CN221832170U - Soybean protein isolate powder mixing equipment - Google Patents

Abstract

The utility model discloses a soybean protein isolate powder mixing device, which relates to the technical field of soybean protein powder processing and comprises a mixing cylinder, wherein one side of the mixing cylinder is fixedly connected with a feed hopper, the upper end of the side surface of the mixing cylinder is fixedly connected with a water inlet pipe, one side of the bottom surface of the mixing cylinder is fixedly connected with the water inlet pipe, a dispersing mechanism is arranged at the position of the feed hopper, and a stirring mechanism is arranged inside the mixing cylinder. Through dispersion mechanism, realize will empty the soybean protein powder that gets into in the compounding section of thick bamboo and scatter and smash, enlarge soybean protein powder advance with the area of contact of water, avoid the caking for stirring effect is better, through rabbling mechanism, realizes vertical stirring and horizontal stirring and mutually support, carries out multidirectional stirring, makes water and powder stirring more fully even, changes the rivers flow direction through the setting of spoiler, accelerates stirring speed, through the setting of scraper blade, prevents that the powder deposit from taking place in blanking section of thick bamboo bottom.

Description

Soy protein isolate powder mixing equipment

Technical Field

The utility model relates to the technical field of soybean protein powder processing, in particular to soybean protein isolate powder mixing equipment.

Background Art

Soy protein isolate is a complete protein food additive produced from low-temperature desolventized soybean meal. It is rich in nutrition and does not contain cholesterol. It is one of the few varieties of plant protein that can replace animal protein. When the existing soy protein isolate powder mixing equipment is used, water and protein powder are respectively put into the mixing barrel for stirring. For example, the soy protein isolate processing powder mixer recorded in the patent with patent announcement number CN218901622U, wherein the recorded scheme moves the stirring shaft up and down, so that the stirring shaft can drive the stirring rod to move up and down the soy protein isolate powder and the mixed liquid in the mixing barrel to stir, so that the soy protein isolate powder and the mixed liquid can be mixed more evenly and fully, and the multiple pressing plates fixedly installed on the outer surface of the stirring shaft can press the soy protein isolate powder floating on the liquid surface of the mixed liquid into the mixed liquid as they move up and down continuously, so that the soy protein isolate powder can be fully mixed with the mixed liquid, and the mixing efficiency of the soy protein isolate powder and the mixed liquid is improved. However, in the solution of this case, the stirring shaft drives the stirring rod to rotate during the mixing process, which may cause lumps and deposits on the bottom surface, and the powder is directly poured into it, resulting in low mixing efficiency.

Based on this, a soy protein isolate powder mixing device is now provided to eliminate the drawbacks of the existing devices.

Utility Model Content

The utility model aims to provide a soy protein isolate powder mixing device to solve the problems of bottom surface agglomeration and deposition and low mixing efficiency.

In order to achieve the above purpose, the utility model provides the following technical solutions:

The soy protein isolate powder mixing equipment comprises a mixing barrel, one side of the mixing barrel is fixedly connected to a feed hopper, the upper end of the side of the mixing barrel is fixedly connected to a water inlet pipe, and one side of the bottom of the mixing barrel is fixedly connected to the water inlet pipe. A dispersing mechanism for crushing and breaking up the soy protein powder is provided at the position of the feed hopper, and a stirring mechanism for stirring the mixture of powder and water in multiple directions is provided inside the mixing barrel.

Preferably, the dispersion mechanism includes a rotating wheel arranged directly below the feed hopper, a plurality of crushing teeth are fixedly connected to the outer surface of the rotating wheel, the inner side of the rotating wheel is fixedly sleeved on a first rotating rod, both ends of the first rotating rod are connected to the inner wall of the feed hopper through bearings, and one end of the first rotating rod extends through the feed hopper and is connected to the drive assembly.

Preferably, the driving assembly includes a gear fixedly connected to the first rotating rod, the two gears are meshed, the gears are arranged in an installation box, the installation box is fixedly connected to the feed hopper, and one of the first rotating rods extends through the installation box and is fixedly connected to the output end of the first motor.

Preferably, the stirring mechanism comprises two groups of stirring components, and the two groups of stirring components are respectively a vertical stirring component arranged at the top and a horizontal stirring component arranged at the bottom.

