Processing method and processing equipment of low-gi meal replacement powder

By designing dry and wet mixing equipment suitable for low-GI meal replacement powders, the problem of low mixing efficiency of low-GI meal replacement powders has been solved, achieving efficient mixing and stirring effects and ensuring the uniform addition of auxiliary additives.

CN116870787BActive Publication Date: 2026-07-03ANHUI YANZHIFANG FOOD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
ANHUI YANZHIFANG FOOD
Filing Date
2023-06-07
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing technologies cannot effectively process low-GI meal replacement powder in both dry and wet conditions, and cannot mix and break down uncrushed low-GI meal replacement powder, resulting in low mixing efficiency.

Method used

The equipment, which includes a mixing shell and a processing unit, achieves both dry and wet mixing of low-GI meal replacement powder through the design of the adjustment mechanism and the mixing mechanism. It also uses cross-arranged mixing blades to break down the powder and improves mixing efficiency by uniformly adding auxiliary additives.

Benefits of technology

It achieves efficient dry and wet mixing of low-GI meal replacement powder, improves mixing efficiency, ensures uniform distribution of auxiliary additives, and enhances the working efficiency of the equipment.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention discloses a method and equipment for processing low-GI meal replacement powder, belonging to the technical field of low-GI meal replacement powder. It includes a stirring shell and a processing unit. The stirring mechanism is completely immersed in the low-GI meal replacement powder. The rotation of the mounting plate drives the assembly to stir the low-GI meal replacement powder. The cross-arranged first and second stirring blades, when rotating, can better stir and break down the uncrushed low-GI meal replacement powder compared to when all blades are rotationally symmetrical, thus improving the overall efficiency of the device. A small amount of auxiliary additive is pre-added to the inner cavity of the internal chamber. When the processing unit is driven by the rotation of an external drive motor, the auxiliary additive placed in the internal cavity is thrown outward by centrifugal force, ensuring that the low-GI meal replacement powder being processed is added evenly and preventing the auxiliary additive from being concentrated in one place, which would prevent it from mixing quickly with the low-GI meal replacement powder.
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Description

Technical Field

[0001] This invention relates to the field of low-GI meal replacement powder processing technology, and in particular to a low-GI meal replacement powder processing method and processing equipment. Background Technology

[0002] Low-GI foods refer to foods with a low glycemic index. GI is the abbreviation for glycemic index. Low-GI foods have a relatively low glycemic index, causing a slower rise in blood sugar, a lower peak, and a slower decline. This helps stabilize blood sugar levels by preventing drastic fluctuations. Conversely, high-GI foods cause a rapid and significant rise in blood sugar, followed by a rapid decline, resulting in very pronounced blood sugar fluctuations. Nutritionally speaking, foods with a glycemic index (GI) of 70 or higher are considered high-GI foods, those between 55 and 70 are considered medium-GI foods, and low-GI foods are those with a GI below 55.

[0003] Patent No. CN202210856563.5 discloses a meal replacement powder mixing and processing equipment, including a U-shaped mixing container with a stirring function and an open top. The opening of the U-shaped mixing container is provided with an inverted trapezoidal feeding channel. The feeding channel slides back and forth. The openings of the feeding channel are located at the top and bottom of the feeding channel. The material is put in through the top opening and enters the U-shaped mixing container through the bottom opening. The area between the bottom opening and the top opening is a temporary storage area. Vertical plates are slidably connected to the left and right inner sidewalls of the bottom opening. The vertical plates are staggered and slide back and forth in opposite directions. A switching mechanism is connected to the feeding channel to control the sliding of the vertical plates.

[0004] This patent solves the problem that some raw material powders that have clumped due to pressure during storage or transportation will directly enter the mixing container during manual feeding, further increasing the difficulty of mixing and reducing the efficiency of mixing; however, it cannot perform dry or wet processing of low-GI meal replacement powder, nor can it stir and break up uncrushed low-GI meal replacement powder. Summary of the Invention

[0005] The purpose of this invention is to address the shortcomings of existing technologies by proposing a low-GI meal replacement powder processing method and processing equipment.

