CN214915203U - Tank body for stirring shaft and blend oil - Google Patents

Abstract

The application relates to a stirring shaft and a tank body for blending oil, which belong to the technical field of blending oil production, and comprise a plurality of stirring sections which are positioned on the same axis and rotate relatively, a transmission part is arranged between every two adjacent stirring sections, and the transmission parts are used for enabling the adjacent stirring sections to have opposite directions; many all be provided with the stirring vane who is used for the stirring on the stirring section. This application has the advantage that improves the mixed effect of grease.

Description

Tank body for stirring shaft and blend oil

Technical Field

The application relates to the technical field of blend oil production, in particular to a stirring shaft and a tank for blend oil.

Background

The blend oil is also called high blend oil, and is edible oil prepared by blending more than two refined oils (except scented oil) according to the use requirement. The blend oil is transparent, and can be used as frying oil, deep-frying oil or cold-mixing oil. The blend oil generally adopts refined soybean oil, rapeseed oil, peanut oil, sunflower seed oil, cottonseed oil and the like as main raw materials; and special oil ester such as refined rice bran oil, corn germ oil, camellia seed oil, safflower seed oil, wheat germ oil, etc. The processing process comprises the following steps: selecting above two refined oil esters as required, deacidifying, decolorizing, deodorizing, and blending to obtain blend oil. When the refined oil is blended, the blended oil needs to be introduced into a stirring tank for stirring.

At present, as shown in fig. 1 and fig. 2, the agitator tank includes a tank body 8, and an oil inlet pipe 82 and an oil outlet pipe 83 are arranged on the tank body 8; the tank body 8 is provided with a stirring shaft 1, the length direction of the stirring shaft 1 is parallel to the depth direction of the tank body 8, and the tank body 8 is provided with a driving motor 84 for driving the stirring shaft 1 to rotate; grease to be prepared is introduced into the tank body 8 through the feeding pipe, the driving motor 84 is started, the driving motor 84 drives the stirring shaft 1 to rotate, the stirring shaft 1 rotates to mix the grease, and after mixing is finished, the blended oil is moved out of the tank body 8 through the oil outlet pipe 83.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when the stirring shaft stirs the grease, the grease in the tank body rotates along the same direction to form a vortex, and the mixing effect of the grease is influenced.

SUMMERY OF THE UTILITY MODEL

For the mixed effect that improves the grease, this application provides a (mixing) shaft and jar body for blend oil.

In a first aspect, the present application provides a stirring shaft, which adopts the following technical scheme:

a stirring shaft comprises a plurality of opposite rotating stirring sections which are positioned on the same axis, a transmission part is arranged between every two adjacent stirring sections, and the transmission parts are used for enabling the adjacent stirring sections to have opposite turning directions; many all be provided with the stirring vane who is used for the stirring on the stirring section.

By adopting the technical scheme, when the stirring shaft is used for stirring the grease, the adjacent stirring sections rotate relatively under the action of the transmission piece, so that the grease is stirred in a mess manner, and the grease mixing efficiency is improved; under the effect of stirring vane, improved the area of contact of stirring section with the grease, further improved the mixed effect of grease.

Optionally, the stirring shaft includes a first stirring section and a second stirring section, the first stirring section is located above the second stirring section, and the first stirring section and the second stirring section are opposite in rotation direction; the transmission part comprises a first gear arranged on the first stirring section, an inner gear ring is arranged at the end part of the second stirring section, the first gear is located in the inner gear ring, a connecting rod is arranged at the end part of the second stirring section and located in the inner gear ring, the length direction of the connecting rod is parallel to the length direction of the second stirring section, a second gear is rotatably arranged on the connecting rod, and the second gear is respectively meshed with the first gear and the inner gear ring.

By adopting the technical scheme, when the grease is stirred, the first stirring section is rotated clockwise, the first stirring section rotates to drive the first gear to rotate, the first gear rotates to drive the second gear to rotate, the second gear rotates to drive the inner gear ring to rotate, the inner gear ring rotates to drive the second stirring section to rotate anticlockwise, and the operation is simple and convenient; meanwhile, the transmission part has the advantages of compact structure and stable transmission.

Optionally, a holding groove for holding the ring gear is formed in the end of the second stirring section.

By adopting the technical scheme, under the action of the containing tank, the outer side wall of the inner gear ring is arranged on the peripheral wall of the containing tank, so that the installation area between the inner gear ring and the second stirring section is increased, and the stability of the inner gear ring and the second stirring section is improved; simultaneously, the holding tank plays certain positioning action, and then is convenient for install first stirring section and second stirring section to the same axis on.

Optionally, the second stirring section and the side wall that is located the holding tank have seted up the oil outlet.

