A mixing device for bio-petroleum additive production

By setting up a low-level feeding system and a circulating flow system in the bio-petroleum additive production unit, the problems of high labor intensity and safety hazards caused by high-level feeding have been solved, and more efficient material mixing has been achieved.

CN224474956UActive Publication Date: 2026-07-10SHENZHEN WANWANSHENG BIO OIL ENVIRONMENTAL PROTECTION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN WANWANSHENG BIO OIL ENVIRONMENTAL PROTECTION TECH CO LTD
Filing Date
2025-07-04
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

The feed inlet of the existing mixing device for bio-petroleum additive production is located at the top of the mixing tank, which requires workers to manually carry the raw materials to a high place to dump them, increasing labor intensity and posing safety hazards.

Method used

A mixing mechanism including a first connecting pipe, a first three-way valve, an auger conveyor, and a feeding component is designed, so that the feeding position is located at a low position. Combined with the stirring structure and the circulating flow system, it reduces high-level operations, lowers labor intensity, and improves mixing efficiency.

Benefits of technology

It reduced the physical labor intensity of staff, lowered the risk of safety accidents, and promoted the uniform mixing of materials.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application provides a mixing device for bio-oil additive production, and relates to the technical field of bio-oil additive production, which comprises a mixing mechanism, the mixing mechanism is provided with a discharging end, the discharging end of the mixing mechanism is connected with a first connecting pipe, the first connecting pipe is connected with a first three-way valve, the remaining two ends of the first three-way valve are respectively connected with a feeding part and an auger conveyor, the discharging end of the auger conveyor is connected with a conveying part, and the conveying part is connected with the mixing mechanism. The first connecting pipe, the first three-way valve, the auger conveyor, the feeding part and the conveying part are arranged, the feeding part is arranged so that the feeding position of the mixing mechanism is low, the staff does not need to carry the raw materials to a high place for pouring, but only needs to add the raw materials to the feeding part at a low place, so that the physical labor intensity of the staff is reduced, and the work load is reduced.
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Description

Technical Field

[0001] This utility model relates to the field of bio-petroleum additive production technology, and more specifically, to a mixing device for bio-petroleum additive production. Background Technology

[0002] In the production process of bio-petroleum additives, the mixing device is a key piece of equipment to ensure thorough mixing of raw materials and guarantee product quality. Currently, existing mixing devices for bio-petroleum additive production have significant shortcomings in the feeding stage: most of these devices have their feed inlets located at the top of the mixing tank. In actual production operations, workers need to manually move the raw materials to a high position and then slowly pour them into the mixing tank through the feed inlet. On the one hand, workers need to expend a lot of physical strength to lift the raw materials to a high position, greatly increasing the workload and leading to high labor intensity and fatigue. On the other hand, there are certain safety hazards when pouring from a height, such as spilled raw materials causing slips and injuries. Therefore, we have made improvements and proposed a new mixing device for bio-petroleum additive production. Utility Model Content

[0003] This utility model provides a mixing device for the production of bio-petroleum additives, including a mixing mechanism. The mixing mechanism has a discharge end, and the discharge end of the mixing mechanism is connected to a first connecting pipe. The first connecting pipe is connected to a first three-way valve. The other two ends of the first three-way valve are respectively connected to a feeding component and an auger conveyor. The discharge end of the auger conveyor is connected to a conveying component, and the conveying component is connected to the mixing mechanism.

[0004] As a preferred technical solution of this application, the feeding component includes a second connecting pipe connected to the first three-way valve, and the end of the second connecting pipe away from the first three-way valve is connected to a hopper.

[0005] As a preferred technical solution of this application, the conveying component includes a second three-way valve, one end of which is connected to the discharge end of the auger conveyor, and the second three-way valve is also connected to a third connecting pipe, the end of which is away from the second three-way valve and is connected to a mixing mechanism.

[0006] As a preferred technical solution of this application, the second three-way valve is also connected to a discharge pipe, which is used for discharging materials.