Preferably, the vertical stirring assembly includes a second motor fixedly connected to the middle position of the top surface of the mixing barrel, the output end of the second motor extends into the interior of the mixing barrel and is fixedly connected to the top surface of the second rotating rod, the bottom surface of the second rotating rod extends into the interior of the sealing box, the outer surface of the sealing box is fixedly sleeved with a mounting frame, the two side walls of the mounting frame are fixedly connected to the mixing barrel through a connecting rod, the lower end of the second rotating rod is fixedly connected to a driving wheel, the left and right sides of the driving wheel are meshed with a driven wheel, the driven wheel is fixedly connected to one end of the rotating rod, the other end of the rotating rod extends through the sealing box, and a plurality of groups of rotating blades are fixedly connected to the rotating rod at equal intervals.

Preferably, the transverse stirring assembly includes a third rotating rod, both ends of which are respectively connected to the bottom surface of the sealing box and the inner bottom surface of the mixing barrel through bearings, a plurality of stirring rods are equidistantly fixedly connected to the third rotating rod, and the bottom end of the third rotating rod extends through the bottom surface of the mixing barrel and is fixedly connected to the output end of the third motor.

Preferably, a scraper is fixedly connected to the third rotating rod, and the scraper is slidably connected to the inner bottom surface of the mixing barrel.

Preferably, three groups of spoilers are fixedly connected to the inner side wall of the mixing barrel at equal intervals.

Compared with the prior art, the beneficial effects of the present invention are as follows:

1. The present application achieves dispersion and crushing of the soybean protein powder poured into the mixing barrel through the cooperation of the rotating wheel, the crushing teeth, the first rotating rod, the mounting box, and the first motor, thereby expanding the contact area between the soybean protein powder and the water body, avoiding agglomeration, and achieving a better stirring effect.

2. The present application realizes vertical stirring and horizontal stirring in coordination with each other through the cooperation of the second motor, the second rotating rod, the mounting frame, the sealing box, the driving wheel, the driven wheel, the rotating rod, the rotating blades, the third rotating rod, the stirring rod, and the third motor, and performs multi-directional stirring, so that the mixing of water and powder is more sufficient and uniform.

3. The present application changes the flow direction of water flow by setting a spoiler to speed up the stirring speed, and prevents powder deposition at the bottom of the drop barrel by setting a scraper.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic structural diagram of the utility model.

FIG. 2 is a schematic diagram of the structure of the dispersion mechanism of the utility model.

FIG3 is a schematic diagram of the cross-sectional structure of the utility model.

FIG. 4 is a schematic diagram of the structure inside the sealed box of the utility model.

FIG. 5 is a schematic diagram of the structure of the utility model when viewed from above.

Notes on the figure marks: mixing barrel 101, feed hopper 102, water inlet pipe 103, discharge pipe 104, dispersion mechanism 200, rotating wheel 201, crushing teeth 202, first rotating rod 203, mounting box 204, first motor 205, stirring mechanism 300, second motor 301, second rotating rod 302, mounting frame 303, sealing box 304, driving wheel 305, driven wheel 306, rotating rod 307, rotating blades 308, third rotating rod 309, stirring rod 310, spoiler 311, scraper 312, third motor 313.

DETAILED DESCRIPTION

In order to make the purpose, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below in conjunction with the accompanying drawings and embodiments.

Example 1

Please refer to Figures 1 to 5, the soy protein isolate powder mixing equipment includes a mixing barrel 101, a feeding hopper 102 is fixedly connected to one side of the mixing barrel 101, a water inlet pipe 103 is fixedly connected to the upper end of the side of the mixing barrel 101, and a water inlet pipe 103 is fixedly connected to one side of the bottom surface of the mixing barrel 101. A dispersing mechanism 200 for crushing and breaking up the soy protein powder is provided at the position of the feeding hopper 102, and a stirring mechanism 300 for stirring the mixture of powder and water in multiple directions is provided inside the mixing barrel 101.

Please refer to Figures 2-3. The dispersing mechanism 200 includes a rotating wheel 201 arranged directly below the feed hopper 102. A plurality of crushing teeth 202 are fixedly connected to the outer surface of the rotating wheel 201. The rotating wheel 201 drives the crushing teeth 202 to rotate to achieve dispersion and crushing of the powder, expand the contact area between the protein powder and the water body, and make the mixing uniform. The inner side of the rotating wheel 201 is fixedly sleeved on the first rotating rod 203. The two ends of the first rotating rod 203 are connected to the inner wall of the feed hopper 102 through bearings. One end of the first rotating rod 203 extends through the feed hopper 102 and is connected to the driving assembly. Under the drive of the driving assembly, the first rotating rod 203 rotates, thereby driving the crushing teeth 202 to rotate.