[0006] To achieve the above objectives, the present invention adopts the following technical solution:

[0007] A method and equipment for processing low-GI meal replacement powder includes a mixing shell and a processing unit. The processing unit is vertically arranged in the inner cavity of the mixing shell. The processing unit includes a drive support and an auxiliary mechanism that penetrates the inner cavity of the drive support. A mixing mechanism is vertically installed at the bottom of the drive support and the auxiliary mechanism.

[0008] Preferably, the drive bracket includes a top bracket and a series of columns vertically installed at the triangular position on the lower end face of the top bracket. An inner mounting block is installed at the bottom of the series of columns, and an adjustment mechanism is installed on the lower end face of the inner mounting block. The bottom of the adjustment mechanism is movably connected to the connecting member, and a bottom bracket is clamped between the three sets of connecting members.

[0009] Preferably, the adjustment mechanism includes a mounting clamp and an assembly strip mounted on the lower end face of the mounting clamp. A sliding block is slidably disposed on the side end face of the assembly strip, and a sliding connecting strip is clamped between two sets of sliding blocks. The operator can adjust the degree of unfolding of the assembly strip by adjusting the sliding distance of the sliding block on the inner wall of the assembly strip. When the sliding block slides downwards, it pushes the sliding connecting strip downwards, increasing the overall length of the adjustment mechanism. This allows the inner end face of the assembly strip to clamp and fit against the outer end face of the assembly cylinder, thereby increasing the contact area between the processing unit and the low-GI meal replacement powder, enabling finer particle processing. When the sliding block pushes the sliding connecting strip downwards, it shortens the overall length of the adjustment mechanism, thereby reducing the contact area between the entire device and the low-GI meal replacement powder. While the processing unit is stirring the low-GI meal replacement powder, an appropriate amount of water is added to the inner cavity of the outer shell to increase the moisture content of the low-GI meal replacement powder, thus satisfying the requirements of both dry and wet stirring of the low-GI meal replacement powder by the entire device.

[0010] Preferably, the upper end face of the mounting clip is movably connected to the inner mounting block, and the bottom end face of the sliding connecting strip is movably clamped with a bottom bracket, so that the inner mounting block, the adjustment mechanism and the connecting parts can be movably adjusted.

[0011] Preferably, the auxiliary mechanism includes an assembly cylinder and built-in cavities arranged on the outer surface of the assembly cylinder, and a through connecting shaft is vertically arranged at the bottom of the assembly cylinder.

[0012] Preferably, the upper end face of the assembly cylinder is attached to the inner wall of the top support, making the drive support and auxiliary mechanism a single unit. A small amount of auxiliary additive is pre-added to the inner cavity of the built-in cavity. When the top of the processing unit is rotated by an external drive motor, the auxiliary additive placed in the inner cavity is thrown outward by centrifugal force, ensuring that the low-GI meal replacement powder being processed is added evenly. This prevents the auxiliary additive from being concentrated in one place, which would prevent it from mixing quickly with the low-GI meal replacement powder.

[0013] Preferably, the through-connector is inserted vertically downward through the inner cavity of the bottom bracket and then connected to the upper end face of the stirring mechanism.

[0014] Preferably, the stirring mechanism includes an insert shaft and an assembly gear mounted on the bottom of the insert shaft. Reinforcing members are arranged in a circular array around the lower end face of the assembly gear. A suspended vertical cylinder is mounted on the bottom of the reinforcing members, and a mounting plate is mounted on the lower end face of the suspended vertical cylinder. Driven by the rotation of the support bracket, the insert shaft rotates synchronously. During its rotation, the assembly gear drives the reinforcing members and the suspended vertical cylinder to rotate in the same direction. Therefore, the entire stirring mechanism is immersed in the low-GI meal replacement powder. The rotation of the mounting plate causes the assembly to stir the low-GI meal replacement powder. When the first and second stirring blades are arranged in a cross configuration, compared to when all stirring blades are rotationally symmetrical, the uncrushed low-GI meal replacement powder can be better stirred and broken down, thereby improving the overall working efficiency of the device.

[0015] Preferably, the stirring mechanism further includes an assembly installed at the bottom of the mounting plate, wherein a first stirring blade is installed transversely through the inner cavity of the assembly, and a second stirring blade is transversely arranged through the middle of the first stirring blade.

