RU37012U1 - DEVICE FOR WASHING TANKS - Google Patents

Description

2004100379

f; PPipi | M ll | lllllljiII / lPMKI: V08V9 / 08

DEVICE for washing TANKS.

The invention relates to devices for processing and cleaning with the aid of a liquid the inner surface of large containers for storing and / or transporting various products, such as, for example, railway and automobile tanks.

Widely known devices for cleaning hollow products of a capacitive type based on the use of a system of jet nozzles rotating under the action of jets emerging from them. A common problem to be solved to increase the efficiency of such devices is to limit the rotation speed of the washing head.

It is known from patent RU N 2020005 (publ. 30.09.94) a machine for washing containers containing a hollow tank (fixed housing) mounted on it with the possibility of rotation through a pair of bevel gears housing with jet nozzles at the taps, the speed controller located inside the movable housing jet nozzles. The regulator includes a set of pistons with heads on which annular grooves are made, a fixed axis with supports connected to the fixed body, an inclined disk rigidly fixed on a fixed axis between its supports and installed to interact with the annular grooves of the piston heads.

The disadvantages of this machine are its complexity, the presence of mechanical transmission and a large number of elements interacting in an additional working medium - oil, therefore, maintenance of this design is difficult, and reliability is insufficient. Known from patent RU N 2030224 (publ. 1995.03.10) washing

a machine containing a fixed housing fixed to the working fluid supply pipe, connected by a gear transmission to a movable housing having radially located nozzles, each of which is made in the form of a curved nozzle with offset axes of its input and output parts, while the machine is equipped with a fixed in movable and fixed buildings with the possibility of rotation about the axis of the pipeline by a curved adapter pipe with a coaxial arrangement of its ends in the buildings, and the movable body is equipped with pipes for nozzle installation with the possibility of rotation relative to the vertical axis and the nozzle position lock. The axes of the input and output parts of each nozzle are parallel to each other.

The disadvantages of this device is the low reliability due to the presence of a mechanical transmission of rotation to the rotary housing, operating in severe conditions of hot water, quickly failing and requiring constant maintenance, which reduces the reliability of the device.

Closest to the claimed utility model and selected as a prototype is a device for washing containers known from patent RU No. 2021042 (publ. 1994.10.15). The known device for washing containers contains a fixed housing with a nozzle for supplying a working fluid mounted on a fixed housing with the possibility of rotation of the washing head in the form of a movable housing, on which the first nozzle nozzles with a pair of jet nozzles are mounted, as well as a rotation speed controller of the washing head made in the form of a second nozzle nozzle with jet nozzles mounted rigidly and coaxially on a movable housing. Nozzles in each pair of nozzles of the first and second nozzles are arranged with the possibility of creating reactive moments

2 opposite directions, and their outlet openings have different

diameters.

When the washing fluid is supplied to the fixed body, it is distributed into two streams. One stream is supplied to the first nozzle nozzle mounted on a movable housing. The working fluid, flowing out of the nozzles, creates a total reactive moment equal to the difference in reactive moments, since the latter are directed when the nozzles rotate in opposite directions. The difference in reactive moments is provided due to the difference in the diameters of their nozzles. Selecting the ratio of the diameters of the nozzles, establish the necessary working speed of rotation of the first nozzle nozzle.

The disadvantages of this design are the difficulties in selecting the jet moments of the nozzles to obtain low speeds of rotation of the washing head and the instability of operation at low speeds, which reduces the reliability of the device and the efficiency of cleaning containers.

The utility model is based on the task of creating a device of simple design with increased reliability in operation and providing high efficiency and economy of the washing process.

The technical result is the stabilization of the rotation of the washing head at low speeds.

The problem is solved in that in a device for washing containers containing a fixed housing with a nozzle for supplying a working fluid mounted on a fixed housing with the possibility of rotation about its axis, a washing head in the form of a movable housing on which is mounted to rotate around an axis perpendicular to the axis of the fixed the nozzle nozzle body with at least one nozzle, wherein said nozzle nozzle is configured to create

3 reactive moments, new is that the washing head is optional

contains means rigidly connected with said nozzle nozzle for creating a gyroscopic effect.

Reactive moments and gyroscopic forces provide rotation of the nozzle nozzle in space around two mutually perpendicular axes.

It is advisable to create a gyroscopic effect in the form of a flow channel having at least one essentially annular portion for the liquid supplied to the nozzle nozzles, while the nozzle nozzles are configured to create a moment of force relative to an axis that does not coincide with the normal to the plane, in which the said site is located.

It is advisable to create a gyroscopic effect in the form of a flywheel, the axis of rotation of which is rigidly connected with the nozzle nozzle, while nozzle nozzles are configured to create a moment of force relative to the axis that does not coincide with the axis of rotation of the flywheel.