[0007] As a preferred technical solution of this application, the mixing mechanism includes a material cylinder, the bottom of which is conical, and the discharge end of the mixing mechanism is located at the lowest point of the bottom of the material cylinder.

[0008] As a preferred technical solution of this application, the end of the third connecting pipe away from the second three-way valve is connected to the material cylinder.

[0009] As a preferred technical solution of this application, the top of the material cylinder is provided with a top cover, and the top cover is connected to the material cylinder by a number of bolts and nuts.

[0010] As a preferred technical solution of this application, a stirring structure is provided between the top cover and the material cylinder.

[0011] As a preferred technical solution of this application, the stirring structure includes a motor installed on the top of the top cover, the output shaft of the motor passing through the top cover and connected to a stirring shaft, the stirring shaft extending into the material cylinder, and the stirring shaft having multiple stirring blades.

[0012] As a preferred technical solution of this application, the top of the top cover is provided with a threaded opening, and a sealing cap is threadedly connected to the threaded opening.

[0013] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0014] In the scheme of this application:

[0015] This application, through the configuration of a first connecting pipe, a first three-way valve, an auger conveyor, a feeding component, and a conveying component, ensures that the feeding position of the mixing mechanism is at a low level. Workers no longer need to transport raw materials to a higher location for dumping; they can simply add the raw materials to the feeding component at a lower level, reducing the physical labor intensity and workload for workers. Since workers no longer need to operate at heights, it reduces the risk of slips, falls, and other safety accidents that may occur due to working at heights. After feeding is completed, the auger conveyor, the first connecting pipe, the first three-way valve, the conveying component, and the mixing mechanism work together to form a circulating flow system during the material mixing process, promoting the homogenization of the materials. Attached Figure Description

[0016] Figure 1 A schematic diagram of the mixing device for the production of bio-petroleum additives provided in this application;

[0017] Figure 2 Another structural schematic diagram of the mixing device for the production of bio-petroleum additives provided in this application.

[0018] Figure 3 A bottom view of the mixing device for the production of bio-petroleum additives provided in this application.

[0019] Figure 4 A schematic diagram of the structure of the first connecting pipe provided in this application.

[0020] The image shows:

[0021] 1. Mixing mechanism; 101. Material cylinder; 102. Top cover; 103. Motor; 104. Sealing cover; 2. First connecting pipe; 201. First three-way valve; 202. Second connecting pipe; 203. Hopper; 204. Screw conveyor; 205. Second three-way valve; 206. Discharge pipe; 207. Third connecting pipe. Detailed Implementation

[0022] To enable those skilled in the art to better understand the present invention, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort should fall within the protection scope of the present invention.

[0023] It should be noted that, unless otherwise specified, the embodiments and features and technical solutions in the present invention can be combined with each other.

[0024] It should be noted that similar labels and letters in the following figures indicate similar items. Therefore, once an item is defined in one figure, it does not need to be further defined and explained in subsequent figures.

[0025] For an example, please refer to... Figures 1-4 A mixing device for the production of bio-petroleum additives includes a mixing mechanism 1. The mixing mechanism 1 has a discharge end, and the discharge end of the mixing mechanism 1 is connected to a first connecting pipe 2. The first connecting pipe 2 is connected to a first three-way valve 201. The other two ends of the first three-way valve 201 are respectively connected to a feeding component and an auger conveyor 204. The discharge end of the auger conveyor 204 is connected to a conveying component, and the conveying component is connected to the mixing mechanism 1. Through the arrangement of the first connecting pipe 2, the first three-way valve 201, the auger conveyor 204, the feeding component, and the conveying component, the feeding position of the mixing mechanism 1 is located at a low position. Workers no longer need to transport raw materials to a high position for dumping; they only need to add the raw materials to the feeding component at a low position, reducing the physical labor intensity and workload of the workers. Since workers do not need to operate at a high position, the safety accidents such as slipping and falling caused by working at heights are reduced.