Through adopting above-mentioned technical scheme, under the effect of oil outlet, be convenient for discharge the grease in the holding tank, reduced the grease that is detained in the holding tank, reduced the waste of grease.

Optionally, the bottom wall of the holding tank protrudes outward toward the side close to the first stirring section.

Through adopting above-mentioned technical scheme, the diapire evagination of holding tank is convenient for collect the grease between holding tank diapire and lateral wall, is convenient for discharge the grease, has further reduced the waste of grease.

Optionally, the second stirring section is provided with and is used for the filterable filter screen of grease on and covering the oil outlet.

By adopting the technical scheme, certain condensation can be generated by the grease under the action of the first gear, the second gear and the inner gear ring; under the effect of filter screen, filter the grease of discharge holding tank, improved the quality of grease.

Optionally, a backflow piece is arranged on the first stirring section, and the backflow piece is used for enabling the grease at the first stirring section to flow back to the second stirring section.

Through adopting above-mentioned technical scheme, under the effect of backward flow spare, near the grease guide-in second stirring section of first stirring section department, the grease of second stirring section department rises again to being less than (mixing) shaft department, has further improved the mixed effect of grease.

Optionally, the backflow part includes a backflow pipe disposed on the first stirring section, an end portion of the backflow pipe, which is far away from the first stirring section, is located between an end portion of the second stirring section and the tail portion, and an oil inlet is formed in a side wall of the backflow pipe, which is located between the end portion of the first stirring shaft and the tail portion.

By adopting the technical scheme, the backflow pipe is driven to rotate when the first stirring section rotates, and in the rotating process of backflow, the grease enters the backflow pipe through the oil inlet and is guided out to the second stirring shaft, so that the operation is simple and convenient; meanwhile, the return pipe has the advantages of low cost and easy acquisition.

Optionally, a reinforcing rod for fixing the return pipe is arranged on the first stirring section.

Through adopting above-mentioned technical scheme, under the effect of stiffener, improved the stability of back flow, reduced the back flow and stirring vane and appeared the possibility of collision, prolonged the life of back flow.

The second aspect, this application provides a jar body for blend oil, adopts following technical scheme:

the tank body for the blend oil comprises a tank body, wherein a driving motor is arranged on the tank body, and a stirring shaft is arranged in the tank body and on an output shaft of the driving motor.

Through adopting above-mentioned technical scheme, it is internal to let in the jar with the grease, starts driving motor, and the first stirring section of driving motor drive rotates, and first stirring section drives the reversal of second stirring section, has improved the mixed effect to the grease.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the adjacent stirring sections rotate relatively under the action of the transmission piece, so that the grease is stirred in a mess manner, and the grease mixing efficiency is improved;

2. under the action of the oil outlet, the grease in the accommodating groove is conveniently discharged, the grease staying in the accommodating groove is reduced, and the waste of the grease is reduced;

3. under the effect of the backflow piece, grease at the first stirring section is guided into the position close to the second stirring section, and the grease at the second stirring section rises to a position lower than the stirring shaft, so that the mixing effect of the grease is further improved.

Drawings

FIG. 1 is a schematic view of a related art structure;

FIG. 2 is a sectional view of a can body in the related art;

FIG. 3 is a schematic structural view of a stirring shaft in the embodiment of the present application;

FIG. 4 is an exploded view of a transmission member in an embodiment of the present application;

FIG. 5 is an enlarged schematic view of portion A of FIG. 4;

FIG. 6 is an exploded view of the stirring shaft in the embodiment of the present application;

FIG. 7 is an enlarged schematic view of portion B of FIG. 6;

FIG. 8 is a schematic view of the connection between the stirring shaft and the tank in the embodiment of the present application.

Description of reference numerals: 1. a stirring shaft; 11. a first stirring section; 12. a second stirring section; 13. a T-shaped block; 14. a T-shaped slot; 15. a stirring blade; 2. a transmission member; 21. a first gear; 22. an inner gear ring; 23. a connecting rod; 24. a second gear; 3. accommodating grooves; 4. an oil outlet hole; 5. filtering with a screen; 6. a return member; 61. a return pipe; 62. an oil inlet; 7. a reinforcing bar; 8. a tank body; 81. supporting legs; 82. an oil inlet pipe; 83. an oil outlet pipe; 84. the motor is driven.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses a stirring shaft. Referring to fig. 3 and 4, the stirring shaft 1 includes a plurality of stirring segments located on the same axis and rotating relatively, in this embodiment, the stirring shaft 1 includes two stirring segments (a first stirring segment 11 and a second stirring segment 12), the directions of the first stirring segment 11 and the second stirring segment 12 are opposite, the first stirring segment 11 includes an end portion and a tail portion, the second stirring segment 12 includes an end portion and a tail portion, with reference to fig. 5, a T-shaped block 13 is integrally formed at the tail portion of the first stirring segment 11, the end-to-end connection of the T-shaped block 13 is annular, a T-shaped groove 14 for the T-shaped block 13 to be inserted is formed at the end portion of the second stirring segment 12, and the end-to-end connection of the T-shaped groove 14 is annular; under the matching of the T-shaped groove 14 and the T-shaped block 13, the first stirring section 11 and the second stirring section 12 are connected into a whole and can rotate relatively.

