CN214233728U

CN214233728U - Dairy product homogenizer

Info

Publication number: CN214233728U
Application number: CN202023017794.2U
Authority: CN
Inventors: 张皓
Original assignee: Beijing Jian Sheng Beverage Co ltd
Current assignee: Beijing Jian Sheng Beverage Co ltd
Priority date: 2020-12-14
Filing date: 2020-12-14
Publication date: 2021-09-21
Anticipated expiration: 2030-12-14

Abstract

The application relates to a dairy product homogenizer, which comprises a tank body, wherein the bottom of the tank body is provided with a discharge hole, the box body is provided with a feeding hole, the box body is internally and horizontally provided with a rotating plate in a rotating way, the rotating plate is fixedly provided with a plurality of vertically arranged first stirring shafts, a plurality of first stirring paddles for stirring are fixedly arranged on the first stirring shafts, a second stirring shaft is arranged in the box body in a rotating way, the second stirring shaft is vertically arranged, the upper end of the second stirring shaft penetrates through the rotating plate and the box body and then extends to the top of the box body, the second stirring shaft and the rotating plate are coaxially arranged, a plurality of second stirring paddles for stirring are fixedly arranged on the second stirring shaft, the plurality of second stirring paddles and the plurality of first stirring paddles are arranged in a staggered way, the second stirring shaft and the rotating plate are arranged in opposite rotating directions, and a driving mechanism for controlling the second stirring shaft and the rotating plate to rotate simultaneously is arranged on the box body. It can be convenient for improve the effect that homogeneity is even, improves product quality in the isotropic symmetry.

Description

Dairy product homogenizer

Technical Field

The application relates to the technical field of dairy products, in particular to a dairy product homogenizer.

Background

The average diameter of fat globules in milk is about 100 μm, and the fat globules are dispersed throughout the system. If homogenization treatment is not carried out, fat in the milk can slowly float upwards to form a thin cream layer in the storage process, thereby influencing the appearance and the integral flavor of the milk product. The most critical equipment of a dairy product production line is a homogenizer, which is one of the critical equipment for determining the shelf life of the product, so that the user manufacturer pays great attention to the fine selection of the equipment so as to select the best equipment to enter the factory.

The utility model discloses a current chinese utility model patent of granting bulletin No. CN205308202U discloses a corrosion-resistant emulsification isotropic symmetry, including the housing, the housing top is equipped with the feed inlet, the housing below is the funnel type, the housing below is equipped with the discharge gate, the motor sets up directly over the housing, the motor passes through the transmission case and connects the homogeneity axle, the epaxial at least 2 layers of homogeneity blade that is equipped with of homogeneity, every layer of homogeneity blade is equipped with 2 at least homogeneity oars, housing inner wall side is equipped with the fixed plate, the homogeneity oar staggers each other with the fixed plate position, the housing inner wall, the homogeneity axle, homogeneity blade surface is equipped with the anticorrosive coating.

The technical scheme has the following problems: this emulsification homogenizer simple structure, convenient to use, but rely on the coaxial drive homogeneity oar of homogeneity axle to stir the material alone, the homogeneity effect is relatively poor, leads to product quality low.

SUMMERY OF THE UTILITY MODEL

In order to improve the homogeneity effect in the isotropic symmetry, improve product quality, this application provides a dairy products isotropic symmetry.

The utility model provides a dairy products isotropic symmetry adopts following technical scheme:

a homogenizer for dairy products comprises a tank body, wherein the bottom of the tank body is provided with a discharge hole, the tank body is provided with a feed inlet, a rotating plate is horizontally and rotatably arranged in the box body, a plurality of first stirring shafts which are vertically arranged are fixedly arranged on the rotating plate, a plurality of first stirring paddles for stirring are fixedly arranged on the first stirring shaft, a second stirring shaft is rotationally arranged in the box body, the second stirring shaft is vertically arranged, the upper end of the second stirring shaft penetrates through the rotating plate and the box body and then extends to the top of the box body, the second stirring shaft and the rotating plate are coaxially arranged, a plurality of second stirring paddles for stirring are fixedly arranged on the second stirring shaft, the plurality of second stirring paddles and the plurality of first stirring paddles are arranged in a staggered way, the second stirring shaft and the rotating plate are arranged in opposite rotating directions, and a driving mechanism for controlling the second stirring shaft and the rotating plate to rotate simultaneously is arranged on the box body.

