An apparatus for blending edible oils

By designing a folding mixing device, the problem of damage caused by the mixer hitting the tank was solved, resulting in simpler operation and improved efficiency.

CN224485584UActive Publication Date: 2026-07-14HARBIN PURUN GREASE

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HARBIN PURUN GREASE
Filing Date
2025-08-18
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

When cleaning the mixer in existing edible oil blending equipment, the mixer is prone to bumping into the tank, causing damage and affecting operational efficiency.

Method used

A folding stirring device was designed, including an outer tube, a core column, a stirring column, and a spring shaft structure. The stirring column is folded to reduce its volume and avoid collisions.

Benefits of technology

The folded stirring column design prevents the stirrer from being bumped or knocked, simplifies operation, and improves work efficiency.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224485584U_ABST
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Abstract

The utility model relates to a kind of edible oil blending device, belong to edible oil production blending equipment technical field, it is characterized by including sealing upper cover and rotating motor connected in the center of upper surface of the sealing upper cover, the upper surface of the sealing upper cover is evenly distributed and connected with several auxiliary material jars around, each auxiliary material jar upper surface is connected with sealing lid, each auxiliary material jar lower surface center is connected with electronic valve, the lower surface of each electronic valve is connected with injection pipeline in middle, the lower surface center of the sealing upper cover is connected with folding stirring device, reduce the volume of stirrer to facilitate staff to remove from jar, and due to the volume of stirrer reduction, can prevent bumping to jar when removing.
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Description

Technical Field

[0001] This utility model belongs to the technical field of blending equipment for edible oil production, and specifically relates to a device for blending edible oil. Background Technology

[0002] When cleaning the mixer in existing edible oil blending equipment, the cross-shaped shape of the mixer makes it easy to bump into the mixing tank when removing it, and the mixer is easily damaged when it bumps into the tank. This requires a lot of time for staff to repair, which is inconvenient for staff to operate and reduces work efficiency. Utility Model Content

[0003] The purpose of this invention is to allow workers to fold the stirring column on the mixer, reducing the mixer's size for easier removal from the container. Furthermore, the reduced size prevents damage to the container during removal, thus facilitating operation and improving work efficiency. The technical solution is as follows:

[0004] An apparatus for blending edible oil, characterized in that: it includes a sealed top cover 1 and a rotating motor 2 connected to the center of the upper surface of the sealed top cover 1; a plurality of auxiliary material containers 3 are evenly distributed around the upper surface of the sealed top cover 1; each auxiliary material container 3 has a sealed lid 4 connected to its upper surface; each auxiliary material container 3 has an electronic valve 5 connected to the center of its lower surface; each electronic valve 5 has a filling pipe 6 connected to the middle of its lower surface; a folding stirring device 7 is connected to the center of the lower surface of the sealed top cover 1; the folding stirring device 7 includes an outer tube 7-1, a side hole 7-2, a core column 7-3, and a stirring column 7-4. The outer tube 7-1 has several side holes 7-2 evenly distributed vertically on its outer surface. A core column 7-3 is inserted into the upper center of the inner surface of the outer tube 7-1. A stirring column 7-4 is rotatably connected to the core column 7-3 on its left and right sides, evenly distributed vertically. The outer tube 7-1 is located at the center below the sealing cover 1. The upper end of the outer tube 7-1 is connected to the rotating end of the rotating motor 2. The core column 7-3 includes a column 7-3-1, support blocks 7-3-2, a spring shaft 7-3-3, and a hydraulic cylinder 7-3-4. Several support blocks 7-3-2 are evenly distributed vertically on the left and right sides of the column 7-3-1. Each support block... Spring shafts 7-3-3 are connected to the outer edges of the front and rear surfaces of block 7-3-2. A hydraulic cylinder 7-3-4 is inserted into the center of the upper surface of the column 7-3-1. The telescopic end of the hydraulic cylinder 7-3-4 is connected to the column 7-3-1 by a set screw. The hydraulic cylinder 7-3-4 is connected to the center of the upper surface inside the outer tube 7-1. The stirring column 7-4 includes a horizontal column 7-4-1, a notch 7-4-2, a through hole 7-4-3, and a rubber pad 7-4-4. A notch 7-4-2 is provided in the middle of the inner edge of the upper surface of the horizontal column 7-4-1. Symmetrical features are provided in the middle of the lower surface of the left and right sides inside the notch 7-4-2. There is a through hole 7-4-3. The lower surface of the notch 7-4-2 is connected to a rubber pad 7-4-4. The support block 7-3-2 is inserted into the notch 7-4-2. The spring shaft 7-3-3 is inserted into the through hole 7-4-3. The spring shaft 7-3-3 includes a rotating shaft 7-3-3-1 and a spring 7-3-3-2. The spring 7-3-3-2 is inserted into the side surface of the rotating shaft 7-3-3-1. The rotating shaft 7-3-3-1 is connected to the side surface of the support block 7-3-2. One end of the spring 7-3-3-2 is connected to the crossbar 7-4-1 and the other end is connected to the support block 7-3-2.

