Anti-adhesion and temperature-controllable gold ore material stirring mixer
The gold mineral material mixing machine, designed with a combination of vibration and temperature control, solves the problem of material adhesion and achieves efficient and uniform mixing, making it suitable for gold mineral material processing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XIANGYUN GOLD IND
- Filing Date
- 2025-03-28
- Publication Date
- 2026-06-19
AI Technical Summary
Existing gold mineral material mixers suffer from material adhesion due to static electricity or other factors during the mixing process, which reduces mixing efficiency and quality.
It adopts a combination design of vibration mechanism and mixing mechanism, including support frame, rotating disk, ball bearings, connecting rod, spring, etc. The support rod vibrates through eccentric setting and the action of spring, reducing the friction between material particles. At the same time, it is equipped with temperature sensor and fan for temperature control to ensure that the material is mixed in the best condition.
It effectively prevents material adhesion, improves mixing efficiency and quality, maintains material flowability, and ensures uniform and consistent mixing.
Smart Images

Figure CN224371250U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of gold mineral processing technology, specifically to a gold mineral mixing machine that is anti-sticking and temperature-controlled. Background Technology
[0002] For example, a mixing machine with patent publication number CN219114468U includes a mixing tank. A support ring is provided on the outside of the mixing tank, and movable plates are provided on both sides of the support ring. Fixed blocks are provided at both ends of the movable plates. Limiting grooves are formed inside the fixed blocks, and corresponding limiting blocks are provided on the movable plates at the limiting grooves. The limiting blocks and limiting grooves are slidably connected. A first shock absorber is provided at the bottom of the movable plate and installed at the bottom of the limiting groove. A support block is provided below the fixed blocks, and a movable groove is formed at the top of the support block. The fixed blocks are slidably connected to the bottom of the movable groove. A buffer assembly is provided on one side of the fixed block and installed on the inner wall of the movable groove. This prevents the device from becoming unstable due to collisions, tipping over, interfering with the mixing process, or injuring workers.
[0003] However, during the use of the above-mentioned equipment, due to the internal mixing tank, the adhesion of materials during the mixing process caused by static electricity or other factors reduces the mixing efficiency and quality. Therefore, we propose a more convenient and practical mixer to meet the usage requirements. Utility Model Content
[0004] The purpose of this invention is to provide a non-stick, temperature-controlled gold mineral material mixing machine to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a non-sticking, temperature-controlled gold mineral material mixing machine, comprising a counterweight base, a vibration mechanism provided on one side of the top of the counterweight base for vibrating the material to prevent sticking, the vibration mechanism comprising a support frame connected to the counterweight base, a rotating disk rotatably connected to one side of the top of the support frame, a ball bearing rolledly connected to one side of the rotating disk, a connecting rod eccentrically fixedly connected to one side of the ball bearing, a connecting ring fixedly connected to one end of the connecting rod, a support rod fixedly connected to the inner wall of the connecting ring, the support rod passing through the support frame and slidably connected to the support frame, a driving assembly provided on the other side of the support frame, and a mixing mechanism provided on one side of the support rod for mixing the material.
[0006] Furthermore, a spring is installed on the outer wall of the support rod, with one end of the spring in contact with the support frame and the other end in contact with the connecting ring.
[0007] Furthermore, the drive assembly includes a driven wheel connected to a rotating disk. A mounting bracket is provided at the bottom of the driven wheel and connected to a support frame. A drive wheel is rotatably connected to one side of the mounting bracket, and a belt is installed between the drive wheel and the driven wheel.
[0008] Furthermore, the mixing mechanism includes a fixed frame connected to a support rod. A mixing tank is fixedly connected to one side of the fixed frame, and a through hole is opened on one side of the mixing tank. A connecting shaft is rotatably connected inside the through hole, and a stirring plate is fixedly connected to the outer wall of the connecting shaft.
[0009] Furthermore, a through hole is provided on one side of the top of the mixing tank, and a feed pipe is fixedly connected inside the through hole, with a cap screwed to one end of the feed pipe.
[0010] Furthermore, a fixed frame is fixedly connected to one side of the mixing tank, and temperature sensors are installed on both sides of the top of the fixed frame. Through holes are opened on both sides of the top of the fixed frame, and fans are installed in the through holes.
[0011] Compared with the prior art, the beneficial effects of this utility model are:
[0012] This anti-sticking, temperature-controlled gold mineral material mixing machine, through the setting of a vibration mechanism and a mixing mechanism, firstly, the motor mounted on the mounting frame drives the drive wheel to rotate, which in turn drives the driven wheel to rotate via a belt, causing the rotating disc to rotate. The rotating disc drives the connecting rod and the fixed ring to move through the ball bearings, causing the support rod to move and rotate left and right along the support frame under the action of the spring, generating vibration, which in turn drives the mixing mechanism to vibrate. This device effectively reduces the friction between material particles and prevents the material from sticking together during the mixing process due to static electricity or other factors, thereby maintaining the fluidity of the material, improving mixing efficiency and quality, and is highly practical and suitable for widespread application.
