KR860002012B1 - Apparatus mixer - Google Patents

Abstract

A impeller(5) is establishd in the mixing tank(1). A driving device drives the shaft(9) of the impeller. The mixing tank is assembled with the stand(2) by crank assemblies. A crank assembly is composed of a shaft(6), an eccentric shaft, and a lever(10). The shaft(6) is attached on the stand(2) and the eccentric shaft is assembled with the tank(1). The lever(10) connects the two shafts. A wheel(11) is assembled with one of the shafts(6) and connected to the driving wheel of the motor(13) by a belt(14).

Description

Mixing device

As the drawings show embodiments of the invention.

1 is a plan view of the impeller (excluding the drive shaft).

2 is a partial cross-sectional front view.

3 to 4 are explanatory views showing other embodiments.

* Explanation of symbols for main parts of the drawings

(1): mixing tank (2): mount

(4): bottom wall (5): impeller

(6): vertical axis (7): eccentric shaft

(8): drive device (10): lever

The present invention relates to a mixing device for mixing particles, in particular, a mixing device for installing a mixing tank on a mount, and charging and mixing a mixture to be mixed with different kinds of mixing bodies in the tank.

Conventionally, such a mixing apparatus is known to stir and mix a mixture of heterogeneous particles by installing an impeller rotating in the mixing tank and rotating the impeller.

However, according to this apparatus, it is necessary to stir the mixture in which the impeller is placed at a high density below a predetermined distance from the surface of the mixture in the mixing tank, so that the driving torque of the impeller is set to a large value suitable for the density. Therefore, the driving capacity for driving the impeller is large, the driving cost is high, and a large driving device is required, thereby increasing the production cost.

Therefore, the present invention has been invented to solve the above problems, and an object of the present invention is to provide a compacted mixture of heterogeneous particles in a mixing tank, and to drive the drive torque for stirring by impeller. It is to provide a mixing device that can be reduced and the driving capacity is small and the operating cost can be low.

That is, the present invention is a mixing device in which the mixing body is mixed in the mixing tank disposed on the target object, and the mixing impeller for rotating the material is installed in the mixing tank while the mixing tank is pivotally rotatable. It is characterized in that the support is connected to the driving device.

Hereinafter, the mixing apparatus according to the present invention will be described with reference to the accompanying drawings.

In the drawing, (1) shows the lower part of the opening for placing the electric mixture into the upper portion of the main mixing tank for charging and mixing the mixture to be placed on the mount 2 and combining different kinds of particles. Has an opening and closing lid 3 for closing the outlet 1a and the outlet 1a.

Therefore, in the mixing apparatus constituted as described above, the mixing impeller 5 is installed in the electric mixing tank 1 electronically, and the granular shaft 6, the eccentric shaft 7, and the lever 10 are provided. By the plurality of cranks, the mixing tank 1 is supported on the temporary object and one granular shaft 6 is connected to the driving device 8.

That is, in the mixing tank 1, the impeller 5 is arranged to rotate in the horizontal direction, and the driving shaft 9 is installed upward with the impeller 5 in the mixing tank 1. Although not shown, the driver having the drive shaft 9 is fixed above the mixing tank 1 in a linkage with the tank 1.

Then, three sets of eccentric shafts 6 are installed on the mount 2 and three sets of eccentric shafts with respect to the vertical shafts 6 are provided in the mixing tank 1, respectively. ) And a driven vehicle 11 connected to one of the three shafts 6 by one of the three shafts 6, while driving a vehicle (1) on one axis of the mount 2. A motor 13 having 12 is installed and a belt 14 is installed between the driven vehicle 11 and the driving vehicle 12.

In addition, (15) is a guide tube at the time of withdrawal after mixing the mixture. In the above structure, when mixing the to-be-mixed body mixed in the mixing tank 1, while driving the motor 13 of the drive apparatus 8, the drive shaft 9 is driven and the impeller 5 is rotated. In this way, the mixing tank 1 is pivoted on the mount 2 by the power of the drive device 8, so that the mixture to be mixed in the mixing tank 1 depends on the inner wall surface of the mixing tank 1. The rotational force which rotates in the same direction as the turning direction acts and is brought into the state drawn by the inner wall surface axis of the mixing tank 1 by the centrifugal force by the rotation.

Then, in this state, the impeller 5 is driven so that the mixture is agitated and falls from the impeller 5 to the lower center and pulled toward the inner wall surface side of the mixing tank 1 by the re-dimensional core force. It is. In this way, the mixture is pulled in the mixing tank 1 in the direction of the inner wall, and is floated along the inner wall, so that the mixture is reduced in density compared with the conventional one in which the swing motion cannot be performed.