[0026] After feeding is completed, the cooperation of the screw conveyor 204, the first connecting pipe 2, the first three-way valve 201, the conveying components and the mixing mechanism 1 can form a circulating flow system in the material mixing process, which promotes the mixing of materials.

[0027] Furthermore, the feeding component includes a second connecting pipe 202 connected to the first three-way valve 201. The end of the second connecting pipe 202 away from the first three-way valve 201 is connected to a hopper 203. After the material is poured into the hopper 203, it can be conveyed to the first three-way valve 201 and the auger conveyor 204 through the cooperation of the second connecting pipe 202. Since the hopper 203 is located at a low position, the feeding process is more convenient.

[0028] Furthermore, the conveying component includes a second three-way valve 205, one end of which is connected to the discharge end of the auger conveyor 204. The second three-way valve 205 is also connected to a third connecting pipe 207, the end of which is away from the second three-way valve 205 and is connected to the mixing mechanism 1. The second three-way valve 205, the auger conveyor 204 and the third connecting pipe 207 cooperate to convey the material to the mixing mechanism 1. The first three-way valve 201 and the second three-way valve 205 are both three-way valves. Three-way valves are existing components, and their specific structures and principles are existing technologies, which will not be described in detail in this application.

[0029] Furthermore, the second three-way valve 205 is also connected to a discharge pipe 206, which is used for discharging materials.

[0030] Furthermore, the mixing mechanism 1 includes a material cylinder 101, the bottom of which is conical, and the discharge end of the mixing mechanism 1 is located at the lowest point of the bottom of the material cylinder 101, so that the material in the material cylinder 101 can flow to the first connecting pipe 2.

[0031] Furthermore, the end of the third connecting pipe 207 away from the second three-way valve 205 is connected to the material cylinder 101, thereby enabling the third connecting pipe 207 to convey materials into the material cylinder 101.

[0032] Furthermore, a top cover 102 is provided on the top of the material cylinder 101, and the top cover 102 is connected to the material cylinder 101 by a number of bolts and nuts.

[0033] Furthermore, a stirring structure is provided between the top cover 102 and the material cylinder 101; the stirring structure includes a motor 103 installed on the top of the top cover 102, the output shaft of the motor 103 passes through the top cover 102 and is connected to a stirring shaft, the stirring shaft extends into the material cylinder 101, and the stirring shaft has multiple stirring blades, the motor 103 is used to drive the stirring shaft and stirring blades to rotate to stir the material in the material cylinder 101, the stirring shaft and stirring blades are existing components, and will not be described in detail in this application.

[0034] Furthermore, the top of the top cover 102 is provided with a threaded opening, and a sealing cap 104 is threadedly connected to the threaded opening. The sealing cap 104 is used to seal the threaded opening. During cleaning, the high-pressure spray gun can be inserted into the material cylinder 101 and the top cover 102 through the threaded opening for cleaning.

[0035] The mixing device for producing bio-petroleum additives provided by this utility model is used as follows:

[0036] Adjust the second three-way valve 205 to connect the third connecting pipe 207 to the auger conveyor 204, while disconnecting the discharge pipe 206 from the auger conveyor 204. Adjust the first three-way valve 201 to disconnect the first connecting pipe 2 from the auger conveyor 204, while connecting the second connecting pipe 202 to the auger conveyor 204. Start the auger conveyor 204 and add material to the hopper 203. The material enters the auger conveyor 204 through the hopper 203, the second connecting pipe 202, and the first three-way valve 201. The auger conveyor 204 transports the material to the cylinder 101 through the second three-way valve 205 and the third connecting pipe 207.

