CN203710937U - Mixing machine for testing - Google Patents

Abstract

The utility model discloses a mixing machine for testing. The mixing machine comprises a bracket, wherein a rail platform is arranged at the upper end of the bracket, a motor is arranged on the rail platform, an output shaft of the motor downwards penetrates through the rail platform, and is connected with a main mixing rod, a main mixing rod is sleeved with a rotary rail with a plurality of annular preset rails, and the rotary rail is arranged on the lower bottom surface of the rail platform, and the main mixing rod and telescopic mixing rods downwards penetrate through a fixed platform through through holes in the fixed platform. According to the mixing machine for testing, the motor rotatably drives the main mixing rod and the rotary rail to do a constant-speed movement; through the telescopic mixing rods arranged on the rotary rail and a fixed flat plate, liquids in different depths can be fully mixed, the problems of no uniformity and insufficiency in mixing of an existing mixing machine are solved, and errors in an experiment result are reduced. In addition, the mixing machine has the advantages of simple structure, halved operation, high working efficiency and the like.

Description

A kind of test mixer

Technical field

The utility model belongs to agitating device technical field, is specifically related to a kind of test mixer.

Background technology

In laboratory experiment, agitating device is common device, is comparatively widely used in the fields such as coating, varnish, mortar are starched only, solution.Traditional stirring is main mainly with manual operation, so not only waste time and energy, and mixing effect is also undesirable, finally makes experimental result produce error.Certainly also there are some automatic stirring utensils, but from theoretical and in fact, all exist certain not enough, the stirring that can only move in a circle on same liquid level of the stirring flabellum of most of agitators, can not fully mix thoroughly, poor effect, makes experimental result produce unpredictalbe error, and can not meet some test requirement to temperature monitoring.

Utility model content

The purpose of this utility model is to solve above-mentioned the problems of the prior art, a kind of test mixer is provided, this mixer is easy and simple to handle, efficient work, temperature can be surveyed, and can solve in current test that the existing stirring of common mixing plant is uneven, the immesurable problem of temperature.

For achieving the above object, the technical scheme that the utility model adopts is: comprise support, the upper end of support is provided with orbital platform, and motor is installed on orbital platform; The output shaft of motor is passed down through orbital platform, is connected with main puddler on the output shaft of motor, the sheathed swing-around trajectory with some annular planned orbits on main puddler, and swing-around trajectory is installed on the bottom surface of orbital platform; The below of orbital platform is provided with fixed platform; Some scalable stirring rod are installed in fixed platform, and the upper end of scalable stirring rod is arranged at respectively in annular planned orbit corresponding in swing-around trajectory; Main puddler and scalable stirring rod are passed down through fixed platform by the through hole being opened in fixed platform.

Described swing-around trajectory is embedded on the bottom surface of orbital platform, and swing-around trajectory center is fixedly installed shaft coupling; The upper end of shaft coupling is connected with the output shaft of motor, and lower end is connected with main puddler.

Every annular planned orbit on described swing-around trajectory is draw-in groove shape, and the degree of depth of every annular planned orbit is even variation gradually, forms the continuous ramp that height alternately changes; The top of scalable stirring rod is stuck in corresponding annular planned orbit.

Part in described scalable stirring rod between swing-around trajectory and fixed platform is provided with spring, and the part that scalable stirring rod lower end is positioned at fixed platform below has been provided with the disk of auxiliary stirring action.

The number of described scalable stirring rod is eight, is evenly distributed on main puddler around.

The flabellum that the bottom of described main puddler is provided with temperature sense probe and plays stirring action.

Compared with prior art, the utlity model has following beneficial effect:

The utility model electric machine rotation drives main stirring rod and swing-around trajectory to move with uniform velocity, by being arranged on the scalable stirring rod on swing-around trajectory and fixed flat planar, can make the liquid of different depth be stirred fully, solve current existing mixer and stirred inhomogeneous, inadequate problem, reduced the error in experimental result.In addition, the utlity model has simple in structure, operation reduce by half, operating efficiency advantages of higher.

Further, the scalable stirring rod of the utility model can be slided along planned orbit automatically, every track is made as draw-in groove shape and the degree of depth and gradually changes and just produce on the whole certain slope, stirring rod will be squeezed and move down from low to high because of the gradient along with the rotation of track like this, with the gradient, move up from high to low and under springback effect again, the stirring rod of going round and beginning again produces the effect of upper and lower vibration, and the liquid of different depth can fully be stirred.

Further, the large flabellum of the main stirring rod of the utility model lower end can be positioned at container bottom makes to stir more abundant, and because the temperature that temp probe can Real-Time Monitoring be stirred thing is equipped with in main stirring rod lower end.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present utility model;

Fig. 2 is the structural representation of the scalable stirring rod of the utility model;

Fig. 3 is the top view of the utility model fixed platform;

Fig. 4 is the top view of the utility model swing-around trajectory.

Wherein, 1 is support; 2 is orbital platform; 3 is fixed platform; 4 is main puddler; 5 is motor; 6 is shaft coupling; 7 is flabellum; 8 is scalable stirring rod; 9 is spring; 10 is disk; 11 is swing-around trajectory.