[0016] Preferably, the mixing shell includes an outer shell and a discharge hole at the bottom of the outer shell, and an observation window is provided on the side end face of the outer shell. When it is necessary to mix the low-GI meal replacement powder, an external rubber stopper is used to plug the inner cavity of the discharge hole from bottom to top, making the inner cavity of the outer shell a container. During the processing, the operator can observe the low-GI meal replacement powder being mixed and processed by the processing unit in the outer shell through the observation window.

[0017] A method for processing low-GI meal replacement powder and its processing equipment includes the following steps:

[0018] S1: Operators can adjust the degree of unfolding of the assembly strip by adjusting the sliding distance of the sliding block on the inner wall of the assembly strip. When the sliding block slides down, it drives the sliding connecting strip downward, increasing the overall length of the adjustment mechanism. This allows the inner end face of the assembly strip to clamp and fit against the outer end face of the assembly cylinder, thereby increasing the overall contact area between the processing unit and the low-GI meal replacement powder, and enabling more fine granular processing.

[0019] S2: When the sliding block moves downward, it drives the sliding connecting strip to push, shortening the overall length of the adjustment mechanism, thereby reducing the contact area of ​​the whole device with the low-GI meal replacement powder. While the processing unit is stirring the low-GI meal replacement powder, an appropriate amount of water is added to the inner cavity of the outer shell to increase the moisture content of the low-GI meal replacement powder, thus satisfying the working effect of the whole device in both dry and wet stirring of the low-GI meal replacement powder.

[0020] S3: When it is necessary to stir and mix the low-GI meal replacement powder, the inner cavity of the discharge hole is blocked from bottom to top by an external rubber stopper, so that the inner cavity of the outer shell becomes a vessel. During the processing, the staff can observe the low-GI meal replacement powder being stirred and processed by the processing unit from the outside to the inside through the observation window.

[0021] Compared with the prior art, the beneficial effects of the present invention are as follows:

[0022] 1. The operator can adjust the degree of unfolding of the assembly strip by adjusting the sliding distance of the sliding block on the inner wall of the assembly strip. When the sliding block slides downward, it drives the sliding connecting strip downward, increasing the overall length of the adjustment mechanism. This allows the inner end face of the assembly strip to clamp and fit against the outer end face of the assembly cylinder, thereby increasing the contact area between the processing unit and the low-GI meal replacement powder, enabling finer particle processing. When the sliding block drives the sliding connecting strip downward, it shortens the overall length of the adjustment mechanism, thereby reducing the contact area between the entire device and the low-GI meal replacement powder. While the processing unit is stirring the low-GI meal replacement powder, an appropriate amount of water is added to the inner cavity of the outer shell to increase the moisture content of the low-GI meal replacement powder, thus satisfying the requirements of both dry and wet stirring of the low-GI meal replacement powder by the entire device.

[0023] 2. When it is necessary to stir and mix the low-GI meal replacement powder, the inner cavity of the discharge hole is blocked from bottom to top by an external rubber stopper, so that the inner cavity of the outer shell becomes a vessel. During the processing, the staff can observe the low-GI meal replacement powder being stirred and processed by the processing unit through the observation window.

[0024] 3. Driven by the rotation of the support, the insertion shaft rotates synchronously. During its rotation, the assembly gear can drive the reinforcing member and the suspended vertical cylinder to rotate in the same direction. At this time, the entire stirring mechanism is immersed in the low-GI meal replacement powder. The rotation of the mounting plate drives the assembly to stir the low-GI meal replacement powder. When the first and second stirring blades are arranged in a cross pattern and rotate to stir, compared with the case where the stirring blades are all rotationally symmetrical, the uncrushed low-GI meal replacement powder can be stirred and crushed better, thereby improving the overall working efficiency of the device.

[0025] 4. Add a small amount of auxiliary additives to the inner cavity of the built-in cavity. When the top of the processing unit is driven by the rotation of the external drive motor, the auxiliary additives placed in the inner cavity are thrown outward by centrifugal force, so that the low-GI meal replacement powder being processed can be added evenly, avoiding the auxiliary additives being concentrated in one place, which would prevent the auxiliary additives from mixing with the low-GI meal replacement powder quickly. Attached Figure Description

[0026] Figure 1 This is a three-dimensional structural diagram of a low-GI meal replacement powder processing method and processing equipment proposed in this invention.

