down of follow in proper order of jar, and it is provided with and vibrates the mechanism to cross the filter tank bottom. This equipment carries out comprehensive even stirring to the raw materials at the enzymolysis in-process, has promoted the enzymolysis effect, has improved the filtration efficiency of the protein after the enzymolysis simultaneously, and is difficult for blockking up the filter screen for the extraction rate and the purity of wood frog egg protein improve greatly.

Description

Rana temporaria egg protein extraction equipment

Technical Field

The utility model relates to a protein extraction technical field, concretely relates to wood frog egg protein draws equipment.

Background

The wood frog is an amphibious animal, and usually lives in a moist and cool environment without strong light, and the wood frog is a treasure and can be directly eaten. The wood frog egg contains rich protein, fat, vitamins, amino acids, male hormone testosterone, female hormone progesterone, estradiol, estriol, phospholipid and the like, has the effects of improving immunity, regulating blood fat, delaying senility, preventing climacteric syndrome of women and the like, has complete amino acid types in the wood frog egg protein, and is a high-quality resource to be developed.

The raw materials need to be subjected to operations such as enzymolysis, filtration and the like in the rana chensinensis egg protein extraction process, and the conventional filter tank has low filtration efficiency and is easy to block a filter screen; in addition, the agitator can only carry out the stirring of unidirectional side to inside liquid when using in the enzymolysis tank, causes stirring homogeneity relatively poor, and the stirring range is less, influences the enzymolysis effect.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that exists among the above-mentioned background art, the utility model aims to provide a wood frog egg protein draws equipment, it carries out comprehensive even stirring to the raw materials at the enzymolysis in-process, has promoted the enzymolysis effect, has improved the filtration efficiency of the protein after the enzymolysis simultaneously, and is difficult for blockking up the filter screen for wood frog egg protein's extraction rate and purity improve greatly.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a wood frog egg protein extraction equipment, including enzymolysis tank and filter tank, water inlet and first feed inlet have been seted up at the enzymolysis tank top, enzymolysis tank bottom has seted up first discharge gate, filter tank top has seted up the second feed inlet, filter tank bottom has seted up the second discharge gate, first discharge gate through the pipeline with the second feed inlet is linked together, be equipped with rabbling mechanism in the enzymolysis tank, from last to having set gradually a plurality of filter screens that the aperture reduces gradually down in the filter tank, the filter tank bottom is provided with vibrates the mechanism;

the oscillation mechanism comprises supporting legs, an upper supporting plate, a lower supporting plate, a vibration motor, a connecting block, two connecting rods, two linear sliding rails, two sliding blocks and an elastic piece, the filter tank is fixed on the supporting leg, an upper supporting plate is fixedly arranged at the bottom of the supporting leg, the lower supporting plate is positioned right below the upper supporting plate, the two linear sliding rails are respectively and fixedly arranged at two sides of the top of the lower supporting plate, the two sliding blocks are respectively connected with the linear sliding rails in a sliding way, the connecting block is fixedly arranged at the bottom of the upper supporting plate, one end of each of the two connecting rods is respectively and rotatably connected with the two sides of the connecting block, the other end of each of the two connecting rods is respectively and rotatably connected with the two sliding blocks, the connecting block bottom with it is fixed to be provided with the elastic component between the bottom sprag board top, it is provided with vibrating motor respectively to go up backup pad bottom both sides.

The further improvement is that the stirring mechanism comprises a first driving motor, a first stirring shaft, a second driving motor and a second stirring shaft, a first driving motor is arranged at the top of the enzymolysis tank, a second driving motor is arranged at the bottom of the enzymolysis tank, the first stirring shaft and the second stirring shaft are both positioned in the enzymolysis tank, an output shaft of the first driving motor penetrates through the top of the enzymolysis tank and is connected with the top of the first stirring shaft, the output shaft of the second driving motor penetrates through the bottom of the enzymolysis tank and is connected with the bottom of the second stirring shaft, the bottom of the first stirring shaft is rotationally connected with the top of the second stirring shaft, a first arc-shaped stirring blade and a first stirring rod which are bent downwards are arranged on the first stirring shaft from top to bottom, and a second arc-shaped stirring blade and a second stirring rod which are bent upwards are arranged on the second stirring shaft from bottom to top. Drive first (mixing) shaft through first driving motor and rotate, drive the rotation of second (mixing) shaft through second driving motor, rotation that can mutual independence between first (mixing) shaft and the second (mixing) shaft to realize that first arc stirring vane and first puddler on the first (mixing) shaft and second arc stirring vane and the two-way stirring of second puddler on the second (mixing) shaft, the range of stirring is big, has effectively promoted stirring effect in the enzymolysis tank, the misce bene has promoted the enzymolysis effect. In the actual use process, the first stirring shaft and the second stirring shaft can have various stirring modes, such as same-direction and same-speed, different-direction and same-speed, same-direction and different-speed, different-direction and different-speed and the like, and different stirring modes can be selected according to the requirements of the enzymolysis process.