Referring to fig. 3 and 4, in order to increase the contact area between the stirring shaft 1 and the grease, stirring blades 15 for stirring the grease are welded to both the first stirring section 11 and the second stirring section 12.

Referring to fig. 4 and 5, a transmission member 2 is arranged between adjacent stirring sections, the transmission member 2 is used for enabling the adjacent stirring sections to have opposite directions, the transmission member 2 includes a first gear 21 welded on the tail of the first stirring section 11, an inner gear ring 22 is fixedly installed at the end of the second stirring section 12, the first gear 21 is located at the center of the inner gear ring 22, three connecting rods 23 are welded at the end of the second stirring section 12 and located in the inner gear ring 22, the length direction of the connecting rods 23 is parallel to the length direction of the second stirring section 12, bearings are welded on the connecting rods 23, second gears 24 are sleeved on outer rings of the bearings, and the second gears 24 are respectively meshed with the first gear 21 and the inner gear ring 22; when the first stirring section 11 rotates, the first stirring section 11 drives the first gear 21 to rotate, the first gear 21 rotates to drive the second gear 24 to rotate, and the second gear 24 rotates to drive the inner gear ring 22 to drive the second stirring section 12 to rotate.

Referring to fig. 6 and 7, in order to facilitate mounting the ring gear 22 on the second stirring section 12, the end of the second stirring section 12 is provided with a receiving groove 3, and the ring gear 22 is embedded in the side wall of the receiving groove 3; the inner gear ring 22 is convenient to mount under the action of the accommodating groove 3; meanwhile, the stability between the ring gear 22 and the second stirring section 12 is improved.

Referring to fig. 6 and 7, in order to facilitate discharging the grease entering the holding tank 3, the second stirring section 12 and the side wall of the holding tank 3 are provided with four oil outlet holes 4, the oil outlet holes 4 penetrate through the side wall of the holding tank 3, and the four oil outlet holes 4 are uniformly arranged along the circumferential direction of the second stirring section 12; the bottom wall of the holding tank 3 is convex toward the side close to the first stirring section 11.

Referring to fig. 6 and 7, the temperature of the first gear 21, the second gear 24 and the ring gear 22 increases during rotation, and condensation of grease in the accommodating groove 3 may occur; in order to improve the quality of the blended oil, a filter screen 5 for filtering the grease is arranged on the second stirring section 12 and covers the oil outlet 4, and the filter screen 5 is embedded in the side wall of the oil outlet 4; under filter screen 5's effect, filter the grease in the holding tank 3, adsorb the coagulum on filter screen 5, reduced the coagulum in the blend oil, improved the quality of blend oil.

Referring to fig. 6 and 7, in order to further improve the mixing effect of the grease, a backflow element 6 is arranged on the first stirring section 11, the backflow element 6 is used for returning the grease at the first stirring section 11 to the second stirring section 12, the backflow element 6 includes a backflow pipe 61 (the backflow pipe 61 is a hard pipe) fixedly connected to the first stirring section 11, an end portion of the backflow pipe 61 far away from the first stirring section 11 is located between an end portion and a tail portion of the second stirring section 12, an oil inlet 62 is formed in a side wall of the backflow pipe 61 located between the end portion and the tail portion of the first stirring shaft 1, and an opening of the oil inlet 62 faces a speed direction parallel to the first stirring section 11; when the first stirring section 11 rotates, the grease enters the backflow pipe 61 through the oil inlet 62 and is discharged to the second stirring section 12 through the oil outlet of the backflow pipe 61, and the mixing efficiency of the grease is further improved.

Referring to fig. 6 and 7, in order to improve the stability of the oil inlet pipe 82, the reinforcing rod 7 for fixing the return pipe 61 is welded on the first stirring section 11, and one end of the reinforcing rod 7, which is far away from the first stirring section 11, is fixedly connected to the return pipe 61.

The implementation principle of a stirring shaft in the embodiment of the application is as follows:

when the grease is stirred, the first stirring section 11 is rotated, the first stirring section 11 rotates to drive the first gear 21 to rotate, the first gear 21 rotates to drive the second gear 24 to rotate, and the second gear 24 rotates to drive the inner gear ring 22 to drive the second stirring section 12 to rotate towards the direction opposite to the direction of rotation of the first stirring section 11; in the rotating process of the first stirring section 11, grease at the first stirring section 11 enters the return pipe 61 through the oil inlet 62 and is discharged to the second stirring section 12 through the oil outlet of the return pipe 61, so that the mixing efficiency of the grease is improved.

