RU1834702C - Gravity mixer - Google Patents

Abstract

The inventive gravity mixer consists of a mixing drum 1 with a pin 2, which is mounted on the frame 3 in the bearing support 4. On the bottom 5 of the mixing drum 1 is mounted a casing 6 forming a receiver 7. A compressed supply line 9 is connected to the pin 2 through a rotary connection 8 gas, for example, air or steam. The receiver 7 is connected to the cavity 10 of the mixing drum 1 by means of a controlled valve

Description

The invention relates to devices for preparing and stirring various mixtures.

The aim of the present invention is to increase the efficiency of the mixing process and reduce its energy intensity.

This goal is achieved due to the fact that the gravitational mixer containing a mixing drum with a bottom and a neck mounted on the frame, a compressed gas supply line and a valve with a movement actuator is equipped with a receiver mounted on the mixing drum and connected through a rotary connection to the compressed supply line gas and through a valve with a cavity of the mixing drum, and the valve actuator is made in the form of a power cylinder, at least one of the cavities of which is connected to the receiver.

In addition, the goal can be achieved due to the fact that it is equipped with a retractable stop fixed to the frame with an actuator controlled by pressure in the compressed gas supply line and connecting the cavity of the power cylinder with the atmosphere by an additional valve offset from the axis of the mixing drum and installed with the possibility of contact with a sliding emphasis.

On Fig, 1 shows a General view of the gravitational mixer (blades conventionally not shown); figure 2 - pneumochemistry with a controlled valve ..

The gravity mixer consists of a mixing drum 1 with a pin 2, which is mounted on the frame 3 in the bearing support 4. On the bottom 5 of the mixing drum 1 is fixed casing 8, forming

receiver 7. To the pin 2 through a rotary connection 8 is connected to the line 9 for supplying compressed gas, for example, air or steam, the Receiver 7 is connected to the cavity 10

the mixing drum 1 by means of a controlled valve 11, the actuator of which can be made in the form of a chamber 12 with a diaphragm 13, on which the valve 11 is fixed on the rod 14 on one side, and the spring 15 is mounted on the other side. On the casing

fixed pipe 16, one end of which

closes valve 11, and the other is made

with a plug 17 and has holes 18 on

the side surface, which is closed by a sleeve 19 of elastic material. The sleeve 19 is held onto the pipe 16 by means of a clamp 20. On the rod 14 there is a channel 21 of small cross section connecting the cavity 7 of the casing 6 with the cavity 22 of the chamber 12. The cavity 22 is connected to the atmosphere through an additional valve 23, which is pivotally fixed at one end of the beam 24. The other end

rocker arm 24 interacts with spring 25, pressing additional

valve 23 to the hole 26. On the beam 24, a device 27 for adjusting the compression force of the spring 25 is provided. The beam 24 is in contact with the sliding stop 28 fixed to the frame 3, the displacement actuator 29, the working cavity of which is connected via the Safety valve 30 to the compressed gas supply line 9 and through the choke 31 with the atmosphere. To move the stop 28 may be

used any other of the known drives, for example, an electromagnetic relay.

Gravity mixer works as follows.

The mixture is prepared by rotating the mixing drum 1. At the same time, compressed gas is supplied to the receiver 7 from the line 9. Since the valve 11 is pressed against the pipe 16 by means of a spring 15 and closes it, an excess pressure will arise in the receiver 7. Compressed gas is also supplied through the channel 21 to the cavity 22 of the chamber 12, as a result of which an excess pressure is also created in the chamber 12, which will increase the force of pressing the valve 11 against the pipe 16. After the pressure reaches the set value in the receiver 7, the valve 30 and gas will open under pressure it enters the sludge cylinder 29. This will extend the stop 28. Since the mixing drum 1 is in rotation, this will align the valve 11 with the stop 28, the latter acting on the rocker 24, compress the spring 25 and translate the rocker 24 in laid e in which additional valve 23 opens the hole 28, resulting in the cavity 22, chamber 12, the pressure will fall sharply, as a gas leak through the hole 26 will not be able to make up for the gas coming from the receiver 7 through the channel 21. Under the influence of the pressure in the receiver 7, the diaphragm 13 together with the valve 11 will move towards the spring 15, as a result of which a large portion of gas will enter the cavity 10 in a short period of time mixing drum 1, which will cause an explosion effect, under the influence of which there will be a mutual movement of a significant amount of material, as well as its saturation with gas. In addition, when using steam as compressed gas, heating of the prepared mixture will occur.

After the pressure in the receiver 7 drops below the minimum value, for example, to 1.5-2 atm, the force from the spring 15 will exceed the force from the gas pressure in the receiver 7, as a result of which the valve 11 will block the hole in the pipe 16. Fixed on the rotating drum 1 the rocker 24 moves away from the stop 28 and the additional valve 23 closes due to the spring 25. In addition, the pressure drop in the receiver 7 will lead to a decrease in pressure in the line 9, which will ensure that the safety valve 30 is closed and the power cylinder 29 is disconnected from the line 9. Since the power cylinder 29 is also connected to the atmosphere through the throttle, then close the safety valve the valve 30, the retractable stop 28 will move away from the mixing drum 1 and will not affect the beam 24. After creating

receiver 7 of the required pressure will repeat the cycle. The frequency of the cycles depends on the power of the compressed gas supply source and on the pressure at which the safety valve 30 is adjusted, and this technical solution, unlike the known ones, allows for an efficient mixing process even in the presence of a low-pressure compressed gas source.

The presence of a sleeve 19 prevents the mixture from entering the pipe 18, and at the time of supply of compressed gas, the hose 19 is squeezed from the walls of the pipe 18 and the compressed gas enters the cavity 10 of the mixing drum 1 through the openings 18.

Using the proposed device will improve the performance of the gravitational mixer and reduce energy costs aimed at preparing the mixture.

FORMULA AND SECTION

Claims (5)

1. A gravity mixer comprising a mixing drum with a bottom and a neck mounted on a frame, a compressed gas supply line and a valve with a spring-loaded stem, characterized in that, in order to increase the intensity of the mixing process and reduce the energy consumption, it is equipped with a receiver connected to the mixing drum ; (through a swivel connection to the compressed gas supply line and through a valve with a cavity of the mixing drum, a valve actuator made in the form of forces of a new cylinder, at least one from the cavities of which is connected to the receiver. 2. A mixer according to claim 1, characterized in that the receiver and the mixing drum have a common wall. 3. The mixer according to claim 1, characterized in that it is provided with a retractable stop fixed to the frame and an auxiliary valve, which are installed with the possibility of contact with each other. 4. The mixer according to claim 1, with the fact that the power cylinder of the valve is made in the form of a chamber with a diaphragm fixed to the bottom of the mixing drum, and its rod. The cavity is the cavity of the receiver. 5. The mixer according to claim 1, on the other hand and the fact that it is equipped with a pipe, the upper end of which is located in the mixing drum and is made with holes on the side surface, closed by sleeves made of elastic material, while the upper end equipped with a plug, and the lower end of the pipe is located in the receiver and is blocked by a valve. 1 834 702 G0 76