Through adopting above-mentioned technical scheme, adopt actuating mechanism, drive rotor plate and second (mixing) shaft rotate in the box simultaneously, because the rotation opposite direction of rotor plate and second (mixing) shaft sets up, the stirring direction of first stirring rake on the first (mixing) shaft and the second stirring rake on the second (mixing) shaft also sets up in the opposite direction from this, at this moment, pour the material into the box through the feed inlet, utilize a plurality of first stirring rakes and second stirring rake to form the opposite direction's stirring layer in the box, thereby the shearing force between the material has been strengthened, thereby make the material stirring more abundant, the more even of mixture.

The present application may be further configured in a preferred example to: the driving mechanism comprises an outer gear ring fixedly arranged on the peripheral surface of the rotating plate, an outer gear meshed with the outer gear ring and rotatably arranged in the box, a transmission shaft fixedly connected with the outer gear and provided with one end extending out of the box, a driving motor arranged outside the box and fixedly connected with an output shaft and the transmission shaft, and a transmission assembly arranged between the transmission shaft and the second stirring shaft, wherein the output shaft of the driving motor, the outer gear and the transmission shaft are coaxially arranged.

Through adopting above-mentioned technical scheme, driving motor's output shaft drives the transmission shaft and rotates, the transmission shaft synchronous drive external gear syntropy rotates when the pivoted, the external gear meshing drives the outer ring gear of rotor plate peripheral face and rotates, the rotation direction of external gear and outer ring gear sets up in opposite directions, the transmission shaft passes through drive assembly and takes second (mixing) shaft syntropy to rotate, can realize from this that the rotation direction of second (mixing) shaft and rotor plate sets up in opposite directions.

The present application may be further configured in a preferred example to: the transmission assembly comprises a driving belt wheel, a driven belt wheel and a belt, wherein the driving belt wheel is fixedly arranged on the transmission shaft and is coaxial with the transmission shaft, the driven belt wheel is fixedly arranged on the second stirring shaft and is positioned outside the box body, the belt is annularly wrapped between the driving belt wheel and the driven belt wheel, and the driven belt wheel is coaxial with the second stirring shaft.

Through adopting above-mentioned technical scheme, the transmission shaft is when the pivoted, and driving pulley rotates along with the rotation of transmission shaft, and driving pulley rotates through the belt syntropy area from the driven pulleys when pivoted, and from the driven pulleys's rotation can drive the second (mixing) shaft then and rotate, through the cooperation between driving pulley, from the driven pulleys and the belt three to realize the syntropy rotation of second (mixing) shaft and transmission shaft.

The present application may be further configured in a preferred example to: a plurality of flow blocking rod groups are arranged in the box body along the axial direction of the box body, the flow blocking rod groups and the first stirring paddles are arranged in a cross mode, and each flow blocking group comprises a plurality of flow blocking rods which are evenly arranged on the inner wall of the box body along the circumferential direction of the box body.

Through adopting above-mentioned technical scheme, first stirring rake rotates the in-process constantly and cuts the material with the cooperation of choked flow pole, further breaks the material into the particle.

The present application may be further configured in a preferred example to: the first stirring paddles are arranged at equal intervals along the axial direction of the first stirring shaft.

Through adopting above-mentioned technical scheme, first stirring rake is at the in-process of stirring, and the axis direction through first stirring rake along first (mixing) shaft sets up at equal intervals, can stir the material of each high position department in the box evenly.

