Anti-caking mixing device for powdered food products

Abstract

The utility model discloses a kind of anti-caking stirring devices of powdery food, including setting plate, restraint assembly is installed in the inside of setting plate, the restraint assembly includes two horizontal limit slot one, two the limit slot one is respectively at the position of both sides of setting plate, two The limit slot one inside is slidably connected with one restraint frame, and two restraint frames are symmetrically arranged, two The rack is fixedly connected with one in the top of restraint frame, the mounting cover is coaxially fixed on the outer wall of the top of setting plate, the gear is rotatably connected on the outside of mounting cover, two The rack is engaged with gear, pulling structure is provided in the top of setting plate, and pulling structure includes two connecting plates and two springs, the utility model is restrained by setting restraint assembly, and setting plate can be bound outside external container, ensure that stirring assembly can stably operate, food can be directly stirred, without secondary transfer to food.

Description

Technical Field

[0001] This utility model relates to the field of mixing device technology, specifically to an anti-caking mixing device for powdered food. Background Technology

[0002] Powdered foods are prone to clumping during the brewing process, such as milk powder, coffee powder, protein powder, and seasoning powder. Clumping not only affects the appearance and quality of the product, but also its taste.

[0003] A search revealed a utility model patent with Chinese patent publication number CN214856180U, which discloses a children's milk powder mixing device, comprising: a support base; a loading frame installed on the support base; a rotating mechanism installed between the support base and the loading frame for rotating the loading frame; and a mixing mechanism installed inside the loading frame for mixing the milk powder.

[0004] The above-mentioned device requires milk powder to be poured into the feeding frame for operation, and after stirring, it needs to be transferred to the baby bottle, which may cause spillage. In addition, since there is a stirring structure inside the feeding frame, it is inconvenient to clean, and there is room for improvement. Utility Model Content

[0005] The purpose of this invention is to provide an anti-caking stirring device for powdered food to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a mixing device for preventing clumping of powdered food, comprising a mounting plate, wherein a binding assembly is installed inside the mounting plate, the binding assembly comprising two horizontally arranged limiting grooves, the two limiting grooves being respectively located on both sides of the mounting plate, a binding frame being slidably connected inside each of the two limiting grooves, and the two binding frames being symmetrically arranged, a rack being fixedly connected to one end of the top of each of the two binding frames, a mounting cover being coaxially fixed to the outer wall of the top of the mounting plate, a gear being rotatably connected to the outside of the mounting cover, both racks meshing with the gear, and a pulling structure being provided on the top of the mounting plate, the pulling structure comprising two connecting plates and two springs.

[0007] As a further preferred embodiment of this technical solution, both connecting plates are fixedly connected to the top outer wall of the mounting plate, and the two connecting plates are respectively arranged opposite to the two racks. The two springs are respectively fixedly connected to the outer wall of the two connecting plates on the side close to each other, and the ends of the two springs that are close to each other are respectively fixedly connected to the two racks.

[0008] The device secures the mounting plate to the outside of the outer container, ensuring stable operation of the mixing assembly. It can directly mix food without requiring secondary transfer. The device drives the restraining frame to move outward along the limiting groove, causing a rack connected to the restraining frame to move synchronously. This rack meshes with a gear to rotate, which in turn drives another rack to move in the opposite direction. This rack then drives another restraining frame to move synchronously. The mounting plate then covers the top of the outer container, allowing the two mixing rods to extend into the container. After releasing the restraining frame, each restraining frame is moved back to its original position by two springs. With the cooperation of the rack and gear, the two restraining frames move synchronously, ensuring the mixing assembly is in the exact center of the outer container and that the position of the mounting plate does not change arbitrarily.

[0009] As a further preferred embodiment of this technical solution, two limiting grooves are provided on the top outer wall of the mounting plate, and the two racks are slidably connected inside the two limiting grooves.