The further improvement lies in that the lengths of the first stirring shaft and the second stirring shaft are the same, the first stirring rod is obliquely arranged downwards, the second stirring rod is obliquely arranged upwards, and a certain gap is reserved between the bottom of the first stirring rod and the top of the second stirring rod. Through inclining first puddler and second puddler and setting up, increased its area of contact with the interior liquid of enzymolysis tank, still can overturn about going on liquid, reach the requirement of intensive mixing.

The improvement is that the inside hollow heating cavity that forms of lateral wall of enzymolysis tank, be close to in the heating cavity enzymolysis tank inside wall department is equipped with the heat-conducting layer, the coil is provided with electric heating pipe in the heat-conducting layer outside. Through set up electric heating pipe and heat-conducting layer in heating the intracavity for the quick even heating of enzymolysis tank internal liquid, and the effectual invariant of guaranteeing enzymolysis tank internal liquid temperature, in order to ensure the enzymolysis effect.

The improved structure is characterized in that a flowmeter is installed at the first feed port, and electromagnetic valves are installed at the first discharge port and the second discharge port.

Compared with the prior art, the utility model discloses following beneficial effect has:

the stirring mechanism is arranged in the enzymolysis tank, and the stirring mechanism is designed, so that the stirring amplitude is large, the stirring effect in the enzymolysis tank is effectively improved, the mixture is uniform, and the enzymolysis effect is improved; liquid after the enzymolysis reaction enters into and filters the jar in through the multilayer filter screen and carries out filtration treatment, in the filtration treatment process, vibrating motor drives the relative bottom suspension fagging up-and-down motion of backup pad, and then drive and filter the jar and carry out the vertical vibration, the filtration efficiency of the albumen after the enzymolysis has been improved, and be difficult for blockking up the filter screen, set up the connecting block between backup pad and bottom suspension fagging, the connecting rod, linear slide rail, slider and elastic component, can cushion last backup pad up-and-down motion process, protect filtering the jar when guaranteeing the filter effect, the service life of equipment has been prolonged.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of the Rana temporaria egg protein extraction apparatus of the present invention;

fig. 2 is a schematic structural view of the oscillating mechanism of the present invention;

FIG. 3 is a schematic view of the inner structure of the enzymolysis tank of the utility model;

FIG. 4 is an enlarged view taken at A in FIG. 3;

FIG. 5 is a cross-sectional view of the enzymolysis tank of the present invention;

FIG. 6 is a schematic view of the internal structure of the filtering tank of the present invention;

wherein the specific reference numerals are as follows: enzymolysis tank 1, heating chamber 2, heat-conducting layer 3, electric heating pipe 4, water inlet 5, first feed inlet 6, first discharge gate 7, first driving motor 8, first (mixing) shaft 9, first arc stirring vane 10, first puddler 11, second driving motor 12, second (mixing) shaft 13, second arc stirring vane 14, second puddler 15, filter tank 16, filter screen 17, second feed inlet 18, second discharge gate 19, supporting leg 21, go up backup pad 22, bottom suspension fagging 23, vibrating motor 24, connecting block 25, connecting rod 26, linear slide 27, slider 28, elastic component 29.