The present application may be further configured in a preferred example to: and the plurality of second stirring paddles are arranged at equal intervals along the axis direction of the second stirring shaft.

Through adopting above-mentioned technical scheme, the in-process of second stirring rake at the stirring is through the equidistant setting of second stirring rake along the axis direction of second (mixing) shaft, can stir the material of each high position department in the box evenly.

The present application may be further configured in a preferred example to: the lower extreme of box sets firmly down the feed bin, down the feed bin and the coaxial setting of box, the feed bin is kept away from the one end binding off setting of box down.

Through adopting above-mentioned technical scheme, the setting up of feed bin makes the interior material of box concentrate toward the gathering of the receipts mouth department of feed bin down, is convenient for realize the material ejection of compact in the box.

The present application may be further configured in a preferred example to: the filter is fixedly arranged in the box body, the filter is positioned above the lower storage bin, a plurality of filter holes are formed in the filter, and the lower end of the second stirring shaft is connected to the filter in a rotating mode.

Through adopting above-mentioned technical scheme, the filter both just can play the effect of support to the second (mixing) shaft, also can filter once more to the material that stirs in the box, makes the material that meets the requirements flow out from the filtration pore.

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

1. the driving mechanism is adopted to drive the rotating plate and the second stirring shaft to rotate in the box body simultaneously, and the rotating directions of the rotating plate and the second stirring shaft are opposite, so that the stirring directions of the first stirring paddle on the first stirring shaft and the second stirring paddle on the second stirring shaft are also opposite, at the moment, the materials are poured into the box body through the feeding port, and the plurality of first stirring paddles and the plurality of second stirring paddles form stirring layers with opposite directions in the box body, so that the shearing force between the materials is enhanced, and the materials are stirred more fully and mixed more uniformly;

2. the transmission shaft is when the pivoted, and driving pulley rotates along with the rotation of transmission shaft, and driving pulley rotates through the belt syntropy area from the driven pulley of taking in the pivoted time, and from the rotation of driven pulley then can take the second (mixing) shaft to rotate, through the cooperation between driving pulley, from the driven pulley and the belt three to realize the syntropy rotation of second (mixing) shaft and transmission shaft.

Drawings

FIG. 1 is a schematic structural diagram of a dairy product homogenizer according to an embodiment of the present application;

FIG. 2 is a first cross-sectional view of an embodiment of the present application;

FIG. 3 is a schematic cross-sectional view II of the embodiment of the present application;

fig. 4 is an enlarged view of a portion a in fig. 3.

In the figure, 1, a box body; 11. supporting legs; 12. a feed pipe; 13. a rotating groove; 2. discharging a bin; 21. a discharge pipe; 3. a rotating plate; 31. a first stirring shaft; 311. a first stirring paddle; 32. a hole of abdication; 321. an annular groove; 4. rotating the disc; 5. a second stirring shaft; 51. a limiting ring; 52. a second stirring paddle; 61. an outer ring gear; 62. an outer gear; 63. a drive shaft; 64. a drive motor; 651. a driving pulley; 652. a driven pulley; 653. a belt; 7. a mounting frame; 8. a spoiler; 9. a filter plate; 91. and (4) filtering holes.

Detailed Description

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

The embodiment of the application discloses dairy products isotropic symmetry refers to fig. 1, 2, including box 1, box 1 sets up to the cylinder, and the lower extreme of box 1 has set firmly down feed bin 2, and lower feed bin 2 sets up with box 1 coaxial line, and the lower extreme of lower feed bin 2 sets up to its middle part position department binding off, and lower feed bin 2 is linked together with box 1 and sets up, and the discharge gate has been seted up to the bottom of lower feed bin 2, and discharge gate department sets firmly discharging pipe 21. Four supporting legs 11 have set firmly in the bottom of box 1, and four supporting legs 11 have seted up the feed inlet around the axis circumference evenly distributed of box 1 at the top of box 1, and feed inlet department has set firmly inlet pipe 12.