[0010] As a further preferred embodiment of this technical solution, a stirring assembly is installed in the middle of the mounting plate. The stirring assembly includes a stirring frame one and a stirring frame two. Both stirring frame one and stirring frame two are rotatably connected inside the mounting plate. The stirring blades of stirring frame one and stirring frame two are staggered, and the top ends of both stirring frame one and stirring frame two are inside the mounting cover.

[0011] As a further preferred embodiment of this technical solution, a motor is fixedly installed on the top outer wall of the mounting plate, a transmission wheel is coaxially fixed to the output end of the motor, a driven wheel is coaxially fixed to one end of the top of both the first and second stirring racks, and a belt is fitted between the transmission wheel and the two driven wheels.

[0012] Start the motor on top of the mounting plate. The motor output drives the transmission wheel to rotate. The transmission wheel drives the two driven wheels to rotate through two belts. The two driven wheels drive the first and second mixing racks to rotate in the same direction. The mixing rods of the first and second mixing racks are in an interlaced state, so the food can be cross-mixed, which can effectively prevent the formation of lumps. In addition, the two work together to improve the mixing efficiency.

[0013] As a further preferred embodiment of this technical solution, both the driven wheel and the transmission wheel are toothed pulleys.

[0014] As a further preferred embodiment of this technical solution, a groove is provided on the top outer wall of the restraint frame.

[0015] This utility model provides an anti-caking stirring device for powdered food, which has the following beneficial effects:

[0016] (1) By setting a binding component, this utility model can bind the mounting plate to the outside of the outer container, ensuring that the stirring component can operate stably and can directly stir the food without the need for secondary transfer of the food. The binding frame is driven to move outward along the limiting groove, and a rack connected to the binding frame is driven to move synchronously. This rack drives the gear to rotate through meshing, and the gear drives another rack to move in the opposite direction through meshing. This rack will drive the other binding frame to move synchronously. Then the mounting plate is covered on the top of the outer container, and the two stirring rods extend into the container. After the restriction on the binding frame is released, the two binding frames are driven by two springs to move back to their original positions. With the cooperation of the rack and the gear, the two binding frames will move synchronously, ensuring that the stirring component is in the middle of the outer container and that the position of the mounting plate will not change arbitrarily.

[0017] (2) By setting up a stirring assembly, the motor on the top of the mounting plate is started. The output end of the motor drives the transmission wheel to rotate. The transmission wheel drives two driven wheels to rotate through two belts. The two driven wheels drive the first stirring rack and the second stirring rack to rotate in the same direction. The stirring rods of the first stirring rack and the second stirring rack are in an interlaced state, so the food can be cross-stirred, which can effectively avoid the formation of lumps. In addition, the two work together to improve the stirring efficiency. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the overall first-view structure of this utility model;

[0019] Figure 2 This is a schematic diagram of the overall second-view structure of this utility model;

[0020] Figure 3 For the present utility model Figure 1 Enlarged structural diagram at point A in the middle;

[0021] Figure 4 For the present utility model Figure 1 Enlarged structural diagram at point B;

[0022] In the diagram: 1. Mounting plate; 2. Restraint assembly; 3. Stirring assembly; 201. Limiting groove one; 202. Restraint frame; 203. Limiting groove two; 204. Rack; 205. Mounting cover; 206. Gear; 207. Connecting plate; 208. Spring; 209. Groove; 301. Stirring frame one; 302. Stirring frame two; 303. Driven wheel; 304. Transmission wheel; 305. Motor; 306. Belt. Detailed Implementation

[0023] 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.

[0024] This utility model provides a technical solution: such as Figure 1 , Figure 2 and Figure 4 As shown in this embodiment, an anti-caking stirring device for powdered food includes a mounting plate 1. A binding assembly 2 is installed inside the mounting plate 1. The binding assembly 2 includes two horizontally arranged limiting grooves 201, which are located on both sides of the mounting plate 1. A binding frame 202 is slidably connected inside each of the two limiting grooves 201, and the two binding frames 202 are symmetrically arranged. A rack 204 is fixedly connected to one end of the top of each binding frame 202. A mounting cover 205 is coaxially fixed to the outer wall of the top of the mounting plate 1. A gear 206 is rotatably connected to the outside of the mounting cover 205. Both racks 204 mesh with the gear 206. A pulling structure is provided on the top of the mounting plate 1, and the pulling structure includes two connecting plates 207 and two springs 208.

