CN217275302U - Sodium hyaluronate gel dehydration drying device - Google Patents

Abstract

The utility model discloses a sodium hyaluronate gel dehydration drying device, which comprises an agitator tank, wherein the agitator tank comprises a tank body, the bottom of the tank body is rotatably connected with a multistage agitating device, the multistage agitating device comprises a vertical helical blade arranged along the axial direction of the tank body, the sodium hyaluronate gel at the bottom can be rolled and conveyed from bottom to top through the arranged vertical helical blade, the agitating efficiency at the bottom is improved, a plurality of horizontal helical blades meshed with the vertical helical blade are arranged along the radial direction of the tank body, the sodium hyaluronate gel is conveyed and agitated towards the outer side of the tank body through the horizontal helical blade, at the moment, the sodium hyaluronate gel and the vertical helical blade at the bottom form a conveying and agitating structure, the rolling efficiency inside is increased, the agitating blade is arranged at the upper end of the vertical helical blade, a turbulent flow heating plate provided with a plurality of turbulent flow holes is arranged inside the tank body, the sodium hyaluronate gel after rolling passes through the turbulent flow holes of the turbulent flow heating plate, uniform heating of the sodium hyaluronate gel is realized.

Description

Sodium hyaluronate gel dehydration drying device

Technical Field

The utility model relates to a sodium hyaluronate gel processing field especially relates to sodium hyaluronate gel dehydration drying device.

Background

Experiments show that sodium hyaluronate gel absorbs the highest amount of moisture at low relative humidity (33%) and the lowest amount of moisture at high relative humidity (75%) compared to the humectant. This unique property is being adapted to the skin's requirements for moisturization in different seasons, different ambient humidity, such as dry winter and wet summer. The moisture retention of sodium hyaluronate is related to its quality, and the higher the quality is, the better the moisture retention performance is. Therefore, in the process of processing sodium hyaluronate gel, the product with higher relative humidity is usually required to be dehydrated and dried to be reduced to a low relative humidity (33%), and then the moisturizing effect is improved, but in the process of stirring, heating and dehydrating sodium hyaluronate gel, the existing drying device singly depends on the stirring blade to perform single-stage stirring, so that the tumbling severity of the sodium hyaluronate gel inside is relatively poor, and in the process of dehydrating by an external heating mode, the heating effect on the sodium hyaluronate gel close to a heating area is better, and the purpose of uniform heating cannot be realized.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a sodium hyaluronate gel dehydration drying device, vertical helical blade through setting up, can carry out the sodium hyaluronate gel of bottom by supreme transport that rolls down, improve the stirring efficiency of bottom, helical blade through the horizontal, make sodium hyaluronate gel carry the stirring to the outside of box, form a transport stirring structure with the vertical helical blade of bottom this moment, increase inside efficiency of rolling, and under the cooperation of stirring leaf, make the vortex hole of the vortex hot plate after the sodium hyaluronate gel that rolls through the heating, the even heating of sodium hyaluronate gel has been realized.

In order to solve the technical problem, the utility model provides a following technical scheme: a sodium hyaluronate gel dehydration drying device comprises.

As a preferred technical scheme of the utility model, including the agitator tank, the agitator tank is the tubbiness box of open structure including the top, the bottom of box is rotated and is connected with multistage agitating unit, multistage agitating unit including along the vertical helical blade of box axial setting, along the box radially be provided with a plurality ofly with vertical helical blade meshed horizontal helical blade, the stirring leaf is installed to vertical helical blade's upper end, the internally mounted of box has the vortex hot plate of seting up a plurality of vortex holes.

As a preferred technical scheme of the utility model, the bottom half is narrow toper structure under the width, the agitator tank is still including the support that supports the box, set up the row who has the valve in bottom half one side and expect the pipe.

As a preferred technical scheme of the utility model, vertical helical blade is including the vertical scroll, and stirs leaf fixed mounting in the upper end of vertical scroll, the upper end of vertical scroll and arrange the below of stirring leaf in and install initiative conical gear, horizontal helical blade is close to one side of vertical scroll and installs the passive conical gear with initiative conical gear meshing, passive conical gear, initiative conical gear cover are established in the inside of gear box, and vertical scroll and horizontal helical blade's axostylus axostyle and gear box outer wall normal running fit, multistage agitating unit is still including fixed motor, the output axle head of motor and the lower extreme fixed mounting of vertical scroll.

As a preferred technical scheme of the utility model, the last opening that the bore is greater than stirring leaf turning radius is seted up to the top of vortex hot plate, the below of vortex hot plate is seted up the bore and is greater than vertical helical blade and with gear box fixed mounting's lower opening.

