CN113813850A

CN113813850A - Spiral feeding and mixing device for mixing liquid

Info

Publication number: CN113813850A
Application number: CN202111093943.XA
Authority: CN
Inventors: 董亮
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-09-17
Filing date: 2021-09-17
Publication date: 2021-12-21

Abstract

The invention discloses a spiral feeding and mixing device for mixing liquid, which comprises a bottom support plate with a mounting plate arranged on the side surface. According to the invention, the inner rotating plate is driven to rotate by the driving motor, so that the first helical blade, the second helical structure and the third helical structure rotate, the helical directions of the first helical blade, the second helical structure and the third helical structure are special, and the raw materials are in S-shaped motion in the equipment under the action of the outer rotating shell, so that the S-shaped motion effectively prolongs the time for moving the raw materials, thereby improving the mixing degree.

Description

Spiral feeding and mixing device for mixing liquid

Technical Field

The invention relates to the technical field of feeding and mixing devices, in particular to a spiral feeding and mixing device for mixing liquid.

Background

At present, the mode that current raw materials mix and carry is generally set up separately, and when the raw materials is after mixing, pour into conveying equipment, just can realize mixing the transport of raw materials, and it is in actual work, has the use equipment many, and is with high costs and the defect that work efficiency is low.

Disclosure of Invention

The invention aims to provide a spiral feeding and mixing device for mixing liquid, which aims to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a spiral feeding and mixing device for mixing liquid comprises a bottom support plate, a first longitudinal support plate, a second longitudinal support plate, a motor installation shell, a driving motor and a motor spindle, wherein the side surface of the bottom support plate is provided with an installation plate, the first longitudinal support plate and the second longitudinal support plate are arranged at two ends of the upper surface of the bottom support plate, the motor installation shell is arranged on one side of the first longitudinal support plate, the driving motor is arranged in the motor installation shell, the motor spindle penetrates through the plate body of the first longitudinal support plate, an inner rotating plate is arranged at the end part of the motor spindle, a transverse main discharge pipeline is arranged on the plate body of the second longitudinal support plate, one end of the main discharge pipeline is provided with an outer rotating shell of an integrated structure, an outer hollow structure with an opening at one side is arranged in the outer rotating shell, an inner rotating shell with an inward bulge is arranged in the middle section of the outer rotating shell, an inner hollow structure with an opening at one side is arranged in the inner rotating shell, and a rotating plate insertion groove is arranged in one end of the outer rotating shell, the inner rotary shell and the outer rotary shell form a movement gap in a gap between the inner end, one end of the outer rotary shell is provided with a second injection pipeline communicated with an outer hollow structure between the inner rotary shell and the outer rotary shell, the side surface of the outer rotary shell is provided with a first injection pipeline communicated with the inside and the outside, a plate body of the inner rotary plate is inserted into the inner part of the rotary plate insertion groove, the edge of the plate body is provided with a main sealing ring, the center of the end surface of the inner rotary plate is provided with a main rotary shaft extending to the center of the inside of the inner hollow structure, the end part of the main rotary shaft is provided with a tip structure, a first helical blade is arranged on the shaft body of the main rotary shaft, the end surface of the inner rotary plate is provided with a middle rotary shell protruding outwards and positioned between the inner rotary shell and the outer rotary shell, the center of the middle rotary shell is provided with a middle hollow structure, and the inner side surface of the middle rotary shell is provided with a second helical structure, and a third spiral structure is arranged on the outer side surface of the middle rotary shell.

Further, the transverse length of the inner rotary housing is smaller than that of the outer rotary housing.

Further, the first helical blade faces the main discharge duct due to its own helical direction, the conveying direction being formed when rotating.

Further, the second helical structure is directed in the opposite direction of the main discharge duct due to its own helical direction, the conveying direction being formed when rotating.

Further, the third helical structure faces the second injection pipe due to its own helical direction, the conveying direction formed when rotating.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the inner rotating plate is driven to rotate by the driving motor, so that the first helical blade, the second helical structure and the third helical structure rotate, the helical directions of the first helical blade, the second helical structure and the third helical structure are special, and the raw materials are in S-shaped motion in the equipment under the action of the outer rotating shell, so that the S-shaped motion effectively prolongs the time for moving the raw materials, thereby improving the mixing degree.