The embodiment of the application discloses a blending oil tank body. Referring to fig. 8, the blending oil tank comprises a tank body 8, a supporting leg 81 is installed at the bottom of the tank body 8, an oil inlet pipe 82 and an oil outlet pipe 83 are installed on the tank body 8, the oil inlet pipe 82 is connected to the top of the tank body 8, and the oil outlet pipe 83 is connected to the side wall of the tank body 8 and is close to the bottom of the tank body 8; a driving motor 84 is installed at the top of the tank body 8, the length direction of an output shaft of the driving motor 84 is parallel to the depth direction of the tank body 8, a stirring shaft is arranged in the tank body 8 and on the output shaft of the driving motor 84, and a coupling used for connecting the first stirring section 11 is installed on the output shaft of the driving motor 84; grease to be mixed is introduced into the tank body 8 through the oil inlet pipe 82, the driving motor 84 is started, the driving motor 84 drives the first stirring section 11 to rotate, the first stirring section 11 rotates to drive the second stirring section 12 to rotate, the first stirring section 11 and the second stirring section 12 have opposite steering directions, and the grease mixing effect is improved.

The implementation principle of the blend oil tank body in the embodiment of the application is as follows:

when the grease is mixed, the first stirring section 11 is arranged on the output shaft of the driving motor 84; starting a driving motor 84, wherein the driving motor 84 drives a first stirring section 11 to rotate, and the first stirring section 11 rotates to drive a second stirring section 12 to rotate to mix grease; meanwhile, under the action of the return pipe 61, grease at the upper part in the tank body 8 is guided into the lower part, so that internal circulation of the grease at the upper part and the lower part is realized, and the mixing effect of the grease is further improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A stirring shaft is characterized in that: the stirring shaft (1) comprises a plurality of stirring sections which are positioned on the same axis and rotate relatively, a transmission piece (2) is arranged between every two adjacent stirring sections, and the transmission pieces (2) are used for enabling the adjacent stirring sections to have opposite rotation directions; and a plurality of stirring blades (15) for stirring are arranged on the stirring sections.

2. A mixer shaft as claimed in claim 1, in which: the stirring shaft (1) comprises a first stirring section (11) and a second stirring section (12), the first stirring section (11) is positioned above the second stirring section (12), and the first stirring section (11) and the second stirring section (12) are opposite in rotation direction; the transmission part (2) comprises a first gear (21) arranged on the first stirring section (11), an inner gear ring (22) is arranged at the end part of the second stirring section (12), the first gear (21) is located in the inner gear ring (22), a connecting rod (23) is arranged at the end part of the second stirring section (12) and located in the inner gear ring (22), the length direction of the connecting rod (23) is parallel to the length direction of the second stirring section (12), a second gear (24) is rotatably arranged on the connecting rod (23), and the second gear (24) is respectively meshed with the first gear (21) and the inner gear ring (22).

3. A mixer shaft as claimed in claim 2, in which: the end part of the second stirring section (12) is provided with a holding tank (3) for holding the inner gear ring (22).

4. A mixer shaft as claimed in claim 3, in which: the second stirring section (12) is positioned on the side wall of the accommodating groove (3) and is provided with an oil outlet (4).

5. A mixer shaft as claimed in claim 4, in which: the bottom wall of the holding tank (3) protrudes outwards towards the side close to the first stirring section (11).

6. A mixer shaft as claimed in claim 4, in which: and a filter screen (5) used for filtering the grease is arranged on the second stirring section (12) and covers the oil outlet (4).

7. A mixer shaft as claimed in claim 2, in which: be provided with backward flow spare (6) on first stirring section (11), backward flow spare (6) are used for the grease backward flow of first stirring section (11) department to second stirring section (12) department.

8. A mixer shaft as claimed in claim 7, in which: the backflow piece (6) comprises a backflow pipe (61) arranged on the first stirring section (11), the end part, far away from the first stirring section (11), of the backflow pipe (61) is located between the end part and the tail part of the second stirring section (12), and an oil inlet (62) is formed in the side wall, located between the end part and the tail part of the first stirring shaft (1), of the backflow pipe (61).

9. A mixer shaft as claimed in claim 8, in which: the first stirring section (11) is provided with a reinforcing rod (7) for fixing the return pipe (61).

10. The utility model provides a jar body for blend oil, includes jar body (8), be provided with driving motor (84) on jar body (8), its characterized in that: a mixer shaft according to any one of claims 1 to 9 provided in the tank (8) on the output shaft of the drive motor (84).

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