Please refer to Figure 5. The driving assembly includes a gear fixedly connected to the first rotating rod 203, and the two gears are meshed. The gears are arranged in the installation box 204. The gears inside the installation box 204 are meshed and transmitted, thereby driving the two first rotating rods 203 to rotate. The installation box 204 is fixedly connected to the feed hopper 102. One of the first rotating rods 203 extends through the installation box and is fixedly connected to the output end of the first motor 205. The first motor 205 is started, and the first motor 205 provides power for the rotation of one of the first rotating rods 203.

Please refer to Figures 2 to 4. The stirring mechanism 300 includes two groups of stirring components. The two groups of stirring components are respectively a vertical stirring component arranged at the top and a horizontal stirring component arranged at the bottom. The arrangement of two groups of stirring components in different directions allows the internal water to flow in multiple directions, thereby accelerating the mixing speed and improving work efficiency.

Please refer to Figures 2 to 4. The vertical stirring assembly includes a second motor 301 fixedly connected to the middle position of the top surface of the mixing barrel 101. The output end of the second motor 301 penetrates into the interior of the mixing barrel 101 and is fixedly connected to the top surface of the second rotating rod 302. The bottom surface of the second rotating rod 302 penetrates into the interior of the sealing box 304. The second motor 301 is started, and the second motor 301 drives the second rotating rod 302 to rotate. The outer surface of the sealing box 304 is fixedly sleeved with a mounting frame 303. The two side walls of the mounting frame 303 are fixedly connected to the mixing barrel 101 through connecting rods. The second rotating rod A driving wheel 305 is fixedly connected to the lower end of 302, and a driven wheel 306 is meshed on the left and right sides of the driving wheel 305. The second rotating rod 302 drives the driving wheel 305 to rotate, and then drives the driven wheel 306 to rotate under the action of the meshing transmission. The driven wheel 306 is fixedly connected to one end of a rotating rod 307, and the other end of the rotating rod 307 extends through the sealing box 304. A plurality of groups of rotating blades 308 are fixedly connected to the rotating rod 307 at equal intervals. The driven wheel 306 drives the rotating rod 307 to rotate, and the rotating rod 307 realizes vertical stirring and mixing of the water and powder mixture.

Please refer to Figure 3. The horizontal stirring assembly includes a third rotating rod 309. The two ends of the third rotating rod 309 are respectively connected to the bottom surface of the sealing box 304 and the inner bottom surface of the mixing barrel 101 through bearings. A plurality of stirring rods 310 are fixedly connected to the third rotating rod 309 at equal intervals. The third rotating rod 309 drives the stirring rods 310 to rotate to achieve horizontal stirring and mixing of the water and powder mixture. The bottom end of the third rotating rod 309 extends through the bottom surface of the mixing barrel 101 and is fixedly connected to the output end of the third motor 313. When the third motor 313 is started, the third motor 313 drives the third rotating rod 309 to rotate.

Example 2

The difference from Example 1 is that, referring to FIG. 3 , a scraper 312 is fixedly connected to the third rotating rod 309 , and the scraper 312 is slidably connected to the inner bottom surface of the mixing barrel 101 . The third rotating rod 309 drives the scraper 312 to rotate, thereby continuously scraping the inner bottom surface of the mixing barrel 101 .

Please refer to FIG. 3 , three groups of spoilers 311 are fixedly connected to the inner side wall of the mixing barrel 101 at equal intervals. The spoilers 311 can reduce the generation of vortexes inside the liquid during the stirring process, so that the water flows in multiple directions and the powder and water are mixed evenly.

When in use, the powder is poured into the feed hopper 102, and water is poured into the water inlet pipe 103. Under the action of the dispersion mechanism 200, the two rotating wheels 201 drive the crushing teeth 202 to rotate, so as to break and disperse the powder and expand the contact area between water and powder. The second motor 301 and the third motor 313 are started, and the second motor 301 drives the driving assembly to rotate, and then the rotating rod 307 drives the multiple groups of rotating blades 308 to rotate to achieve vertical stirring. The third rotating rod 309 drives the stirring rod 310 to stir horizontally. At the same time, with the cooperation of the spoiler 311, multi-directional stirring of the water flow is achieved, so that the water and powder are mixed more evenly. At the same time, the third rotating rod 309 drives the scraper 312 to slide on the bottom surface of the mixing barrel 101, and continuously scrapes the bottom surface to avoid precipitation accumulation, and the mixing effect is good.