Drawings

FIG. 1 is a schematic view of a full-section structure of a spiral feeding and mixing device for mixing liquid;

FIG. 2 is a schematic structural view of an outer rotary housing of a spiral feed mixing device for mixing a liquid according to the present invention;

FIG. 3 is a schematic structural view of an inner rotating plate in the spiral feeding and mixing device for mixing liquid according to the present invention;

in the figure: 1, a bottom support plate, 2, a mounting plate, 3, a first longitudinal support plate, 4, a second longitudinal support plate, 5, a motor mounting housing, 6, a driving motor, 7, a motor spindle, 8, an inner rotating plate, 9, an outer rotating housing, 10, an outer hollow structure, 11, an inner hollow structure, 12, a rotating plate insertion groove, 13, a main seal ring, 14, a main discharge pipe, 15, a second injection pipe, 16, a main rotating shaft, 17, a middle rotating housing, 18, a main rotating shaft, 19, a first helical blade, 20, an inner rotating housing, 21, a third helical structure, 22, a middle hollow structure, 23, a second helical structure, 24, and a first injection pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, an embodiment of the present invention is shown: comprises a bottom supporting plate 1 with a side surface provided with a mounting plate 2, a first longitudinal supporting plate 3 and a second longitudinal supporting plate 4 which are arranged at two ends of the upper surface of the bottom supporting plate 1, a motor mounting shell 5 which is arranged at one side of the first longitudinal supporting plate 3, a driving motor 6 which is arranged inside the motor mounting shell 5 and a motor spindle 7 which penetrates through the plate body of the first longitudinal supporting plate 3, wherein an inner rotating plate 8 is arranged at the end part of the motor spindle 7, a transverse main discharge pipeline 14 is arranged on the plate body of the second longitudinal supporting plate 4, an outer rotating shell 9 with an integral structure is arranged at one end of the main discharge pipeline 14, an outer hollow structure 10 with an opening at one side is arranged inside the outer rotating shell 9, an inner rotating shell 20 which protrudes inwards is arranged at the middle section inside the outer rotating shell 9, an inner hollow structure 11 with an opening at one side is arranged inside the inner rotating shell 20, and a rotating plate inserting groove 12 is arranged inside one end of the outer rotating shell 9 which is positioned at the opening, the inner rotary shell 20 and the outer rotary shell 9 form a movement gap in a gap between the inner ends, one end of the outer rotary shell 9 is provided with a second injection pipeline 15 communicated with an outer hollow structure 10 between the inner rotary shell 20 and the outer rotary shell 9, the side surface of the outer rotary shell 9 is provided with a first injection pipeline 24 communicated with the inside and the outside, a plate body of the inner rotary plate 8 is inserted into the rotary plate insertion groove 12, the edge of the plate body is provided with a main sealing ring 13, the center of the end surface of the inner rotary plate 8 is provided with a main rotary shaft 16 extending to the center of the inside of the inner hollow structure 11, the end part of the main rotary shaft 16 is provided with a tip structure 18, the shaft body of the main rotary shaft 18 is provided with a first helical blade 19, the end surface of the inner rotary plate 8 is provided with a middle rotary shell 17 protruding outwards and positioned between the inner rotary shell 20 and the outer rotary shell 9, the center of the middle rotary shell 17 is provided with a middle hollow structure 22, the inner side surface of the middle rotary shell 17 is provided with a second spiral structure 23, and the outer side surface of the middle rotary shell 17 is provided with a third spiral structure 21.

The transverse length of the inner rotary housing 20 is smaller than that of the outer rotary housing 9, so that a gap exists between the two, and liquid flow is realized.

Said first helical blade 19, when rotated, due to its own helical direction, is able to generate a state of motion of the liquid towards the main discharge conduit 14.

The second helical structure 23, due to its own helical direction, the direction of transport formed during rotation, is directed in the opposite direction to the main discharge conduit 14, and during rotation, is able to generate a state of movement of the liquid away from the second injection conduit 15.