The specific embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail

Referring to Fig. 1, the utility model comprises support 1, and the upper end of support 1 is provided with orbital platform 2, and motor 5 is installed on orbital platform 2; The output shaft of motor 5 is passed down through orbital platform 2, is connected with main puddler 4 on the output shaft of motor 5, the flabellum 7 that the bottom of main puddler 4 is provided with temperature sense probe and plays stirring action.The sheathed swing-around trajectory 11 with some annular planned orbits on main puddler 4, swing-around trajectory 11 is installed on the bottom surface of orbital platform 2; The below of orbital platform 2 is provided with fixed platform 3; Some scalable stirring rod 8 are installed in fixed platform 3, and the upper end of scalable stirring rod 8 is arranged at respectively in annular planned orbit corresponding in swing-around trajectory 11; As shown in Figure 3, main puddler 4 is passed down through fixed platform 3 with scalable stirring rod 8 by the through hole being opened in fixed platform 3.Swing-around trajectory 11 is embedded on the bottom surface of orbital platform 2, and swing-around trajectory 11 centers are fixedly installed shaft coupling 6; The upper end of shaft coupling 6 is connected with the output shaft of motor 5, and lower end is connected with main puddler 4.Every annular planned orbit on swing-around trajectory 11 is draw-in groove shape, and the degree of depth of every annular planned orbit is even variation gradually, forms the continuous ramp that height alternately changes; The top of scalable stirring rod 8 is stuck in corresponding annular planned orbit.The number of scalable stirring rod 8 is eight, is evenly distributed on main puddler 4 around.As shown in Figure 2, the part in scalable stirring rod 8 between swing-around trajectory 11 and fixed platform 3 is provided with spring 9, and the part that scalable stirring rod 8 lower ends are positioned at fixed platform 3 belows has been provided with the disk 10 of auxiliary stirring action.

Principle of the present utility model:

The utility model is mainly used in the stirring of solution and slurry.The uniform rotation under the driving of aggressive device motor of main stirring rod, stir, when liquid internal rotates with different linear velocities, the liquid level of different radii produces shearing each other, the scalable stirring rod that is now accompanied with roundel moves up and down, and destroys original step of liquid in the direction of motion, and the liquid of different depth is stirred up and down, the temperature sense of main stirring rod lower end probe monitoring temperature in real time also simultaneously, comprehensive function just reaches abundant stirring and the real-time object of monitoring like this.

The utility model motor 5 is positioned at the top of mixer integral support 1 as aggressive device, main puddler 4 is connected with motor 5 by shaft coupling 6 with swing-around trajectory 11, main stirring rod is equipped with temperature sense probe and is fixedly connected with large flabellum 7 on top, and scalable stirring rod is uniformly distributed and can slides along the swing-around trajectory 11 on orbital platform 2; Scalable stirring rod one end is with spring 9, and spring 9 is as scalable stirring rod flexible bounce-back and buffer unit up and down.Referring to Fig. 2, in fixed platform 3, by certain rule, be uniform-distribution with scalable stirring rod, the whole fixation holes through platform of scalable stirring rod also can move by easy on and off; On swing-around trajectory 11, adjoin the groove shape circular orbit that distributing, each track degree of depth even variation forms certain gradient, and the gradient changes from high to low more from low to high continuously.

During running, motor 5 rotates and drives main puddler 4 and swing-around trajectory 11 to move with uniform velocity, now scalable stirring rod is slided along planned orbit automatically, because every track is made as draw-in groove shape and the degree of depth and gradually changes and produce on the whole the height continually varying gradient, stirring rod will move up because of the height of the gradient under the acting in conjunction of track and spring 9 like this; The flabellum 7 of main puddler 4 is positioned at container bottom and fully stirs, and monitors real time temperature by temp probe.

Above content is only explanation technological thought of the present utility model; can not limit protection domain of the present utility model with this; every technological thought according to the utility model proposes, any change of doing on technical scheme basis, within all falling into the protection domain of the utility model claims.

Claims (6)

1. a test mixer, is characterized in that: comprise support (1), the upper end of support (1) is provided with orbital platform (2), and motor (5) is installed on orbital platform (2); The output shaft of motor (5) is passed down through orbital platform (2), on the output shaft of motor (5), be connected with main puddler (4), the upper sheathed swing-around trajectory (11) with some annular planned orbits of main puddler (4), swing-around trajectory (11) is installed on the bottom surface of orbital platform (2); The below of orbital platform (2) is provided with fixed platform (3); Some scalable stirring rod (8) are installed in fixed platform (3), and the upper end of scalable stirring rod (8) is arranged at respectively in annular planned orbit corresponding in swing-around trajectory (11); Main puddler (4) is passed down through fixed platform (3) with scalable stirring rod (8) by the through hole being opened in fixed platform (3).

2. test mixer according to claim 1, is characterized in that: described swing-around trajectory (11) is embedded on the bottom surface of orbital platform (2), and swing-around trajectory (11) center is fixedly installed shaft coupling (6); The upper end of shaft coupling (6) is connected with the output shaft of motor (5), and lower end is connected with main puddler (4).

3. test mixer according to claim 2, it is characterized in that: every annular planned orbit on described swing-around trajectory (11) is draw-in groove shape, the degree of depth of every annular planned orbit is even variation gradually, forms the continuous ramp that height alternately changes; The top of scalable stirring rod (8) is stuck in corresponding annular planned orbit.

4. test mixer according to claim 3, it is characterized in that: the part being positioned in described scalable stirring rod (8) between swing-around trajectory (11) and fixed platform (3) is provided with spring (9), the part that scalable stirring rod (8) lower end is positioned at fixed platform (3) below has been provided with the disk (10) of auxiliary stirring action.

5. test mixer according to claim 4, is characterized in that: the number of described scalable stirring rod (8) is eight, is evenly distributed on main puddler (4) around.

6. according to the test mixer described in claim 1,2 or 5, it is characterized in that: the flabellum (7) that the bottom of described main puddler (4) is provided with temperature sense probe and plays stirring action.