Multifunctional high-speed mixer

Abstract

The utility model relates to high -speed mixing machine technical field, and disclose a kind of multifunctional high-speed mixing machine, including base, power system, water passing through electric device and water chiller, the top of base is fixedly installed with rack. The multifunctional high-speed mixing machine, by high-speed rotating blade to the raw material inside loading barrel is carried out high-speed stirring, simultaneously by power system driving support shaft is rotated, support shaft is driven loading barrel along support shaft revolves by mounting seat board, so that the raw material inside loading barrel will not produce stratification in the process of mixing, improve the effect and the rate of mixing, in the process of revolving mixing of loading barrel, the interlayer in loading barrel is watered, loading barrel is cooled by circulating water flow, so that the high-speed rotating blade of high-speed rotary cutting is rotated in the process, will not cause and raw material friction accumulation high temperature to cause material denaturation.

Description

Technical Field

[0001] This utility model relates to the field of high-speed mixer technology, specifically a multi-functional high-speed mixer. Background Technology

[0002] Mixers are widely used in plastics, chemicals, food, and other fields, and are suitable for multiphase systems such as solid-liquid and powder-liquid mixtures. Structurally, they include mixing tanks, rotating blades, and transmission systems. High-speed mixers operate on the principle of centrifugal force and swirling motion, achieving mixing speeds more than twice that of traditional equipment. They also offer high uniformity and reduce stratification or clumping. However, conventional mixing equipment, due to its high stirring speed, can easily generate high temperatures from friction within the raw materials, leading to material deformation. Furthermore, the fixed mixing tanks in conventional equipment require cleaning before use when changing raw materials, causing inconvenience. Additionally, the use of only rotating blades for stirring results in low mixing efficiency and poor mixing effects. Utility Model Content

[0003] (a) Technical problems to be solved

[0004] To address the shortcomings of existing technologies, this utility model provides a multi-functional high-speed mixer that solves the problems of high temperature during the mixing process, poor mixing effect, and inconvenience in mixing different raw materials.

[0005] (II) Technical Solution

[0006] To achieve the above objectives, this utility model provides the following technical solution: a multi-functional high-speed mixer, comprising a base, a power system, a water and electricity conveying device, and a chiller. A frame is fixedly installed on the top of the base. A support shaft is rotatably mounted on the top of the frame via a bearing seat. The water and electricity conveying device is bolted to the right end of the support shaft. A power system for driving the support shaft to rotate is fixedly installed on the top of the base and located on the right side of the frame. A mounting plate is fixedly installed on the left end of the support shaft. A high-speed rotating motor is fixedly installed on the bottom of the mounting plate. A loading bin is fixedly installed on the top of the mounting plate via a locking buckle. A high-speed rotating blade is bolted to the bottom inner wall of the loading bin. The output end of the high-speed rotating motor passes through the mounting plate and is inserted into the high-speed rotating blade. The chiller is connected to the loading bin via a pipe for circulating water cooling.

[0007] Preferably, a temperature sensor is fixedly installed on the outer wall of the filling barrel, and the probe of the temperature sensor extends into the interior of the filling barrel.

[0008] Preferably, the filling barrel has an internal interlayer, a water inlet is installed on the bottom surface of the filling barrel, and a water return port is installed on the top surface of the filling barrel.

[0009] Preferably, the outlet of the chiller is connected to the inlet of the loading tank through the cooperation of a first inlet pipe, a water-passing and electrical-passing device, and a second inlet pipe, and the return outlet of the chiller is connected to the return outlet of the loading tank through the cooperation of a first return pipe, a water-passing and electrical-passing device, and a second return pipe.

[0010] Preferably, the left and right ends of the water-passing and power-passing device can rotate relative to each other. The right end of the water-passing and power-passing device does not rotate when in operation, while the left end of the water-passing and power-passing device rotates synchronously under the drive of the support shaft. The power supply line is connected to the right end of the water-passing and power-passing device, which supplies power to the high-speed rotating motor in the rotating state and supplies water to the loading bucket in the rotating state.

[0011] Preferably, the outer surface of the support shaft has two grooves, through which the second inlet pipe and the second return pipe are installed inside the support shaft and pass through the bearing seat.

[0012] Compared with the prior art, this utility model provides a multi-functional high-speed mixer with the following advantages:

[0013] 1. This multi-functional high-speed mixer uses a high-speed rotating motor to drive high-speed rotating blades to rotate at high speed. The high-speed rotating blades stir the raw materials inside the loading tank at high speed. At the same time, the power system drives the support shaft to rotate. The support shaft drives the loading tank to revolve around the support shaft through the mounting plate. This prevents the raw materials inside the loading tank from stratifying during the mixing process, thus improving the mixing effect and mixing speed.