The third helical structure 21 is able to generate a state of liquid movement towards the second injection duct 15 when rotated, due to its own helical direction, the direction of transport being formed when rotated, towards the second injection duct 15.

The specific use mode is as follows: in the work of the invention, the main raw material to be mixed is injected through the first injection pipeline 24, the auxiliary raw material is injected through the second injection pipeline 15, then the driving motor 6 is opened, under the rotation driving action of the motor spindle 7, the inner rotating plate 8 can drive the first helical blade 19, the second helical structure 23 and the third helical structure 21 to rotate, wherein the third helical structure 21 rotates to enable the main raw material to move towards the direction of the second injection pipeline, meanwhile, the main raw material and the auxiliary raw material are mixed in a primary collision mode, under the rotation action of the second helical structure 23, the mixed raw material flows towards the direction of the movement gap after the first reversing motion, and similarly, under the combined action of the first helical blade 19, the two raw materials can generate a reverse flow phenomenon again and are discharged outwards through the main discharge pipeline 14.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a liquid sneaks into spiral pay-off mixing arrangement, includes bottom sprag board (1) of side-mounting panel (2), install first vertical backup pad (3) and the vertical backup pad (4) of second at bottom sprag board (1) upper surface both ends, install motor installation shell (5) in first vertical backup pad (3) one side, install driving motor (6) inside motor installation shell (5) and motor spindle (7) that run through first vertical backup pad (3) plate body, its characterized in that: an inner rotating plate (8) is arranged at the end part of the motor spindle (7), a transverse main discharge pipeline (14) is arranged on a plate body of the second longitudinal support plate (4), an outer rotating shell (9) of an integrated structure is arranged at one end of the main discharge pipeline (14), an outer hollow structure (10) with an opening at one side is arranged in the outer rotating shell (9), an inner rotating shell (20) protruding inwards is arranged at the middle section of the inner part of the outer rotating shell (9), an inner hollow structure (11) with an opening at one side is arranged in the inner part of the inner rotating shell (20), a rotating plate insertion groove (12) is arranged in the outer rotating shell (9) positioned at one end of the opening, a movement gap is formed between the inner rotating shell (20) and the inner end of the outer rotating shell (9), a second injection pipeline (15) communicated with the outer hollow structure (10) between the inner rotating shell (20) and the outer rotating shell (9) is arranged at one end of the outer rotating shell (9), a first injection pipeline (24) communicated with the inside and the outside is arranged on the side surface of the outer rotating shell (9), the plate body of the inner rotating plate (8) is inserted into the rotating plate insertion groove (12), the edge of the plate body is provided with a main sealing ring (13), the end surface center of the inner rotating plate (8) is provided with a main rotating shaft (16) extending to the inner center of the inner hollow structure (11), the end part of the main rotating shaft (16) is provided with a tip structure (18), the shaft body of the main rotating shaft (18) is provided with a first helical blade (19), the end surface of the inner rotating plate (8) is provided with a middle rotating shell (17) protruding outwards and positioned between the inner rotating shell (20) and the outer rotating shell (9), the center of the middle rotating shell (17) is provided with a middle hollow structure (22), and the inner side surface of the middle rotating shell (17) is provided with a second helical structure (23), and a third spiral structure (21) is arranged on the outer side surface of the middle rotary shell (17).

2. The liquid mixing screw feed mixing device of claim 1, further comprising: the transverse length of the inner rotary housing (20) is smaller than that of the outer rotary housing (9).

3. The liquid mixing screw feed mixing device of claim 1, further comprising: the first helical blade (19) faces the main discharge duct (14) due to its own helical direction, the direction of conveyance being formed when it rotates.

4. The liquid mixing screw feed mixing device of claim 1, further comprising: the second helical structure (23) is directed in the opposite direction of the main discharge duct (14) due to its own helical direction, the direction of transport being formed when rotating.

5. The liquid mixing screw feed mixing device of claim 1, further comprising: the third helical structure (21) faces the second injection duct (15) due to its own helical direction, the direction of transport being formed when rotating.