Thus, when comparing the rotational speed of the impeller 5 with the conventional example having a high density of the mixture, the driving torque of the impeller 5 becomes a small value suitable for the reduced density of the mixture, and the impeller 5 Since the drive torque and the product of the rotational speed have a proportional relationship with the drive capacity, the drive capacity becomes a small resin suitable for the reduced drive torque. Experiments have shown that about 20-50% less drive torque than conventional ones.

That is, the driving capacity of the impeller 5 can be made small and the operating cost can be made low. The mixture to be mixed is rotated along the inner wall surface side of the mixing tank 1 and the mixture is stirred by the rotation of the impeller 5. It can be mixed by fully stirring.

Moreover, since the mixture is subjected to rotational force along the circumferential direction of the mixing tank 1 wall surface and is agitated with a small density, the fluidity is improved even if the rotational speed of the impeller 5 is the same, so that the mixing time can be shortened. Moreover, even if the installation height of the impeller 5 is made high, even the bottom part of a to-be-mixed object can be mixed reliably, and in this way, the installation height of the impeller 5 can be made high, so The effect that the density is also small and the electric drive capacity small and the operating cost low is further remarkable.

In this way, the driving capacity of the impeller 5 can be reduced, so that the driving apparatus can be miniaturized and the production cost can be reduced.

In addition, as the rotation direction of the impeller 5 is reverse to the rotation direction of the mixing tank 1, the rotation speed of the impeller 5 is increased relative to the mixture, and the rotation speed of the impeller 5 is further increased. Even if the driving capacity is lowered, sufficient mixing effect can be expected.

Next, examples compared with the conventional ones are listed.

In this experiment, 8.4 kg of titanium oxide, 6 kg of bengar, 0.1 kg of dispersant, 2 kg of dispersant, and 0.3 kg of pigment were selected as the mixture, and the mixture was introduced into the mixing tank 1 having a tank capacity of 20 ?.

According to the present invention, the stirring motor output of the impeller 5 takes about 5 minutes at a mixing speed of 3.7 kW and the rotation speed of 1500 R / m. According to the present invention, the stirring motor output of the impeller 5 is 0.2. kW, rotational speed 5000R / m, vibration motor output 0.2kW of mixing tank 1, rotational speed 360R / m, amplitude 30mm and mixing time was 10 minutes.

In other words, the required motor power per mixing time can be significantly increased to about 4.4 times.

In the above description, the drive shaft 9 of the impeller 5 is connected to the impeller 5 from above, and as shown in FIG. 3, the motor M is mounted under the mixing tank 1 to drive the drive shaft of the motor M. (9) may be upward and penetrated through the low force of the mixing tank 1 so as to be connected to the impeller 5 from the bottom.

In the above description, the number of tides between the vertical axis 6 and the eccentric shaft 7 is 3, and may be a plurality of sets of 1,2 or 4 or more, and in the case of a plurality of sets, at least one of the vertical axes 6. The power of the drive device 8 may be transmitted to the dogs.

In addition, as a means for pivoting the mixing tank 1, the mixing tank 1 is supported by the crank 19 which is freely held in the horizontal direction in the horizontal direction as shown in FIG. The side wall of (1) may be connected to the reciprocating drive device 13 by the horizontal section 20, and the mixing tank 1 may be rotated in the horizontal direction.

As described above, the present invention is to freely install the impeller for mixing in the mixing tank, while the electric mixing tank is rotatably supporting the target object and connected to the driving device. It is stirred by the impeller while being rotated while being attracted to the wall surface side of the mixing tank by receiving the rotational force by the centrifugal force by the rotation.

And after stirring, it falls to the center of the mixing tank at the bottom of the impeller and acts as if it is pulled to the wall side of the mixing tank by electric centrifugal force again.

As described above, the mixture is attracted to the inner wall surface side of the mixing tank, is rotated in the circumferential direction, floats along the inner wall surface, and becomes low in overall density.

As a result, the fluidity of the mixture is improved, so that the driving torque of the impeller can be reduced, the driving cost can be reduced, the operating cost can be reduced, the energy can be saved, and the mixture can be rotated along the inner wall of the mixing tank. The mixture can be sufficiently stirred and mixed by the rotation of the rotating body.

In addition, since the capacity of the drive device can be reduced, production costs can be reduced, which is economical and extremely advantageous.

Claims (1)

In a mixing apparatus in which an injection body or a liquid is charged and mixed into a mixing tank disposed on a temporary target, a mixing impeller is installed in a mixing tank in a rotational manner while the granular shaft 6, the eccentric shaft 7, and the lever 10 are provided. Mixing apparatus characterized in that the support for the mixing tank (1) to the target by a plurality of cranks consisting of one connecting shaft (6) to the drive unit.

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