[0014] 2. This multi-functional high-speed mixer, through the cooperation of a water and electricity device, a chiller, a first water inlet pipe, a second water inlet pipe, a first water return pipe, and a second water return pipe, injects water into the inner jacket of the loading barrel during the revolving mixing process. The loading barrel is cooled by the circulating water flow, so that the high-speed rotary cutting blades will not accumulate high temperature due to friction with the raw materials during the rotation process, which would cause the materials to deform.

[0015] 3. This multi-functional high-speed mixer uses a locking mechanism between the mounting plate and the loading hopper. When mixing different raw materials, the locking mechanism can be quickly released to replace the loading hopper, eliminating the need for frequent cleaning of the loading hopper and facilitating the mixing of different raw materials, thus improving ease of use. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the structure of this utility model;

[0017] Figure 2 This is a schematic diagram of the rear structure of this utility model;

[0018] Figure 3 This is a front view of the structure of this utility model;

[0019] Figure 4 This is a side view of the structure of this utility model;

[0020] Figure 5 This utility model Figure 4 Sectional view at point AA.

[0021] The components include: 1. Base; 2. Frame; 3. Bearing seat; 4. Support shaft; 5. Mounting plate; 51. Fixing lock; 6. High-speed rotating motor; 61. High-speed rotating blade; 7. Loading hopper; 71. Temperature sensor; 8. Power system; 9. Water and electricity passing device; 91. First water inlet pipe; 92. Second water inlet pipe; 93. First return water pipe; 94. Second return water pipe; 10. Chiller. Detailed Implementation

[0022] 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.

[0023] Please see Figure 1-5This utility model provides a multi-functional high-speed mixer, including a base 1, a power system 8, a water-passing and electrical-passing device 9, and a chiller 10. A frame 2 is fixedly installed on the top of the base 1. A support shaft 4 is rotatably installed on the top of the frame 2 via a bearing seat 3. The water-passing and electrical-passing device 9 is bolted to the right end of the support shaft 4. A conductive slip ring is installed inside the water-passing and electrical-passing device 9. The conductive slip ring ensures stable power supply when the left end of the water-passing and electrical-passing device 9 rotates. The power system 8, which drives the support shaft 4 to rotate, is fixedly installed on the top of the base 1 and located on the right side of the frame 2. The output end of the power system 8 drives the support shaft 4 to rotate through the cooperation of the belt and pulley. The left end of the support shaft 4 is fixedly installed with the mounting plate 5. The bottom of the mounting plate 5 is fixedly installed with the high-speed rotating motor 6. The top of the mounting plate 5 is fixedly installed with the loading barrel 7 through the fixing buckle 51. The bottom inner wall of the loading barrel 7 is bolted with the high-speed rotating blade 61. The output end of the high-speed rotating motor 6 passes through the mounting plate 5 and is inserted into the high-speed rotating blade 61. The insertion method facilitates the replacement and installation of the loading barrel 7. The chiller 10 is connected to the loading barrel 7 through the pipeline for circulating water cooling.

[0024] Furthermore, a temperature sensor 71 is fixedly installed on the outer wall of the filling barrel 7. The probe of the temperature sensor 71 extends into the interior of the filling barrel 7. The temperature sensor 71 detects the temperature inside the filling barrel 7 during the stirring and mixing process, and then controls the chiller 10 to cool down as needed.

[0025] Furthermore, the filling barrel 7 has an internal jacket. A water inlet is installed on the bottom surface of the filling barrel 7, and a water return outlet is installed on the top surface of the filling barrel 7. Water is injected into the jacket through the water inlet to cool the filling barrel 7, and then discharged through the water return outlet.

[0026] Furthermore, the outlet of the chiller 10 is connected to the inlet of the loading tank 7 via a first inlet pipe 91, a water-electric device 9, and a second inlet pipe 92. The return outlet of the chiller 10 is connected to the return outlet of the loading tank 7 via a first return pipe 93, a water-electric device 9, and a second return pipe 94. The water-electric device 9 is equipped with a fluid rotary joint, which allows water supply to be maintained when the left and right ends of the water-electric device 9 rotate relative to each other. The outlet of the chiller 10 is connected to the water-electric device 9 via the first inlet pipe 91. Then, the water-electric device 9 and the loading tank 7... The inlets of the first water inlet 91 and the second water inlet 92 are connected to the inlet of the loading tank 7. The return water inlet of the chiller 10 is connected to the water-passing and electrical-passing device 9 through the first return water pipe 93. Then, the water-passing and electrical-passing device 9 is connected to the return water inlet of the loading tank 7 through the second return water pipe 94. The first return water pipe 93, the second return water pipe 94 and the return water inlet of the loading tank 7 are connected. The first water inlet pipe 91 and the first return water pipe 93 are rigid pipes. The right end of the water-passing and electrical-passing device 9 is supported and fixed by the cooperation of the first water inlet pipe 91 and the first return water pipe 93.