[0005] The beneficial effects of this utility model are: the stirring column on the stirrer can be folded to reduce the size of the stirrer, making it easier for the staff to take it out of the jar. Furthermore, the reduced size of the stirrer can prevent the jar from being bumped when it is taken out, making it easier for the staff to operate and use and improving work efficiency. Attached Figure Description

[0006] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0007] Figure 2 This is a schematic diagram of the folding stirring device 7 of this utility model;

[0008] Figure 3 This is a schematic diagram of the core post 7-3 structure of this utility model;

[0009] Figure 4 This is a schematic diagram of the stirring column 7-4 of this utility model;

[0010] Figure 5 This is a schematic diagram of the spring shaft 7-3-3 structure of this utility model;

[0011] The components in the diagram are: 1. Sealed top cover; 2. Rotating motor; 3. Auxiliary material tank; 4. Sealed lid; 5. Electronic valve; 6. Injection pipe; 7. Folding stirring device; 7. Outer pipe; 7. Side hole; 7. Core column; 7. Stirring column; 7. Vertical column; 7. Support block; 7. Spring shaft; 7. Oil cylinder; 7. Horizontal column; 7. 4. Notch; 7. 4. Through hole; 7. Rubber pad; 7. 4. Rotating shaft; 7. 3. Spring; 7. 3. Spring. Detailed Implementation

[0012] Reference Figures 1-4 The edible oil blending device is characterized by comprising a sealed top cover 1 and a rotating motor 2 connected to the center of the upper surface of the sealed top cover 1. A plurality of auxiliary material containers 3 are evenly distributed around the upper surface of the sealed top cover 1. Each auxiliary material container 3 is connected to a sealed lid 4 on its upper surface. Each auxiliary material container 3 is connected to an electronic valve 5 at the center of the lower surface of its lower surface. Each electronic valve 5 is connected to a material injection pipe 6 at the middle of the lower surface of its lower surface. A folding stirring device 7 is connected to the center of the lower surface of the sealed top cover 1.

[0013] When using, first, tighten the sealing cap 1 onto the mixing tank and fix it in place. Then, put several auxiliary materials into several auxiliary material tanks 3 and cover them with sealing caps 4. Then, start the rotating motor 2 to rotate and drive the folding stirring device 7 to rotate for stirring. Finally, open the electronic valve 5 to inject the auxiliary materials in the auxiliary material tanks 3 into the mixing tank through the injection pipe 6.

[0014] Furthermore, the folding stirring device 7 includes an outer tube 7-1, side holes 7-2, a core column 7-3, and a stirring column 7-4. Several side holes 7-2 are evenly distributed vertically on the left and right sides of the outer surface of the outer tube 7-1. The core column 7-3 is inserted into the upper center of the inner part of the outer tube 7-1. The stirring column 7-4 is rotatably connected to the left and right sides of the core column 7-3. The outer tube 7-1 is located at the center below the sealing cover 1. The upper end of the outer tube 7-1 is connected to the rotating end of the rotating motor 2.