Detailed Description

The embodiment of the utility model discloses a wood frog egg albumen draws equipment, as shown in figure 1, including enzymolysis tank 1 and filter tank 16, water inlet 5 and first feed inlet 6 have been seted up at enzymolysis tank 1 top, first discharge gate 7 has been seted up to enzymolysis tank 1 bottom, filter tank 16 top has been seted up second feed inlet 18, filter tank 16 bottom has been seted up second discharge gate 19, first discharge gate 7 is linked together through pipeline and second feed inlet 18, the flowmeter is installed to 6 departments of first feed inlet, electromagnetic valve is all installed to first discharge gate 7 and 19 departments of second discharge gate, be equipped with rabbling mechanism in the enzymolysis tank 1, as shown in figure 6, filter tank 16 interior from last to having set gradually a plurality of apertures down filter screen 17 that reduce gradually, be provided with three filter screen 17 in the embodiment, filter tank 16 bottom is provided with vibrates the mechanism. As shown in fig. 2, the oscillating mechanism comprises a supporting leg 21, an upper supporting plate 22, a lower supporting plate 23, a vibration motor 24, connecting block 25, two connecting rods 26, two linear slide rail 27, two sliders 28 and elastic component 29, it fixes on supporting leg 21 to filter jar 16, supporting plate 22 is fixed to be provided with in supporting leg 21 bottom, bottom suspension fagging 23 is located supporting plate 22 under, two linear slide rail 27 are fixed respectively and are set up in bottom suspension fagging 23 top both sides, two sliders 28 respectively with linear slide rail 27 sliding connection, it is fixed connecting block 25 to go up supporting plate 22 bottom, two connecting rod 26 one end rotate with connecting block 25 both sides respectively and are connected, two connecting rod 26 other ends rotate with two sliders 28 respectively and are connected, the fixed elastic component 29 that is provided with between connecting block 25 bottom and the bottom suspension fagging 23 top, it is provided with vibrating motor 24 respectively to go up supporting plate 22 bottom. The stirring mechanism is arranged in the enzymolysis tank 1 and is designed, so that the stirring amplitude is large, the stirring effect in the enzymolysis tank 1 is effectively improved, the mixture is uniform, and the enzymolysis effect is improved; liquid after the enzymolysis reaction enters into and filters jar 16 in through multilayer filter screen 17 and carries out filtration treatment, in the filtration treatment process, vibrating motor 24 drives the relative lower backup pad 23 up-and-down motion of backup pad 22, and then drive and filter jar 16 and carry out vibration from top to bottom, the filtration efficiency of the albumen after the enzymolysis has been improved, and be difficult for blockking up filter screen 17, set up connecting block 25 between upper backup pad 22 and lower backup pad 23, connecting rod 26, linear slide 27, slider 28 and elastic component 29, can cushion the up-and-down motion process of last backup pad 22, protect filter jar 16 when guaranteeing the filter effect, the life of equipment has been prolonged.

Wherein, as shown in fig. 3, the stirring mechanism comprises a first driving motor 8 and a first stirring shaft 9, second driving motor 12 and second (mixing) shaft 13, first driving motor 8 is installed at enzymolysis tank 1 top, second driving motor 12 is installed to enzymolysis tank 1 bottom, first (mixing) shaft 9 and second (mixing) shaft 13 all are located enzymolysis tank 1, the output shaft of first driving motor 8 runs through enzymolysis tank 1 top and is connected with first (mixing) shaft 9 top, the output shaft of second driving motor 12 runs through enzymolysis tank 1 bottom and is connected with second (mixing) shaft 13 bottom, first (mixing) shaft 9 bottom rotates with second (mixing) shaft 13 top to be connected, install first arc stirring vane 10 and the first puddler 11 of downwarping on the first (mixing) shaft 9 from last to down, from supreme second arc stirring vane 14 and the second puddler 15 of installing the kickup on the second (mixing) shaft 13 down. Drive first (mixing) shaft 9 through first driving motor 8 and rotate, drive second (mixing) shaft 13 through second driving motor 12 and rotate, rotation that can mutually independent between first (mixing) shaft 9 and the second (mixing) shaft 13, thereby realize first arc stirring vane 10 and first puddler 11 on the first (mixing) shaft 9 and second arc stirring vane 14 and the 15 two-way stirring of second puddler on the second (mixing) shaft 13, the range of stirring is big, effectively promoted stirring effect in the enzymolysis tank 1, the misce bene, the enzymolysis effect has been promoted. In the actual use process, the first stirring shaft 9 and the second stirring shaft 13 can have various stirring modes, such as same-direction and same-speed, different-direction and same-speed, same-direction and different-speed, different-direction and different-speed, and different stirring modes can be selected according to the needs of the enzymolysis process.

The length of the first stirring shaft 9 is the same as that of the second stirring shaft 13, the first stirring rod 11 is arranged obliquely downwards, the second stirring rod 15 is arranged obliquely upwards, and a certain gap is reserved between the bottom of the first stirring rod 11 and the top of the second stirring rod 15. Through carrying out the slope setting to first puddler 11 and second puddler 15, increased its area of contact with the interior liquid of enzymolysis tank 1, still can overturn about the liquid, reach the requirement of intensive mixing.