As an optimal technical scheme of the utility model, through axostylus axostyle swing joint between box and the support.

Compared with the prior art, the utility model discloses the beneficial effect that can reach is:

1. through the vertical helical blade who sets up, can carry out the sodium hyaluronate gel of bottom by the supreme transport that rolls down, improve the stirring efficiency of bottom, helical blade through horizontal for sodium hyaluronate gel carries the stirring to the outside of box, forms a transport stirring structure with the vertical helical blade of bottom this moment, increases inside efficiency of rolling, and under the cooperation of stirring leaf, make the sodium hyaluronate gel after rolling through the vortex hole of the vortex hot plate after the heating, realized the even heating of sodium hyaluronate gel.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic diagram of the explosion structure of the present invention;

FIG. 3 is a schematic structural view of a multi-stage stirring apparatus according to the present invention;

FIG. 4 is a schematic structural view of a multi-stage stirring apparatus according to the present invention;

fig. 5 is a schematic structural view of the turbulent flow heating plate of the present invention.

Wherein:

1. a stirring box; 11. a box body; 12. a support; 13. a discharge pipe;

2. a turbulent flow heating plate; 21. an upper gap; 22. a lower gap; 23. a flow-disturbing hole;

3. a multi-stage stirring device; 31. a vertical helical blade; 311. a vertical shaft; 312. a driving bevel gear; 32. a horizontal helical blade; 321. a driven bevel gear; 33. stirring blades; 34. a gear case; 35. an electric motor.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the functions of the invention easy to understand, the invention is further explained below with reference to the specific embodiments, but the following embodiments are only the preferred embodiments of the invention, not all. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative work belong to the protection scope of the present invention. The experimental methods in the following examples are conventional methods unless otherwise specified, and materials, reagents and the like used in the following examples are commercially available unless otherwise specified.

Example (b):

as shown in fig. 1-5, the utility model provides a sodium hyaluronate gel dehydration drying device, including agitator tank 1, agitator tank 1 includes a barrel-shaped box 11 with an open top, the bottom of box 11 is rotatably connected with multi-stage stirring device 3, multi-stage stirring device 3 includes a vertical helical blade 31 axially arranged along box 11, sodium hyaluronate gel at the bottom can be rolled and conveyed from bottom to top through the arranged vertical helical blade 31, the stirring efficiency at the bottom is improved, a plurality of horizontal helical blades 32 meshed with vertical helical blade 31 are radially arranged along box 11, sodium hyaluronate gel is conveyed and stirred to the outside of box 11 through horizontal helical blade 32, at this time, a conveying and stirring structure is formed with vertical helical blade 31 at the bottom, the rolling efficiency inside is increased, stirring blade 33 is installed at the upper end of vertical helical blade 31, the turbulent flow heating plate 2 provided with the turbulent flow holes 23 is arranged inside the box body 11, and the sodium hyaluronate gel after rolling is uniformly heated through the turbulent flow holes 23 of the turbulent flow heating plate 2 after heating under the cooperation of the stirring blades 33.

Preferably, the bottom of the tank 11 is a tapered structure with a wide top and a narrow bottom, and the stirring tank 1 further comprises a support 12 for supporting the tank 11 and a discharge pipe 13 with a valve (not shown) opened at one side of the bottom of the tank 11. The box body 11 is movably connected with the bracket 12 through a shaft rod. The bottom of the box body 11 is set to be a tapered structure with a wide top and a narrow bottom, so that the sodium hyaluronate gel can be conveniently collected at the bottom and then operated through the vertical helical blade 31, as shown in fig. 2, two sides of the box body 11 are movably connected with the bracket 12, the bottom can be inclined in the discharging process, and the sodium hyaluronate gel at the bottom can be conveniently discharged from the inside of the box body 11.

Preferably, the vertical helical blade 31 includes a vertical shaft 311, the stirring blade 33 is fixedly installed at the upper end of the vertical shaft 311, the driving bevel gear 312 is installed at the upper end of the vertical shaft 311 and below the stirring blade 33, the driven bevel gear 321 engaged with the driving bevel gear 312 is installed at one side of the horizontal helical blade 32 close to the vertical shaft 311, the driven bevel gear 321 and the driving bevel gear 312 are sleeved inside the gear box 34, shaft rods of the vertical shaft 311 and the horizontal helical blade 32 are rotatably matched with the outer wall of the gear box 34, the multistage stirring device 3 further includes a fixed motor 35, and an output shaft end of the motor 35 is fixedly installed with the lower end of the vertical shaft 311. Motor 35 drives vertical scroll 311 and rotates, and stirring leaf 33 is installed and is followed the rotation in vertical scroll 311's upper end, and to vertical helical blade 31 and initiative conical gear 312 follow the rotation with this moment, is conventional between horizontal helical blade 32's axostylus axostyle and the gear box 34 and passes through sealed bearing and rotate and be connected, does not do not repeated in this case, and initiative conical gear 312 drives a plurality of passive conical gear 321 rotations this moment, and then drives horizontal helical blade 32 and rotate, increases inside violent degree of rolling, improves the heating effect.