[0015] In use, the core column 7-3 moves upward inside the outer tube 7-1, while the lower end of the stirring column 7-4 is brought closer to the lower surface of the side hole 7-2, causing the stirring column 7-4 to rotate on the core column 7-3. Finally, the stirring column 7-4 is offset from the lower part of the side hole 7-2 so that the stirring column 7-4 is perpendicular to the core column 7-3. Finally, the rotating motor 2 is started to drive the outer tube 7-1 to rotate, and at the same time, the outer tube 7-1 drives the stirring column 7-4 to rotate through the core column 7-3, thus stirring and mixing.

[0016] Furthermore, the core column 7-3 includes a column 7-3-1, a support block 7-3-2, a spring shaft 7-3-3, and a hydraulic cylinder 7-3-4. Several support blocks 7-3-2 are evenly distributed vertically on the left and right sides of the column 7-3-1. A spring shaft 7-3-3 is connected to the outer edge of the front and rear surfaces of each support block 7-3-2. A hydraulic cylinder 7-3-4 is inserted into the center of the upper surface of the column 7-3-1. The telescopic end of the hydraulic cylinder 7-3-4 is connected to the column 7-3-1 by a set screw. The hydraulic cylinder 7-3-4 is connected to the center of the upper surface inside the outer tube 7-1.

[0017] In use, start the hydraulic cylinder 7-3-4 to retract the telescopic end of the hydraulic cylinder 7-3-4, which at the same time drives the column 7-3-1 to move upward inside the outer tube 7-1. Simultaneously, the column 7-3-1 drives the stirring column 7-4 to move upward through the support block 7-3-2. At the same time, the stirring column 7-4 rotates on the support block 7-3-2 around the spring shaft 7-3-3 as the center. Finally, the stirring column 7-4 is offset from the lower edge of the side hole 7-2 and the stirring column 7-4 is perpendicular to the column 7-3-1, at which point it can be used.

[0018] Furthermore, the stirring column 7-4 includes a horizontal column 7-4-1, a notch 7-4-2, a through hole 7-4-3, and a rubber pad 7-4-4. The notch 7-4-2 is provided at the middle of the inner edge of the upper surface of the horizontal column 7-4-1. The through holes 7-4-3 are symmetrically provided at the middle of the lower surface of the left and right sides inside the notch 7-4-2. The rubber pad 7-4-4 is connected to the lower surface inside the notch 7-4-2. The support block 7-3-2 is inserted into the notch 7-4-2, and the spring shaft 7-3-3 is inserted into the through hole 7-4-3.

[0019] In use, when the upright column 7-3-1 moves the horizontal column 7-4-1 upward, the horizontal column 7-4-1 rotates on the support block 7-3-2, and at the same time, the spring shaft 7-3-3 rotates in the through hole 7-4-3. Finally, when the support block 7-3-2 is stuck on the lower surface of the notch 7-4-2, the horizontal column 7-4-1 is perpendicular to the upright column 7-3-1, and the rubber pad 7-4-4 buffers the squeezing force between the horizontal column 7-4-1 and the support block 7-3-2.

[0020] When retracting the horizontal column 7-4-1, the hydraulic cylinder 7-3-4 extends its telescopic end and simultaneously moves the vertical column 7-3-1 downward. At the same time, the side hole 7-2 is engaged with the lower surface of the horizontal column 7-4-1, causing the horizontal column 7-4-1 to rotate on the spring shaft 7-3-3. Finally, after the telescopic end of the hydraulic cylinder 7-3-4 is fully extended, the horizontal column 7-4-1 can be inserted into the side hole 7-2.