Referring to fig. 3 and 4, a rotating plate 3 is arranged in the box body 1, the rotating plate 3 is horizontally arranged, the rotating plate 3 and the box body 1 are coaxially arranged, the rotating plate 3 is located at the position of the inner top wall of the box body 1, and the rotating plate 3 is attached to the inner top wall of the box body 1. Be provided with between the roof in rotor plate 3 and the box 1 and rotate the piece, rotate the piece and include rolling disc 4, and the interior roof central point department indent of box 1 has rotation groove 13, rotates groove 13 and the coaxial line setting of box 1, and the vertical cross-section that rotates groove 13 is the T type, and the vertical cross-section of rolling disc 4 is the T type and with rotate groove 13 looks adaptation, and rolling disc 4 is located and rotates groove 13. The rotating plate 3 is rotatably connected to the inner top wall of the box body 1 through a rotating disc 4.

Referring to fig. 2 and 3, one side of the rotating plate 3, which is away from the inner top wall of the box body 1, is fixedly provided with a plurality of first stirring shafts 31, the plurality of first stirring shafts 31 are distributed at equal intervals along the circumferential direction of the rotating plate 3, the plurality of first stirring shafts 31 are all located at the positions, close to the edges of the rotating plate 3, and the first stirring shafts 31 are vertically arranged downwards. The first stirring shaft 31 is fixedly provided with a plurality of first stirring components, the plurality of first stirring components are arranged along the axis direction of the first stirring shaft 31 at equal intervals, each first stirring component comprises four first stirring paddles 311, the four first stirring paddles 311 are uniformly distributed around the axis circumference of the first stirring shaft 31, one end of each first stirring paddle 311 is fixedly connected with the outer wall of the first stirring shaft 31, and the other end of each first stirring paddle 311 extends to one side of the inner wall close to the box body 1.

Be provided with second (mixing) shaft 5 in the box 1, the vertical setting of second (mixing) shaft 5, second (mixing) shaft 5 and box 1 and rotor plate 3 coaxial line setting, second (mixing) shaft 5 all rotates with box 1 and rotor plate 3 to be connected, and rotor plate 3, box 1 back extension are run through to the upper end of second (mixing) shaft 5 outside the top of box 1.

Referring to fig. 2 and 4, the rotating plate 3 is provided with a yielding hole 32 matched with the second stirring shaft 5, the second stirring shaft 5 penetrates through the yielding hole 32, a circle of annular groove 321 is circumferentially arranged on the inner peripheral wall of the yielding hole 32, a notch of the annular groove 321 is communicated with the yielding hole 32, a circle of limiting ring 51 is circumferentially fixedly arranged on the outer peripheral wall of the second stirring shaft 5, the limiting ring 51 is matched with the annular groove 321, and the limiting ring 51 is located in the annular groove 321. By the rotation of the limiting ring 51 in the annular groove 321, the second stirring shaft 5 can only rotate along its own axis without displacement in the axial direction.

Referring to fig. 2 and 3, a plurality of second stirring assemblies are fixedly arranged on the second stirring shaft 5, the plurality of second stirring assemblies are arranged along the axis direction of the second stirring shaft 5 at equal intervals, each second stirring assembly comprises four second stirring paddles 52, the four second stirring paddles 52 are uniformly distributed around the axis circumference of the second stirring shaft 5, one end of each second stirring paddle 52 is fixedly connected with the outer wall of the second stirring shaft 5, the other end of each second stirring paddle 52 extends to one side of the inner wall close to the box body 1, and the second stirring paddles 52 and the first stirring paddles 311 are arranged in a staggered manner. When the second stirring shaft 5 and the first stirring shaft 31 rotate simultaneously, the second stirring paddle 52 is staggered with the first stirring paddle 311.