[0027] Figure 2 This is a schematic diagram of the processing unit structure of a low-GI meal replacement powder processing method and processing equipment proposed in this invention;

[0028] Figure 3 This is a schematic diagram of the stirring mechanism of a low-GI meal replacement powder processing method and processing equipment proposed in this invention.

[0029] Figure 4 This is a schematic diagram of the drive support structure of a low-GI meal replacement powder processing method and processing equipment proposed in this invention.

[0030] Figure 5 This is a schematic diagram of the adjustment mechanism of a low-GI meal replacement powder processing method and processing equipment proposed in this invention.

[0031] Figure 6 This is a schematic diagram of the auxiliary structure of a low-GI meal replacement powder processing method and processing equipment proposed in this invention.

[0032] In the diagram: 1. Mixing shell; 11. Outer shell; 12. Discharge hole; 13. Observation window; 2. Processing unit; 21. Drive bracket; 211. Top bracket; 212. Connecting column; 213. Inner mounting block; 214. Adjustment mechanism; 2141. Mounting clamp; 2142. Assembly strip; 2143. Sliding block; 2144. Sliding connecting strip; 215. Connecting piece; 216. Bottom bracket; 22. Auxiliary mechanism; 221. Assembly cylinder; 222. Internal cavity; 223. Through connecting shaft; 23. Mixing mechanism; 231. Through shaft; 232. Assembly gear; 233. Reinforcing piece; 234. Suspended vertical cylinder; 235. Mounting plate; 236. Assembly piece; 237. First mixing blade; 238. Second mixing blade. Detailed Implementation

[0033] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments.

[0034] Reference Figures 1-6 Example 1

[0035] A method and equipment for processing low-GI meal replacement powder includes a mixing shell 1 and a processing unit 2. The processing unit 2 is vertically arranged in the inner cavity of the mixing shell 1. The processing unit 2 includes a drive support 21 and an auxiliary mechanism 22 that penetrates the inner cavity of the drive support 21. A mixing mechanism 23 is vertically installed at the bottom of the drive support 21 and the auxiliary mechanism 22.

[0036] The drive bracket 21 includes a top bracket 211 and a series column 212 vertically installed at the triangular position on the lower end face of the top bracket 211. An inner mounting block 213 is installed at the bottom of the series column 212. An adjustment mechanism 214 is installed on the lower end face of the inner mounting block 213. The bottom of the adjustment mechanism 214 is movably connected to the connecting member 215. A bottom bracket 216 is clamped between the three sets of connecting members 215.

[0037] Example 2

[0038] The adjustment mechanism 214 includes a mounting clip 2141 and an assembly strip 2142 mounted on the lower end face of the mounting clip 2141. A sliding block 2143 is slidably disposed on the side end face of the assembly strip 2142, and a sliding connecting strip 2144 is clamped between two sets of sliding blocks 2143. The operator can adjust the degree of unfolding of the assembly strip 2142 by adjusting the sliding distance of the sliding block 2143 within the inner wall of the assembly strip 2142. When the sliding block 2143 slides downwards, it pushes the sliding connecting strip 2144 downwards, increasing the overall length of the adjustment mechanism 214. This allows the inner end face of the assembly strip 2142 to clamp and conform to the outer end face of the assembly cylinder 221, thereby increasing the overall contact area between the processing unit 2 and the low-GI meal replacement powder, enabling finer particle processing. When the sliding block 2143 moves downward, it drives the sliding connecting strip 2144 to shorten the overall length of the adjustment mechanism 214, thereby reducing the contact area of ​​the whole device with the low-GI meal replacement powder. While the processing unit 2 is stirring the low-GI meal replacement powder, an appropriate amount of water is added to the inner cavity of the outer shell 11 to increase the moisture content of the low-GI meal replacement powder, thereby satisfying the working effect of the whole device in both dry and wet stirring of the low-GI meal replacement powder.