The above is only a specific implementation of the present disclosure, but the protection scope of the present disclosure is not limited thereto. Any person skilled in the art who is familiar with the technical field can easily think of changes or substitutions within the technical scope disclosed in the present disclosure, which should be included in the protection scope of the present disclosure. Therefore, the protection scope of the present disclosure should be based on the protection scope of the claims.

Claims (8)

1. A soy protein isolate powder mixing device, comprising a mixing barrel (101), a feed hopper (102) is fixedly connected to one side of the mixing barrel (101), a water inlet pipe (103) is fixedly connected to the upper end of the side of the mixing barrel (101), and a water inlet pipe (103) is fixedly connected to one side of the bottom surface of the mixing barrel (101), characterized in that a dispersing mechanism (200) for crushing and breaking up the soy protein powder is provided at the position of the feed hopper (102), and a stirring mechanism (300) for stirring the mixture of powder and water in multiple directions is provided inside the mixing barrel (101). 2. The soy protein isolate powder mixing equipment according to claim 1 is characterized in that the dispersing mechanism (200) includes a rotating wheel (201) arranged directly below the feed hopper (102), and the outer surface of the rotating wheel (201) is fixedly connected to a plurality of crushing teeth (202), and the inner side of the rotating wheel (201) is fixedly sleeved on a first rotating rod (203), and both ends of the first rotating rod (203) are connected to the inner wall of the feed hopper (102) through bearings, and one end of the first rotating rod (203) extends through the feed hopper (102) and is connected to the drive component. 3. The soy protein isolate powder mixing equipment according to claim 2 is characterized in that the driving assembly includes a gear fixedly connected to the first rotating rod (203), the two gears are meshed, the gears are arranged in an installation box (204), the installation box (204) is fixedly connected to the feed hopper (102), and one of the first rotating rods (203) extends through the installation box and is fixedly connected to the output end of the first motor (205). 4. The soy protein isolate powder mixing equipment according to claim 1 is characterized in that the stirring mechanism (300) includes two groups of stirring components, and the two groups of stirring components are respectively a vertical stirring component arranged at the top and a horizontal stirring component arranged at the bottom. 5. The soy protein isolate powder mixing device according to claim 4 is characterized in that the vertical stirring assembly includes a second motor (301) fixedly connected to the middle position of the top surface of the mixing barrel (101), the output end of the second motor (301) penetrates into the interior of the mixing barrel (101) and is fixedly connected to the top surface of the second rotating rod (302), the bottom surface of the second rotating rod (302) penetrates into the interior of the sealing box (304), and the outer surface of the sealing box (304) is fixedly sleeved with a mounting frame (303), The two side walls of the mounting frame (303) are fixedly connected to the mixing barrel (101) via connecting rods; a driving wheel (305) is fixedly connected to the lower end of the second rotating rod (302); a driven wheel (306) is meshed on both the left and right sides of the driving wheel (305); the driven wheel (306) is fixedly connected to one end of a rotating rod (307); the other end of the rotating rod (307) extends through the sealing box (304); and a plurality of groups of rotating blades (308) are fixedly connected to the rotating rod (307) at equal intervals. 6. The soy protein isolate powder mixing equipment according to claim 5 is characterized in that the horizontal stirring assembly includes a third rotating rod (309), and the two ends of the third rotating rod (309) are respectively connected to the bottom surface of the sealing box (304) and the inner bottom surface of the mixing barrel (101) through bearings, and a plurality of stirring rods (310) are fixedly connected to the third rotating rod (309) at equal intervals, and the bottom end of the third rotating rod (309) extends through the bottom surface of the mixing barrel (101) and is fixedly connected to the output end of the third motor (313). 7. The soy protein isolate powder mixing equipment according to claim 6 is characterized in that a scraper (312) is fixedly connected to the third rotating rod (309), and the scraper (312) is slidably connected to the inner bottom surface of the mixing barrel (101). 8. The soy protein isolate powder mixing equipment according to claim 1, characterized in that three groups of spoilers (311) are fixedly connected to the inner side wall of the mixing cylinder (101) at equal intervals.