[0027] Furthermore, the left and right ends of the water-passing and electrical-passing device 9 can rotate relative to each other. The right end of the water-passing and electrical-passing device 9 does not rotate when in operation, while the left end of the water-passing and electrical-passing device 9 rotates synchronously under the drive of the support shaft 4. During the rotation, power is supplied through the conductive slip ring, and the power supply line is connected to the right end of the water-passing and electrical-passing device 9. The water-passing and electrical-passing device 9 supplies power to the high-speed rotating motor 6 in the rotating state and supplies water to the loading bucket 7 in the rotating state.

[0028] Furthermore, two grooves are provided on the outer surface of the support shaft 4. The second water inlet pipe 92 and the second water return pipe 94 are installed inside the support shaft 4 through the grooves and pass through the bearing seat 3, so that the second water inlet pipe 92 and the second water return pipe 94 can rotate with the support shaft 4 without getting stuck.

[0029] In use, the high-speed rotary motor 6 is started, which drives the high-speed rotating blades 61 to rotate. The high-speed rotating blades 61 agitate the raw materials inside the loading hopper 7. Simultaneously, the power system 8 is started, which drives the support shaft 4 to rotate. The support shaft 4 drives the mounting plate 5 to rotate, and the mounting plate 5 drives the loading hopper 7 to revolve. This allows the loading hopper 7 to tumble along the outside of the mounting plate 5 while being agitated by the high-speed rotating blades 61 inside. This prevents sedimentation and stratification of the raw materials inside the loading hopper 7 during agitation, improving the uniformity of agitation and the mixing effect. At the same time, the chiller 10 supplies cold water through the first return water pipe 9. 3. Cold water is injected into the water-passing and electrical-passing device 9 through the fluid rotary joint inside the water-passing and electrical-passing device 9 into the second water inlet pipe 92. Then, the cold water is injected into the jacket inside the loading tank 7 through the second water inlet pipe 92 and the water inlet to cool the raw materials inside the loading tank 7. The cooled water flows into the second return water pipe 94 through the return water inlet. The water in the second return water pipe 94 finally enters the first water inlet pipe 91 through the fluid rotary joint inside the water-passing and electrical-passing device 9, and finally flows back into the chiller 10. During the stirring process, the temperature inside the loading tank 7 is detected by the temperature sensor 71. The cooling power of the chiller 10 can be adjusted according to the temperature detected by the temperature sensor 71.

[0030] 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 multi-functional high-speed mixer, comprising a base (1), a power system (8), a water and electricity conveying device (9), and a chiller (10), characterized in that: A frame (2) is fixedly installed on the top of the base (1). A support shaft (4) is rotatably installed on the top of the frame (2) via a bearing seat (3). A water and electricity device (9) is installed on the right end of the support shaft (4) via bolts. A power system (8) for driving the support shaft (4) to rotate is fixedly installed on the top of the base (1) and on the right side of the frame (2). A mounting plate (5) is fixedly installed on the left end of the support shaft (4). A high-speed rotating motor (6) is fixedly installed on the bottom of the mounting plate (5). A loading bucket (7) is fixedly installed on the top of the mounting plate (5) via a fixing buckle (51). A high-speed rotating blade (61) is installed on the bottom inner wall of the loading bucket (7) via bolts. The output end of the high-speed rotating motor (6) passes through the mounting plate (5) and is inserted into the high-speed rotating blade (61). The chiller (10) is connected to the loading bucket (7) via a pipe for circulating water cooling.

2. The multi-functional high-speed mixer according to claim 1, characterized in that: A temperature sensor (71) is fixedly installed on the outer wall of the filling barrel (7), and the probe part of the temperature sensor (71) extends into the interior of the filling barrel (7).

3. The multi-functional high-speed mixer according to claim 1, characterized in that: The filling barrel (7) has an internal interlayer, and a water inlet is installed on the bottom surface of the filling barrel (7), while a water return outlet is installed on the top surface of the filling barrel (7).

4. The multi-functional high-speed mixer according to claim 1, characterized in that: The outlet of the chiller (10) is connected to the inlet of the loading tank (7) through the cooperation of the first inlet pipe (91), the water-passing and power-passing device (9) and the second inlet pipe (92). The return port of the chiller (10) is connected to the return port of the loading tank (7) through the cooperation of the first return pipe (93), the water-passing and power-passing device (9) and the second return pipe (94).

5. A multi-functional high-speed mixer according to claim 4, characterized in that: The left and right ends of the water-passing and power-passing device (9) can rotate relative to each other. The right end of the water-passing and power-passing device (9) does not rotate when it is in operation. The left end of the water-passing and power-passing device (9) rotates synchronously under the drive of the support shaft (4). The power supply line is connected to the right end of the water-passing and power-passing device (9). The water-passing and power-passing device (9) supplies power to the high-speed rotating motor (6) in the rotating state and supplies water to the loading bucket (7) in the rotating state.

6. A multi-functional high-speed mixer according to claim 4, characterized in that: Two grooves are provided on the outer surface of the support shaft (4), and the second water inlet pipe (92) and the second water return pipe (94) are installed inside the support shaft (4) through the grooves and pass through the bearing seat (3).

Images