Referring to fig. 1 and 2, a driving mechanism is arranged on the box body 1, the driving mechanism includes an outer gear ring 61, an outer gear 62, a transmission shaft 63, a driving motor 64, the transmission shaft 63 is located in the box body 1, the transmission shaft 63 is vertically arranged and is arranged at an interval with the rotating plate 3, the upper end of the transmission shaft 63 penetrates through the box body 1 and then extends out of the box body 1, the outer gear 62 is fixedly connected to the transmission shaft 63 and is arranged along the coaxial line of the outer gear ring 61, the outer gear ring 61 is fixedly connected to the peripheral wall of the rotating plate 3, the outer gear ring 61 and the rotating plate 3 are arranged along the coaxial line, the outer gear 62 is meshed with the outer gear ring 61 and is connected with the outer gear ring 61, through rotating the transmission shaft 63, the transmission shaft 63 drives the outer gear 62 to rotate, the outer gear ring 62 is meshed with the outer gear ring 61 to rotate reversely, and the outer gear ring 61 drives the rotating plate 3 to rotate in the box body 1 in the same direction.

Mounting bracket 7 has been set firmly at the top of box 1, mounting bracket 7 is the setting of U type, the open end of mounting bracket 7 and the top fixed connection of box 1, driving motor 64 fixed mounting is served at mounting bracket 7 deviates from its open-ended, the vertical downward and the mounting bracket 7 setting of running through of output shaft of driving motor 64, the upper end of transmission shaft 63 extends to the outer one end of box 1 and is located the open end of mounting bracket 7, the output shaft of driving motor 64 and the tip fixed connection of transmission shaft 63, the output shaft of driving motor 64 and the coaxial line setting of transmission shaft 63.

The driving mechanism further comprises a transmission assembly, the transmission assembly comprises a driving belt pulley 651, a driven belt pulley 652 and a belt 653, the driving belt pulley 651 is located in the open end of the mounting frame 7, the driving belt pulley 651 is fixedly connected to the transmission shaft 63 and coaxially arranged with the transmission shaft 63, the driven belt pulley 652 is fixedly connected to the end portion of the second stirring shaft 5 extending out of the box body 1, the driven belt pulley 652 and the second stirring shaft 5 are coaxially arranged, and the belt 653 is annularly wrapped on the outer peripheral walls of the driving belt pulley 651 and the driven belt pulley 652. The driving motor 64 drives the driving shaft 63 to rotate, the driving shaft 63 drives the driving pulley 651 to synchronously rotate in the same direction, and the driving pulley 651 drives the driven pulley 652 to rotate in the same direction through the belt 653, so that the second stirring shaft 5 and the driving shaft 63 rotate in the same direction.

Referring to fig. 2 and 3, a plurality of baffle plate groups are arranged on the inner wall of the box body 1 along the axial direction thereof, the plurality of baffle plate groups and the plurality of first stirring paddles 311 are arranged in a crossed manner, and each baffle plate group comprises a plurality of baffle plates 8 which are uniformly arranged on the inner wall of the box body 1 along the circumferential direction of the box body 1.

The filter 9 has been set firmly in box 1, and the filter 9 level sets up and is located the top position department of feed bin 2 down, has seted up a plurality of filtration pore 91 on the filter 9. The lower end of the second stirring shaft 5 extends to the position above the filter plate 9 and is rotationally connected with the filter plate 9, and the second stirring shaft 5 is superposed with the axis of the filter plate 9.

The implementation principle of the embodiment is as follows: starting the driving motor 64, wherein an output shaft of the driving motor 64 drives the transmission shaft 63 to synchronously rotate, the transmission shaft 63 drives the outer gear 62 to rotate in the same direction, the outer gear 62 is meshed with the outer gear ring 61 to rotate in the opposite direction, the outer gear ring 61 drives the rotating plate 3 to rotate in the same direction while rotating, and the rotating plate 3 can drive the first stirring paddle 311 to stir in the box body 1 by rotating; the transmission shaft 63 drives the external gear 62 to rotate in the same direction and also drives the driving pulley 651 to rotate in the same direction, the driving pulley 651 drives the driven pulley 652 to rotate in the same direction through the belt 653, and the driven pulley 652 drives the second stirring paddle 52 to perform stirring operation in the same direction in the box body 1, so that the first stirring paddle 311 and the second stirring paddle 52 rotate in opposite directions in the box body 1, and the materials in the box body 1 are uniformly stirred.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the 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