[0021] Furthermore, the spring shaft 7-3-3 includes a rotating shaft 7-3-3-1 and a spring 7-3-3-2. The spring 7-3-3-2 is inserted into the side surface of the rotating shaft 7-3-3-1. The rotating shaft 7-3-3-1 is connected to the side surface of the support block 7-3-2. One end of the spring 7-3-3-2 is connected to the crossbar 7-4-1 and the other end is connected to the support block 7-3-2.

[0022] In use, when the horizontal column 7-4-1 rotates, the spring 7-3-3-2 pushes the horizontal column 7-4-1 within the through hole 7-4-3, and simultaneously the horizontal column 7-4-1 rotates on the rotating shaft 7-3-3-1.

[0023] Of course, the above description is not intended to limit the present utility model, and the present utility model is not limited to the examples given above. Any changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present utility model should also fall within the protection scope of the present utility model.

Claims

1. An apparatus for blending edible oils, characterized in that: It includes a sealed top cover (1) and a rotating motor (2) connected to the center of the upper surface of the sealed top cover (1). Several auxiliary material tanks (3) are evenly distributed around the upper surface of the sealed top cover (1). Each auxiliary material tank (3) has a sealed lid (4) connected to its upper surface. Each auxiliary material tank (3) has an electronic valve (5) connected to the center of its lower surface. Each electronic valve (5) has an injection pipe (6) connected to the middle of its lower surface. A folding stirring device (7) is connected to the center of the lower surface of the sealed top cover (1).

2. The edible oil blending apparatus according to claim 1, characterized in that: The folding stirring device (7) includes an outer tube (7-1), side holes (7-2), a core column (7-3), and a stirring column (7-4). Several side holes (7-2) are evenly distributed vertically on the left and right sides of the outer surface of the outer tube (7-1). The core column (7-3) is inserted into the center of the upper part of the inner side of the outer tube (7-1). The stirring column (7-4) is evenly distributed vertically on the left and right sides of the core column (7-3) and rotatably connected. The outer tube (7-1) is located at the center of the lower part of the sealing cover (1). The upper end of the outer tube (7-1) is connected to the rotating end of the rotating motor (2).

3. The edible oil blending apparatus according to claim 2, characterized in that: The core column (7-3) includes a column (7-3-1), a support block (7-3-2), a spring shaft (7-3-3), and a hydraulic cylinder (7-3-4). Several support blocks (7-3-2) are evenly distributed vertically on the left and right sides of the column (7-3-1). A spring shaft (7-3-3) is connected to the outer edge of the front and rear surfaces of each support block (7-3-2). A hydraulic cylinder (7-3-4) is inserted at the center of the upper surface of the column (7-3-1). The telescopic end of the hydraulic cylinder (7-3-4) is connected to the column (7-3-1) by a set screw. The hydraulic cylinder (7-3-4) is connected to the center of the upper surface inside the outer tube (7-1).

4. The apparatus for blending edible oil according to claim 3, characterized in that: The stirring column (7-4) includes a horizontal column (7-4-1), a notch (7-4-2), a through hole (7-4-3), and a rubber pad (7-4-4). The horizontal column (7-4-1) has a notch (7-4-2) at the middle of the inner edge of its upper surface. The notch (7-4-2) has through holes (7-4-3) symmetrically arranged at the middle of the lower left and right sides inside. The rubber pad (7-4-4) is connected to the lower surface inside the notch (7-4-2). The support block (7-3-2) is inserted into the notch (7-4-2), and the spring shaft (7-3-3) is inserted into the through hole (7-4-3).

5. The edible oil blending apparatus according to claim 4, characterized in that: The spring shaft (7-3-3) includes a rotating shaft (7-3-3-1) and a spring (7-3-3-2). The spring (7-3-3-2) is inserted into the side surface of the rotating shaft (7-3-3-1). The rotating shaft (7-3-3-1) is connected to the side surface of the support block (7-3-2). One end of the spring (7-3-3-2) is connected to the crossbar (7-4-1) and the other end is connected to the support block (7-3-2).