[0025] Both connecting plates 207 are fixedly connected to the top outer wall of the mounting plate 1, and the two connecting plates 207 are respectively arranged opposite to the two racks 204. The two springs 208 are respectively fixedly connected to the outer wall of the two connecting plates 207 on the side close to each other, and the ends of the two springs 208 that are close to each other are respectively fixedly connected to the two racks 204.

[0026] Two limiting grooves 203 are provided on the top outer wall of the mounting plate 1. Two racks 204 are slidably connected inside the two limiting grooves 203 respectively. Under the action of the limiting grooves 203, the movement of the two racks 204 can be more stable.

[0027] The restraint frame 202 is driven to move outward along the limiting groove 201. A rack 204 connected to the restraint frame 202 is driven to move synchronously. This rack 204 drives the gear 206 to rotate through meshing. The gear 206 drives another rack 204 to move in the opposite direction through meshing. This rack 204 will drive the other restraint frame 202 to move synchronously. Then, the mounting plate 1 is placed on the top of the outer container, and the two stirring rods extend into the container. After the restraint frame 202 is released, the two restraint frames 202 are driven by the two springs 208 to move back to their original positions. With the cooperation of the rack 204 and the gear 206, the two restraint frames 202 will move synchronously, ensuring that the stirring assembly 3 is in the center of the outer container and that the position of the mounting plate 1 will not change arbitrarily.

[0028] like Figure 2 and Figure 3As shown, a stirring assembly 3 is installed in the middle of the mounting plate 1. The stirring assembly 3 includes a stirring frame 301 and a stirring frame 302. Both stirring frame 301 and stirring frame 302 are rotatably connected inside the mounting plate 1. The stirring blades of stirring frame 301 and stirring frame 302 are staggered, and the top ends of stirring frame 301 and stirring frame 302 are both inside the mounting cover 205.

[0029] A motor 305 is fixedly installed on the top outer wall of the mounting plate 1. A transmission wheel 304 is coaxially fixed at the output end of the motor 305. A driven wheel 303 is coaxially fixed at one end of the top of both the first stirring rack 301 and the second stirring rack 302. A belt 306 is fitted between the transmission wheel 304 and the two driven wheels 303.

[0030] The motor 305 on the top of the mounting plate 1 is started. The output of the motor 305 drives the transmission wheel 304 to rotate. The transmission wheel 304 drives the two driven wheels 303 to rotate through two belts 306. The two driven wheels 303 drive the first mixing rack 301 and the second mixing rack 302 to rotate in the same direction. The mixing rods of the first mixing rack 301 and the second mixing rack 302 are in an interlaced state, so the food can be cross-mixed, which can effectively prevent the formation of lumps. The two work together to improve the mixing efficiency. After the work is completed, the mixing component 3 is exposed to the external environment, making the cleaning work more convenient.

[0031] like Figure 3 As shown, both the driven wheel 303 and the transmission wheel 304 are toothed pulleys, which can prevent slippage during the transmission process and ensure that the stirring process can proceed stably.

[0032] like Figure 4 As shown, a groove 209 is provided on the top outer wall of the restraint frame 202, so that the restraint frame 202 has a force point, making it easier for the worker to exert force.

[0033] Mounting cover 205 is an enclosed space containing a battery, and a switch compatible with motor 305 is located on its top. Figure 1 The open state shown is to display its internal structure, not its ring-shaped structure.