1. The utility model provides a dairy products isotropic symmetry, includes box (1), the discharge gate has been seted up to the bottom of box (1), the feed inlet has been seted up on box (1), its characterized in that: the stirring device is characterized in that a rotating plate (3) is horizontally and rotatably arranged in the box body (1), a plurality of vertically arranged first stirring shafts (31) are fixedly arranged on the rotating plate (3), a plurality of first stirring paddles (311) used for stirring are fixedly arranged on the first stirring shafts (31), a second stirring shaft (5) is rotatably arranged in the box body (1), the second stirring shaft (5) is vertically arranged, the upper end of the second stirring shaft penetrates through the rotating plate (3) and the box body (1) and then extends to the top of the box body (1), the second stirring shaft (5) and the rotating plate (3) are coaxially arranged, a plurality of second stirring paddles (52) used for stirring are fixedly arranged on the second stirring shaft (5), a plurality of second stirring paddles (52) and a plurality of first stirring paddles (311) are staggered, and the rotating directions of the second stirring shaft (5) and the rotating plate (3) are opposite, and a driving mechanism for controlling the second stirring shaft (5) and the rotating plate (3) to rotate simultaneously is arranged on the box body (1).

2. The dairy product homogenizer of claim 1, wherein: the driving mechanism comprises an outer gear ring (61) fixedly arranged on the peripheral surface of the rotating plate (3), an outer gear (62) meshed with the outer gear ring (61) and rotatably arranged in the box body (1), a transmission shaft (63) fixedly connected with the outer gear (62) and with one end extending out of the box body (1), a driving motor (64) arranged outside the box body (1) and fixedly connected with an output shaft and the transmission shaft (63), and a transmission assembly arranged between the transmission shaft (63) and the second stirring shaft (5), wherein the output shaft of the driving motor (64) is coaxial with the outer gear (62) and the transmission shaft (63).

3. The dairy product homogenizer of claim 2, wherein: the transmission assembly comprises a driving belt wheel (651) fixedly arranged on the transmission shaft (63) and coaxially arranged with the transmission shaft (63), a driven belt wheel (652) fixedly arranged on the second stirring shaft (5) and positioned outside the box body (1), and a belt (653) annularly wrapped between the driving belt wheel (651) and the driven belt wheel (652), wherein the driven belt wheel (652) and the second stirring shaft (5) are coaxially arranged.

4. The dairy product homogenizer of claim 1, wherein: a plurality of flow blocking plate groups are arranged in the box body (1) along the axial direction of the box body, the flow blocking plate groups and the first stirring paddles (311) are arranged in a crossed mode, and each flow blocking plate group comprises a plurality of flow blocking plates (8) which are evenly arranged on the inner wall of the box body (1) along the circumferential direction of the box body (1).

5. The dairy product homogenizer of claim 1, wherein: the first stirring paddles (311) are arranged at equal intervals along the axial direction of the first stirring shaft (31).

6. The dairy product homogenizer of claim 1, wherein: the second stirring paddles (52) are arranged at equal intervals along the axial direction of the second stirring shaft (5).

7. The dairy product homogenizer of claim 1, wherein: the lower extreme of box (1) has set firmly down feed bin (2), feed bin (2) and box (1) coaxial line set up down, the one end binding off setting of box (1) is kept away from in feed bin (2) down.

8. The dairy product homogenizer of claim 7, wherein: the filter (9) is fixedly arranged in the box body (1), the filter (9) is positioned above the lower storage bin (2), a plurality of filter holes (91) are formed in the filter (9), and the lower end of the second stirring shaft (5) is rotatably connected to the filter (9).