[0039] Example 3

[0040] The upper end face of the mounting clip 2141 is movably connected to the inner mounting block 213, and the bottom end face of the sliding connecting strip 2144 is movably clamped with the bottom bracket 216, so that the inner mounting block 213, the adjustment mechanism 214 and the connecting piece 215 can be movably adjusted.

[0041] Example 4

[0042] The auxiliary mechanism 22 includes an assembly cylinder 221 and internal cavities 222 arranged on the outer surface of the assembly cylinder 221. A through connecting shaft 223 is vertically arranged at the bottom of the assembly cylinder 221. The upper end face of the assembly cylinder 221 is attached to the inner wall of the top support 211, making the drive support 21 and the auxiliary mechanism 22 a whole. A small amount of auxiliary additive is pre-added to the inner cavity of the internal cavity 222. When the top of the processing unit 2 is driven by the rotation of the external drive motor, the auxiliary additive placed in the internal cavity 222 is thrown outward by centrifugal force, so that the low-GI meal replacement powder being processed can be added evenly, avoiding the auxiliary additive being concentrated in one place, which would prevent the auxiliary additive from being unable to mix quickly with the low-GI meal replacement powder.

[0043] Example 5

[0044] The through-connecting shaft 223 is inserted vertically downwards into the inner cavity of the bottom bracket 216 and then connected to the upper end face of the stirring mechanism 23. The stirring mechanism 23 includes an insert shaft 231 and an assembly gear 232 installed at the bottom of the insert shaft 231. Reinforcing members 233 are arranged in a circular array around the lower end face of the assembly gear 232. A suspended vertical cylinder 234 is installed at the bottom of the reinforcing member 233. A mounting plate 235 is installed on the lower end face of the suspended vertical cylinder 234. The stirring mechanism 23 also includes an assembly 236 installed at the bottom of the mounting plate 235. A first stirring blade 237 is horizontally installed through the inner cavity of the assembly 236. The first stirring blade 237 has a horizontal cross-section in the middle. The second stirring blade 238 is arranged in a through-and-through manner. Driven by the rotation of the support 21, the through shaft 231 rotates synchronously. When it rotates, the assembly gear 232 can drive the reinforcing member 233 and the suspended vertical cylinder 234 to rotate in the same direction. At this time, the stirring mechanism 23 is completely immersed in the low-GI meal replacement powder. The rotation of the mounting plate 235 drives the assembly 236 to stir the low-GI meal replacement powder. When the first stirring blade 237 and the second stirring blade 238 are arranged in a through-and-through manner, compared with the case where the stirring blades are all rotationally symmetrical, the uncrushed low-GI meal replacement powder can be stirred and crushed better, thereby improving the working efficiency of the overall device.

[0045] Example 6

[0046] The mixing shell 1 includes an outer shell 11 and a discharge hole 12 at the bottom of the outer shell 11. An observation window 13 is provided on the side end face of the outer shell 11. When it is necessary to mix the low-GI meal replacement powder, an external rubber stopper is used to plug the inner cavity of the discharge hole 12 from bottom to top, making the inner cavity of the outer shell 11 a container. During the processing, the operator can observe the low-GI meal replacement powder being mixed and processed by the processing unit 2 in the outer shell 11 from the outside to the inside through the observation window 13.

[0047] A method for processing low-GI meal replacement powder and its processing equipment includes the following steps:

[0048] S1: The operator can adjust the degree of unfolding of the assembly strip 2142 by adjusting the sliding distance of the sliding block 2143 on the inner wall of the assembly strip 2142. When the sliding block 2143 slides down, it drives the sliding connecting strip 2144 to push down, increasing the overall length of the adjustment mechanism 214. This allows the inner end face of the assembly strip 2142 to clamp and fit against the outer end face of the assembly cylinder 221, thereby increasing the overall contact area between the processing unit 2 and the low-GI meal replacement powder, and processing it into smaller particles.

[0049] S2: When the sliding block 2143 moves downward, it drives the sliding connecting strip 2144 to push, shortening the overall length of the adjustment mechanism 214, thereby reducing the contact area of ​​the whole device with the low-GI meal replacement powder. While the processing unit 2 is stirring the low-GI meal replacement powder, an appropriate amount of water is added to the inner cavity of the outer shell 11 to increase the moisture content of the low-GI meal replacement powder, thereby satisfying the working effect of the whole device in both dry and wet stirring of the low-GI meal replacement powder.