[0013] Meanwhile, the mixing mechanism can be used in conjunction with a temperature control system to ensure that materials are mixed in optimal condition. Attached Figure Description
[0014] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0015] Figure 2 This is a schematic diagram of the vibration mechanism structure of this utility model;
[0016] Figure 3 This is a cross-sectional view of the hybrid mechanism of this utility model.
[0017] In the diagram: 1. Counterweight base; 2. Vibration mechanism; 201. Support frame; 202. Rotary disk; 203. Ball bearing; 204. Connecting rod; 205. Connecting ring; 206. Support rod; 207. Spring; 208. Driven wheel; 209. Mounting bracket; 210. Drive wheel; 211. Belt; 3. Mixing mechanism; 301. Fixing frame; 302. Mixing tank; 303. Connecting shaft; 304. Stirring plate; 305. Feed pipe; 306. Cap; 307. Fixing frame; 308. Temperature sensor; 309. Fan. Detailed Implementation
[0018] The technical solutions of the present utility model 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 utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0019] In the processing of gold mineral materials, a mixer is required. The mixer provided by this utility model is specifically designed for material mixing operations in the gold mineral material processing process. During the mixing operation using this equipment, the mixer needs to be cleaned regularly to prevent material residue from causing pollution. After each use, the mixing tank 302 and the agitator must be thoroughly cleaned. During the mixing process, the material temperature should be monitored regularly to ensure that it is within the set range. According to the different material characteristics, the frequency and amplitude of the vibration mechanism 2 should be adjusted appropriately to achieve the best anti-sticking effect and mixing efficiency.
[0020] like Figures 1-3 As shown, this utility model provides a technical solution: a non-sticking, temperature-controlled gold mineral material mixing machine, including a counterweight base 1, a vibration mechanism 2 is provided on one side of the top of the counterweight base 1 for vibrating the material to prevent sticking, the vibration mechanism 2 includes a support frame 201, the support frame 201 is connected to the counterweight base 1, a rotating disk 202 is rotatably connected to one side of the top of the support frame 201, a ball bearing 203 is rolledly connected to one side of the rotating disk 202, a connecting rod 204 is eccentrically fixed to one side of the ball bearing 203, a connecting ring 205 is fixedly connected to one end of the connecting rod 204, a support rod 206 is fixedly connected to the inner wall of the connecting ring 205, the support rod 206 passes through the support frame 201 and is slidably connected to the support frame 201, a drive assembly is provided on the other side of the support frame 201, and a mixing mechanism 3 is provided on one side of the support rod 206 for mixing the material.
[0021] like Figure 2As shown, a spring 207 is installed on the outer wall of the support rod 206. One end of the spring 207 is in contact with the support frame 201, and the other end is in contact with the connecting ring 205. The drive assembly includes a driven wheel 208, which is connected to the rotating disk 202. A mounting bracket 209 is provided at the bottom of the driven wheel 208, which is connected to the support frame 201. A drive wheel 210 is rotatably connected to one side of the mounting bracket 209, and a belt 211 is installed between the drive wheel 210 and the driven wheel 208.
[0022] It should be noted that during use, the motor installed on the mounting frame 209 first drives the drive wheel 210 to rotate, and through the belt 211 drives the driven wheel 208 to rotate, causing the rotating disk 202 to rotate. The rotating disk 202 drives the connecting rod 204 and the connecting ring 205 to move through the ball bearings 203. The ball bearings 203 are eccentrically positioned with respect to the rotating disk 202, causing the support rod 206 to move and rotate left and right along the support frame 201 under the action of the spring 207, generating vibration, which in turn drives the mixing mechanism 3 to vibrate. The vibration mechanism 2 causes the material to move continuously within the mixing tank 302, which helps to fully mix different components or particles, improves the uniformity and consistency of the mixing, and ensures the quality of the final product.
[0023] like Figure 3 As shown, the mixing mechanism 3 includes a fixed frame 301, which is connected to a support rod 206. A mixing tank 302 is fixedly connected to one side of the fixed frame 301. A through hole is opened on one side of the mixing tank 302, and a connecting shaft 303 is rotatably connected in the through hole. A stirring plate 304 is fixedly connected to the outer wall of the connecting shaft 303. A through hole is opened on one side of the top of the mixing tank 302, and a feed pipe 305 is fixedly connected in the through hole. A cap 306 is screwed to one end of the feed pipe 305. A fixed frame 307 is fixedly connected to one side of the mixing tank 302. Temperature sensors 308 are installed on both sides of the top of the fixed frame 307. A fan 309 is installed in the through hole on both sides of the top of the fixed frame 307.