Preferably, an upper notch 21 with the caliber larger than the rotation radius of the stirring blade 33 is formed above the turbulent flow heating plate 2, and a lower notch 22 with the caliber larger than the vertical helical blade 31 and fixedly installed with the gear box 34 is formed below the turbulent flow heating plate 2. The both sides of vortex hot plate 2 and the inner wall fixed mounting of box 11, the bore is greater than stirring leaf 33 radius of rotation's last opening 21 has been seted up to the top of vortex hot plate 2, when avoiding stirring leaf 33 to rotate, interfere with vortex hot plate 2, the bore has been seted up to the below of vortex hot plate 2 and has been greater than vertical helical blade 31 and with gear box 34 fixed mounting's lower opening 22, gear box 34's outer wall plays the fixed action to gear box 34 with the inner wall fixed mounting of opening 22 down, vortex hot plate 2 is arranged in between per two horizontal helical blade 32 simultaneously, avoid interfering horizontal helical blade 32's rotation.

The utility model discloses when using, pour into the inside at box 11 with the sodium hyaluronate gel, 2 ohmic heating of vortex hot plate afterwards, motor 35 circular telegram, motor 35 drives vertical scroll 311 and rotates afterwards, stirring leaf 33 is installed and is followed the rotation in vertical scroll 311's upper end, to following the rotation with this while vertical helical blade 31 and initiative conical gear 312, be connected for the conventional sealed bearing that passes through between horizontal helical blade 32's axostylus axostyle and the gear box 34, and then drive horizontal helical blade 32 and rotate, drive inside solution stirring in-process at stirring leaf 33, solution carries out even partition to solution after through disturbing hole 23, and heat the solution that passes through, make the heating more even, increase inside violent degree of rolling, improve the heating effect.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only the preferred embodiments of the present invention, and is not intended to limit the present invention, and that there may be various changes and modifications without departing from the spirit and scope of the present invention, and these changes and modifications all fall within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. Sodium hyaluronate gel dehydration drying device, including agitator tank (1), its characterized in that: agitator tank (1) is open structural tubbiness box (11) including the top, the bottom of box (11) is rotated and is connected with multistage agitating unit (3), multistage agitating unit (3) radially are provided with horizontal helical blade (32) a plurality of and vertical helical blade (31) meshing along box (11) including vertical helical blade (31) that set up along box (11) axial, stirring leaf (33) are installed to the upper end of vertical helical blade (31), the internally mounted of box (11) has vortex hot plate (2) of seting up a plurality of vortex floworings (23).

2. The sodium hyaluronate gel dehydration drying device of claim 1, wherein: the stirring box is characterized in that the bottom of the box body (11) is of a conical structure with a wide upper part and a narrow lower part, and the stirring box (1) further comprises a support (12) for supporting the box body (11) and a discharge pipe (13) with a valve arranged on one side of the bottom of the box body (11).

3. The sodium hyaluronate gel dehydration drying device of claim 1, wherein: the vertical type helical blade (31) comprises a vertical shaft (311), a stirring blade (33) is fixedly installed at the upper end of the vertical shaft (311), an active bevel gear (312) is installed at the upper end of the vertical shaft (311) and below the stirring blade (33), a passive bevel gear (321) meshed with the active bevel gear (312) is installed on one side, close to the vertical shaft (311), of the horizontal type helical blade (32), the passive bevel gear (321) and the active bevel gear (312) are sleeved inside the gear box (34), shaft levers of the vertical shaft (311) and the horizontal type helical blade (32) are in rotating fit with the outer wall of the gear box (34), the multistage stirring device (3) further comprises a fixed motor (35), and the output shaft end of the motor (35) is fixedly installed with the lower end of the vertical shaft (311).

4. The sodium hyaluronate gel dehydration drying device of claim 1, wherein: an upper opening (21) with the caliber larger than the rotating radius of the stirring blade (33) is formed in the upper portion of the turbulent flow heating plate (2), and a lower opening (22) with the caliber larger than the vertical helical blade (31) and fixedly installed with the gear box (34) is formed in the lower portion of the turbulent flow heating plate (2).

5. The sodium hyaluronate gel dehydration drying device of claim 1, wherein: the box body (11) is movably connected with the bracket (12) through a shaft rod.

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