[0034] This utility model provides an anti-caking stirring device for powdered food, the specific working principle of which is as follows:

[0035] When the device is in operation, the groove 209 on the top of the restraint frame 202 is engaged, causing the restraint frame 202 to move outward along the limiting groove 201. A rack 204 connected to the restraint frame 202 is driven to move synchronously. This rack 204 drives the gear 206 to rotate through meshing. The gear 206 drives another rack 204 to move in the opposite direction through meshing. This rack 204 will drive the other restraint frame 202 to move synchronously. Then, the mounting plate 1 is placed on top of the outer container, and the two stirring rods extend into the container. After the restraint frame 202 is released, the two restraint frames 202 are driven by the two springs 208 to move back to their original positions. With the cooperation of the rack 204 and the gear 206, the two restraint frames 202 will move synchronously, ensuring that the stirring component 3 is in the center of the outer container and that the position of the mounting plate 1 does not change arbitrarily.

[0036] The motor 305 on the top of the mounting plate 1 is started. The output of the motor 305 drives the transmission wheel 304 to rotate. The transmission wheel 304 drives the two driven wheels 303 to rotate through two belts 306. The two driven wheels 303 drive the mixing rack 1 301 and the mixing rack 2 302 to rotate in the same direction. The mixing rods of the mixing rack 1 301 and the mixing rack 2 302 are in an interlaced state, so the food can be cross-mixed, which can effectively prevent the formation of lumps. In addition, the two work together to improve the mixing efficiency.

[0037] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A mixing device for preventing clumping of powdered food, comprising a mounting plate (1), characterized in that: The mounting plate (1) is equipped with a restraint assembly (2). The restraint assembly (2) includes two horizontally arranged limiting grooves (201). The two limiting grooves (201) are located on both sides of the mounting plate (1). A restraint frame (202) is slidably connected inside each of the two limiting grooves (201). The two restraint frames (202) are symmetrically arranged. A rack (204) is fixedly connected to one end of the top of each of the two restraint frames (202). An installation cover (205) is coaxially fixed to the outer wall of the top of the mounting plate (1). A gear (206) is rotatably connected to the outside of the installation cover (205). Both racks (204) mesh with the gear (206). A pulling structure is provided on the top of the mounting plate (1). The pulling structure includes two connecting plates (207) and two springs (208).

2. The anti-caking stirring device for powdered food according to claim 1, characterized in that: Both connecting plates (207) are fixedly connected to the top outer wall of the mounting plate (1), and the two connecting plates (207) are respectively arranged opposite to the two racks (204). The two springs (208) are respectively fixedly connected to the outer wall of the two connecting plates (207) on the side close to each other, and the ends of the two springs (208) that are close to each other are respectively fixedly connected to the two racks (204).

3. The anti-caking stirring device for powdered food according to claim 1, characterized in that: The top outer wall of the mounting plate (1) has two limiting grooves (203), and the two racks (204) are slidably connected inside the two limiting grooves (203).

4. The anti-caking stirring device for powdered food according to claim 1, characterized in that: A stirring assembly (3) is installed in the middle of the mounting plate (1). The stirring assembly (3) includes a stirring frame one (301) and a stirring frame two (302). The stirring frame one (301) and the stirring frame two (302) are rotatably connected inside the mounting plate (1). The stirring blades of the stirring frame one (301) and the stirring frame two (302) are staggered, and the top end of the stirring frame one (301) and the stirring frame two (302) are both inside the mounting cover (205).

5. The anti-caking stirring device for powdered food according to claim 4, characterized in that: A motor (305) is fixedly installed on the top outer wall of the mounting plate (1). A transmission wheel (304) is coaxially fixed at the output end of the motor (305). A driven wheel (303) is coaxially fixed at one end of the top of the first stirring rack (301) and the second stirring rack (302). A belt (306) is fitted between the transmission wheel (304) and the two driven wheels (303).

6. The anti-caking stirring device for powdered food according to claim 5, characterized in that: Both the driven wheel (303) and the transmission wheel (304) are toothed pulleys.

7. The anti-caking stirring device for powdered food according to claim 1, characterized in that: Each of the restraint frames (202) has a groove (209) on its top outer wall.

Images