[0024] It should be noted that during use, the fixing frame 301 and the support rod 206 are first connected by the connector. Then, the material is added into the mixing tank 302 through the feed pipe 305 and sealed by the cap 306. Then, the vibration mechanism 2 vibrates, and the motor drives the connecting shaft 303 to rotate, causing the stirring plate 304 to rotate to mix the materials. The temperature sensor 308 monitors the temperature inside the mixing tank 302. When the temperature inside the mixing tank 302 is high, the fan 309 on the fixing frame 307 is activated to cool the mixing tank 302. The mixing mechanism 3 can be used in conjunction with the temperature control system to ensure that the materials are mixed in the best condition.
[0025] During use, the fixing frame 301 and the support rod 206 are connected by a connector. Simultaneously, material is added to the mixing tank 302 through the feed pipe 305 and sealed by the cap 306. Then, a motor mounted on the mounting frame 209 drives the drive wheel 210 to rotate, which in turn drives the driven wheel 208 to rotate via a belt 211, causing the rotating disk 202 to rotate. The rotating disk 202, through ball bearings 203, drives the connecting rod 204 and the connecting ring 205 to move. The ball bearings 203 are eccentrically positioned relative to the rotating disk 202, causing the support rod 206 to move under the action of the spring 207. The lower part moves and rotates along the support frame 201, generating vibration. During this process, the motor drives the connecting shaft 303 to rotate, causing the stirring plate 304 to rotate and mix the materials. The temperature sensor 308 monitors the temperature inside the mixing tank 302. When the temperature inside the mixing tank 302 is high, the fan 309 on the fixed frame 307 starts to cool the mixing tank 302. This device effectively reduces the friction between material particles and prevents the material from adhering due to static electricity or other factors during the stirring process, thereby maintaining the fluidity of the material and improving mixing efficiency and quality.
[0026] 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 embodiments and their equivalents.
Claims
1. An anti-adhesion, temperature-controllable gold ore material mixing machine comprising a counterweight base (1), characterized in that: The counterweight base (1) is provided with a vibration mechanism (2) on one side of the top, which is used to vibrate the material to prevent it from sticking. The vibration mechanism (2) includes a support frame (201), which is connected to the counterweight base (1). A rotating disk (202) is rotatably connected to one side of the top of the support frame (201). A ball bearing (203) is rolled on one side of the rotating disk (202). A connecting rod (204) is eccentrically fixed to one side of the ball bearing (203). A connecting ring (205) is fixedly connected to one end of the connecting rod (204). A support rod (206) is fixedly connected to the inner wall of the connecting ring (205). The support rod (206) passes through the support frame (201) and is slidably connected to the support frame (201). A drive assembly is provided on the other side of the support frame (201). A mixing mechanism (3) is provided on one side of the support rod (206) for mixing materials.
2. The anti-adhesion, temperature-controllable gold ore material stirring mixer according to claim 1, characterized in that: A spring (207) is installed on the outer wall of the support rod (206). One end of the spring (207) is in contact with the support frame (201), and the other end is in contact with the connecting ring (205).
3. The anti-adhesion, temperature-controllable gold ore material mixing machine according to claim 1, characterized in that: The drive assembly includes a driven wheel (208) connected to a rotating disk (202). A mounting bracket (209) is provided at the bottom of the driven wheel (208). The mounting bracket (209) is connected to a support frame (201). A drive wheel (210) is rotatably connected to one side of the mounting bracket (209). A belt (211) is installed between the drive wheel (210) and the driven wheel (208).
4. The anti-sticking, temperature-controlled gold mineral material mixing machine according to claim 1, characterized in that: The mixing mechanism (3) includes a fixed frame (301), which is connected to a support rod (206). A mixing tank (302) is fixedly connected to one side of the fixed frame (301), and a through hole is opened on one side of the mixing tank (302). A connecting shaft (303) is rotatably connected in the through hole, and a stirring plate (304) is fixedly connected to the outer wall of the connecting shaft (303).
5. The anti-sticking, temperature-controlled gold mineral material mixing machine according to claim 4, characterized in that: The mixing tank (302) has a through hole on one side of the top, and a feed pipe (305) is fixedly connected in the through hole. A cap (306) is screwed to one end of the feed pipe (305).
6. The anti-sticking, temperature-controlled gold mineral material mixing machine according to claim 4, characterized in that: A fixed frame (307) is fixedly connected to one side of the mixing tank (302). Temperature sensors (308) are installed on both sides of the top of the fixed frame (307). Through holes are opened on both sides of the top of the fixed frame (307), and a fan (309) is installed in the through holes.