[0050] S3: When it is necessary to stir and mix the low-GI meal replacement powder, the inner cavity of the discharge hole 12 is blocked from bottom to top by the external rubber stopper, so that the inner cavity of the outer shell 11 becomes a vessel. During the processing, the staff can observe the low-GI meal replacement powder being stirred and processed by the processing unit 2 through the observation window 13.

[0051] In summary: A method and equipment for processing low-GI meal replacement powder includes a mixing shell 1 and a processing unit 2. The processing unit 2 is vertically arranged in the inner cavity of the mixing shell 1. The processing unit 2 includes a drive support 21 and an auxiliary mechanism 22 that penetrates the inner cavity of the drive support 21. A stirring mechanism 23 is vertically installed at the bottom of the drive support 21 and the auxiliary mechanism 22. The operator can adjust the degree of unfolding of the assembly strip 2142 by adjusting the sliding distance of the sliding block 2143 on the inner wall of the assembly strip 2142. When the sliding block 2143 slides downward, it drives the sliding connecting strip 2144 downward to push it, thereby lengthening the overall length of the adjustment mechanism 214. This allows the inner end face of the assembly strip 2142 to clamp and fit against the outer end face of the assembly cylinder 221, thereby increasing the overall contact area between the processing unit 2 and the low-GI meal replacement powder, and processing it into finer particles. When the sliding block 2143 moves downward, it drives the sliding connecting strip 2144 to push, shortening the overall length of the adjustment mechanism 214, thereby reducing the contact area of ​​the whole device with the low-GI meal replacement powder. While the processing unit 2 is stirring the low-GI meal replacement powder, an appropriate amount of water is added to the inner cavity of the outer shell 11 to increase the moisture content of the low-GI meal replacement powder, thereby satisfying the working effect of the whole device in both dry and wet stirring of the low-GI meal replacement powder.

[0052] When it is necessary to stir and mix the low-GI meal replacement powder, the inner cavity of the discharge hole 12 is blocked from bottom to top by an external rubber stopper, so that the inner cavity of the outer shell 11 becomes a vessel. During the processing, the staff can observe the low-GI meal replacement powder being stirred and processed by the processing unit 2 through the observation window 13.

[0053] Driven by the rotation of the support 21, the insertion shaft 231 rotates synchronously. When it rotates, the assembly gear 232 can drive the reinforcing member 233 and the suspended vertical cylinder 234 to rotate in the same direction. At this time, the stirring mechanism 23 is completely immersed in the low-GI meal replacement powder. The rotation of the mounting plate 235 drives the assembly 236 to stir in the low-GI meal replacement powder. When the first stirring blade 237 and the second stirring blade 238 are arranged in a cross shape and rotate to stir, compared with the case where the stirring blades are all rotationally symmetrical, the uncrushed low-GI meal replacement powder can be stirred and crushed better, thereby improving the working efficiency of the overall device.

[0054] A small amount of auxiliary additives is added to the inner cavity of the built-in cavity 222 in advance. When the top of the processing unit 2 is driven by the rotation of the external drive motor, the auxiliary additives placed in the inner cavity of the built-in cavity 222 are thrown outward by centrifugal force, so that the low-GI meal replacement powder being processed can be added evenly, avoiding the auxiliary additives from being concentrated in one place, which would prevent the auxiliary additives from being mixed with the low-GI meal replacement powder quickly.

[0055] The above describes the entire working principle of this invention.

[0056] In this invention, the installation, connection or setting methods of all the components mentioned above are common mechanical methods, and the specific structure, model and coefficient index of all the components are their own technologies. As long as they can achieve their beneficial effects, they can be implemented, so they will not be described in detail.

[0057] The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments. Any changes, modifications, substitutions, combinations, or simplifications made without departing from the spirit and principle of the present invention shall be considered equivalent substitutions and shall be included within the protection scope of the present invention.