[0037] After feeding is completed, the first three-way valve 201 is adjusted to connect the first connecting pipe 2 to the auger conveyor 204, while the second connecting pipe 202 is disconnected from the auger conveyor 204. During the mixing process, the material flows out from the bottom discharge end of the material cylinder 101 after mixing, and re-enters the top of the material cylinder 101 through the first connecting pipe 2 → first three-way valve 201 → auger conveyor 204 → second three-way valve 205 → third connecting pipe 207, forming a circulating flow path and improving the mixing uniformity. During discharge, the second three-way valve 205 is adjusted to disconnect the third connecting pipe 207 from the auger conveyor 204, while the discharge pipe 206 is connected to the auger conveyor 204. The material in the material cylinder 101 enters the auger conveyor 204 through the first connecting pipe 2 and the first three-way valve 201, and then is discharged through the second three-way valve 205 and the discharge pipe 206.

[0038] In this utility model, unless otherwise explicitly specified and limited, the terms "installation," "connection," "joining," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection, an electrical connection, or a connection that allows communication between them; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components, unless otherwise explicitly limited. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.

[0039] Obviously, the embodiments described above are only some embodiments of this utility model, not all embodiments. The accompanying drawings show preferred embodiments of this utility model, but do not limit the patent scope of this utility model. This utility model can be implemented in many different forms; rather, the purpose of providing these embodiments is to provide a more thorough and comprehensive understanding of the disclosure of this utility model. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing specific embodiments, or make equivalent substitutions for some of the technical features. Any equivalent structures made using the content of this utility model specification and drawings, directly or indirectly applied to other related technical fields, are similarly within the patent protection scope of this utility model.

Claims

1. A mixing device for the production of bio-petroleum additives, characterized in that, The system includes a mixing mechanism (1), which has a discharge end and is connected to a first connecting pipe (2). The first connecting pipe (2) is connected to a first three-way valve (201). The other two ends of the first three-way valve (201) are respectively connected to a feeding component and an auger conveyor (204). The discharge end of the auger conveyor (204) is connected to a conveying component, and the conveying component is connected to the mixing mechanism (1).

2. The mixing device for producing bio-petroleum additives according to claim 1, characterized in that, The feeding component includes a second connecting pipe (202) connected to the first three-way valve (201), and the end of the second connecting pipe (202) away from the first three-way valve (201) is connected to a hopper (203).

3. The mixing device for producing bio-petroleum additives according to claim 1, characterized in that, The conveying component includes a second three-way valve (205), one end of which is connected to the discharge end of the auger conveyor (204). The second three-way valve (205) is also connected to a third connecting pipe (207), and the end of the third connecting pipe (207) away from the second three-way valve (205) is connected to the mixing mechanism (1).

4. The mixing device for producing bio-petroleum additives according to claim 3, characterized in that, The second three-way valve (205) is also connected to a discharge pipe (206), which is used for discharging materials.

5. The mixing apparatus for producing bio-petroleum additives according to claim 1, characterized in that, The mixing mechanism (1) includes a material cylinder (101), the bottom of which is cone-shaped, and the discharge end of the mixing mechanism (1) is located at the lowest point of the bottom of the material cylinder (101).

6. The mixing apparatus for producing bio-petroleum additives according to claim 3, characterized in that, The end of the third connecting pipe (207) away from the second three-way valve (205) is connected to the material cylinder (101).

7. The mixing apparatus for producing bio-petroleum additives according to claim 6, characterized in that, The top of the material cylinder (101) is provided with a top cover (102), and the top cover (102) is connected to the material cylinder (101) by a number of bolts and nuts.

8. The mixing apparatus for producing bio-petroleum additives according to claim 7, characterized in that, A stirring structure is provided between the top cover (102) and the material cylinder (101).

9. The mixing apparatus for producing bio-petroleum additives according to claim 8, characterized in that, The stirring structure includes a motor (103) installed on the top of the top cover (102), the output shaft of the motor (103) passing through the top cover (102) and connected to a stirring shaft, the stirring shaft extending into the material cylinder (101), and the stirring shaft having multiple stirring blades.

10. The mixing apparatus for producing bio-petroleum additives according to claim 9, characterized in that, The top of the top cover (102) is provided with a threaded opening, and a sealing cap (104) is threadedly connected to the threaded opening.