As shown in fig. 4 and 5, a hollow heating cavity 2 is formed inside the side wall of the enzymolysis tank 1, a heat conduction layer 3 is arranged in the heating cavity 2 close to the inner side wall of the enzymolysis tank 1, and an electric heating tube 4 is coiled outside the heat conduction layer 3. Through set up electric heating pipe 4 and heat-conducting layer 3 in heating cavity 2 for the quick even heating of liquid in the enzymolysis tank 1, and the effectual invariant of guaranteeing the interior liquid temperature of enzymolysis tank 1, in order to ensure the enzymolysis effect.

It is right to have used specific individual example above the utility model discloses expound, only be used for helping to understand the utility model discloses, not be used for the restriction the utility model discloses. To the technical field of the utility model technical personnel, the foundation the utility model discloses an idea can also be made a plurality of simple deductions, warp or replacement.

Claims (5)

1. The rana chensinensis egg protein extraction equipment is characterized by comprising an enzymolysis tank and a filter tank, wherein the top of the enzymolysis tank is provided with a water inlet and a first feed inlet, the bottom of the enzymolysis tank is provided with a first discharge outlet, the top of the filter tank is provided with a second feed inlet, the bottom of the filter tank is provided with a second discharge outlet, the first discharge outlet is communicated with the second feed inlet through a pipeline, a stirring mechanism is arranged in the enzymolysis tank, a plurality of filter screens with gradually reduced apertures are sequentially arranged in the filter tank from top to bottom, and the bottom of the filter tank is provided with a vibration mechanism;

the oscillation mechanism comprises supporting legs, an upper supporting plate, a lower supporting plate, a vibration motor, a connecting block, two connecting rods, two linear sliding rails, two sliding blocks and an elastic piece, the filter tank is fixed on the supporting leg, an upper supporting plate is fixedly arranged at the bottom of the supporting leg, the lower supporting plate is positioned right below the upper supporting plate, the two linear sliding rails are respectively and fixedly arranged at two sides of the top of the lower supporting plate, the two sliding blocks are respectively connected with the linear sliding rails in a sliding way, the connecting block is fixedly arranged at the bottom of the upper supporting plate, one end of each of the two connecting rods is respectively and rotatably connected with the two sides of the connecting block, the other end of each of the two connecting rods is respectively and rotatably connected with the two sliding blocks, the connecting block bottom with it is fixed to be provided with the elastic component between the bottom sprag board top, it is provided with vibrating motor respectively to go up backup pad bottom both sides.

2. The rana chensinensis egg protein extraction equipment as claimed in claim 1, wherein the stirring mechanism comprises a first driving motor, a first stirring shaft, a second driving motor and a second stirring shaft, a first driving motor is arranged at the top of the enzymolysis tank, a second driving motor is arranged at the bottom of the enzymolysis tank, the first stirring shaft and the second stirring shaft are both positioned in the enzymolysis tank, an output shaft of the first driving motor penetrates through the top of the enzymolysis tank and is connected with the top of the first stirring shaft, the output shaft of the second driving motor penetrates through the bottom of the enzymolysis tank and is connected with the bottom of the second stirring shaft, the bottom of the first stirring shaft is rotationally connected with the top of the second stirring shaft, a first arc-shaped stirring blade and a first stirring rod which are bent downwards are arranged on the first stirring shaft from top to bottom, and a second arc-shaped stirring blade and a second stirring rod which are bent upwards are arranged on the second stirring shaft from bottom to top.

3. The rana chensinensis egg protein extraction equipment as claimed in claim 2, wherein the first stirring shaft and the second stirring shaft are the same in length, the first stirring rod is arranged obliquely downwards, the second stirring rod is arranged obliquely upwards, and a certain gap is reserved between the bottom of the first stirring rod and the top of the second stirring rod.

4. The rana chensinensis egg protein extraction equipment as claimed in claim 1, wherein a hollow heating cavity is formed inside the side wall of the enzymolysis tank, a heat conduction layer is arranged in the heating cavity close to the inner side wall of the enzymolysis tank, and an electric heating pipe is coiled outside the heat conduction layer.

5. The rana chensinensis egg protein extraction equipment as claimed in claim 1, wherein a flow meter is installed at the first feed port, and electromagnetic valves are installed at the first discharge port and the second discharge port.

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