The advantages and features of the proposed utility model will become more apparent from the detailed description in conjunction with the accompanying drawings, which depict:

FIG. 1 is a general view of a device for washing containers with means for creating a gyroscopic effect, made in the form of an open ring-shaped curved pipeline; FIG. 2 is a view A in FIG. 1;

FIG. 3 - depicts a tool for creating a gyroscopic effect, made in the form of a curved pipe having a closed annular section;

4 Figure 4 is a General view of the device for washing containers with means for creating

gyroscopic effect made in the form of a flywheel; FIG. 5 is a view A in FIG. 4;

According to a particularly preferred embodiment, as shown in FIG. 1 and FIG. 2, the device comprises a fixed cylindrical body 1 with a pipe 2 for supplying a working fluid and a washing head mounted movably on the body 1. The washing head comprises a movable housing 4 mounted in bearings 3 and rigidly connected to the pipeline 5, housing 6 with a hollow shaft 8 installed in bearings 7, a tool 9 and nozzle nozzles 10.

The internal cavity of the housing 1, pipe 2, housing 4. The pipeline 5 of the housing 6, the hollow shaft 8, the means 9 and the nozzle nozzle 10 communicate with each other.

The pipeline 5 is rigidly connected with the housing 6, and the hollow shaft 8 is rigidly connected with the means 9 for creating a horoscopic effect, made in the form of a curved pipeline communicated with the hollow shaft 8, at the end of which the nozzle nozzles 10 with nozzles 11 and 12 are mounted. The pipeline is curved to form an annular plot. The annular portion may be open, as shown in FIG. 1, or closed, as shown in FIG. 3.

The flow channel may have several annular sections arranged concentrically in one plane to form at least one substantially annular region (not shown).

Means 9 for creating a horoscopic effect can also be made in the form of a spiral with several turns.

5

The axis of the cylindrical body 6 and the stationary body 1 are mutually perpendicular.

In this particular embodiment of a useful model

the pipeline 5 is elongated and bent so as to ensure the compactness of the device and the possibility of its easy introduction through the hatch in the tank.

In an alternative embodiment of the structure shown in FIG. 4 and FIG. 5, the means 9 for creating a horoscopic effect is made in the form of a flywheel, the axis 13 of which is rigidly connected to the hollow shaft 8 by means of a connecting element 14 fixed to the hollow shaft 8. The nozzle nozzles 10 are rigidly connected to the hollow shaft 8. From the side of the flywheel 9, means 5 are mounted ensure the rotation of the flywheel under the influence of a jet of fluid flowing out of the nozzle of the means 15 in communication with the shaft 8. The means 15 drives the flywheel 9 in rotation about its axis.

The nozzles 11 and 12 of the nozzle nozzle 10 are directed in opposite directions, and their axes are offset relative to the axis of the hollow body 8. In these examples of the nozzle nozzle, the resulting reactive moments of forces are the same in magnitude and are directed in one direction.

It is possible to perform a nozzle nozzle with moments of force different in magnitude and directed in different directions.

It is also possible to perform a nozzle nozzle with moments of forces directed in one direction and different in modulus.

Possible nozzle nozzle with more than two nozzles. An increase in the number of nozzles with sufficient power will increase the productivity of the installation. The cleaning fluid through the pipe 2, housing 1, housing 4, pipe 5 and

the hollow shaft 8 enters the nozzle nozzles 10.

When fluid flows from nozzles 11 and 12, a reactive

the torque leading to the rotation of the nozzle nozzles 10 relative to the axis of the hollow shaft 8, and the gyroscopic forces rotate the washing head relative to the axis of the fixed housing 1. The tool 9, providing a gyroscopic effect (figure 1 or figure 4) together with the nozzle nozzle 10 precesses relative to the axis fixed body 1. The moments of force from the jet nozzles 11 and 12 change the angle between the axis of the fixed body 1 and the plane in which the annular section of the pipeline (figure 1) or the plane of the flywheel (figure 4).

The gyroscopic effect arising in the device stabilizes the rotation relative to both axes and makes it possible for the device to operate stably at low angular speeds, which increases the efficiency of the washing process.

The combination of rotational movements around mutually perpendicular axes allows the jets of washing liquid flowing out of the nozzles to constantly change their direction in three-dimensional space around the washing head and move along the entire inner surface of the railway station. tanks, other containers.

Thus, the proposed device in comparison with the prototype is much more reliable in operation and more convenient to maintain.

7

Claims (3)

1. A device for washing containers, containing a stationary body with a nozzle for supplying a working fluid mounted on a stationary body with the possibility of rotation about its axis washing head in the form of a movable body, which is mounted to rotate around the axis perpendicular to the axis of the fixed body of the nozzle nozzles with at least one nozzle, wherein said nozzle nozzles are arranged to create reactive moments of forces relative to its axis of rotation, characterized in that the washing head further comprises means rigidly connected with said nozzle nozzle for creating a gyroscopic effect. 2. A device for washing containers according to claim 1, characterized in that said means is a flow channel having at least one substantially ring-shaped portion for liquid supplied to said nozzle nozzles, wherein said portion is arranged such so that the normal to the plane in which it lies does not coincide with the axis of rotation of said nozzle nozzle. 3. A device for washing containers according to claim 1, characterized in that the said means is made in the form of a flywheel, the axis of rotation of which is rigidly connected with said nozzle nozzle in such a way that said axis does not coincide with the axis of rotation of the nozzle nozzle.