[0058] In this invention, unless otherwise stated, directional terms such as "up, down, left, right, front, back, inside, outside, and vertical and horizontal" in the terminology only represent the orientation of the term in its conventional use or are common terms understood by those skilled in the art, and should not be regarded as limitations on the term. At the same time, numerals such as "first," "second," and "third" do not represent specific quantities or orders, but are merely used to distinguish names. Moreover, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a series of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

Claims

1. A low-GI meal replacement powder processing device, comprising a mixing shell and a processing unit, wherein the processing unit is vertically arranged within the inner cavity of the mixing shell, characterized in that, The processing unit includes a drive support and an auxiliary mechanism that penetrates the inner cavity of the drive support. A stirring mechanism is vertically installed at the bottom of the drive support and the auxiliary mechanism. The drive support includes a top support and a series of columns vertically installed at the triangular position on the lower end face of the top support. An inner mounting block is installed at the bottom of the series of columns, and an adjustment mechanism is installed on the lower end face of the inner mounting block. The bottom of the adjustment mechanism is movably connected to the connecting parts, and a bottom support is clamped between the three sets of connecting parts. The adjustment mechanism includes a mounting clip and an assembly strip mounted on the lower end face of the mounting clip. A sliding block is slidably disposed on the side end face of the assembly strip, and a sliding connecting strip is clamped between two sets of the sliding blocks. The upper end face of the mounting clip is movably connected to the inner mounting block, and the bottom end face of the sliding connecting strip is movably clamped with a bottom bracket, so that the inner mounting block, the adjustment mechanism and the connecting parts can be movably adjusted. The auxiliary mechanism includes an assembly cylinder and built-in cavities arranged on the outer surface of the assembly cylinder, and a through connecting shaft is vertically arranged at the bottom of the assembly cylinder; The stirring mechanism includes an insert shaft and an assembly gear mounted on the bottom of the insert shaft. Reinforcing members are arranged in a ring around the lower end face of the assembly gear. A suspended vertical cylinder is mounted on the bottom of the reinforcing members, and an installation plate is mounted on the lower end face of the suspended vertical cylinder.

2. The low-GI meal replacement powder processing equipment according to claim 1, characterized in that, The upper end face of the assembly cylinder is attached to the inner wall of the top support, making the drive support and auxiliary mechanism a whole.

3. The low-GI meal replacement powder processing equipment according to claim 2, characterized in that, The through-connector is inserted vertically downwards into the inner cavity of the bottom bracket and then connected to the upper end face of the stirring mechanism.

4. The low-GI meal replacement powder processing equipment according to claim 1, characterized in that, The stirring mechanism also includes an assembly installed at the bottom of the mounting plate. A first stirring blade is installed transversely through the inner cavity of the assembly, and a second stirring blade is transversely arranged through the middle of the first stirring blade. The stirring shell includes an outer shell and a discharge hole at the bottom of the outer shell, and an observation window is provided on the side end face of the outer shell.

5. The method of using a low-GI meal replacement powder processing equipment according to claims 1-4, characterized in that, Includes the following steps: S1: The operator can adjust the degree of unfolding of the assembly strip by adjusting the sliding distance of the sliding block on the inner wall of the assembly strip. When the sliding block slides down, it drives the sliding connecting strip downward, increasing the overall length of the adjustment mechanism. This allows the inner end face of the assembly strip to clamp and fit against the outer end face of the assembly cylinder, thereby increasing the overall contact area between the processing unit and the low-GI meal replacement powder, and enabling more fine granular processing. S2: When the sliding block moves upward, it drives the sliding connecting strip to shorten the overall length of the adjustment mechanism, thereby reducing the contact area of ​​the low-GI meal replacement powder with the overall device. While the processing unit is stirring the low-GI meal replacement powder, an appropriate amount of water is added to the inner cavity of the outer shell to increase the moisture content of the low-GI meal replacement powder, thus satisfying the working effect of dry and wet stirring of the low-GI meal replacement powder by the overall device; S3: When it is necessary to stir and mix the low-GI meal replacement powder, the outer rubber plug is used to block the inner cavity of the discharge hole from bottom to top, making the inner cavity of the outer shell a container. During the processing, the operator can observe the low-GI meal replacement powder being stirred and processed by the processing unit in the outer shell through the observation window.