RU2130346C1 - Machine for vessels washing - Google Patents

Abstract

FIELD: cleaning of hollow articles of volumetric type with liquid; may be used in chemical and other industries. SUBSTANCE: machine has hollow axle carrying turning body provided with hollow shaft located across axle, branches with nozzles attached to shaft ends, crossing the shaft and are directed to opposite sides and regulator of nozzle rotation speed. Regulator is made in the form of sprocket mounted on shaft and movably installed on axle of profiled anchor with regulating counterweights engageable with sprocket. EFFECT: reliable in operation, convenient in servicing, easy and prompt readjustment due to its simple design. 3 dwg

Description

 The invention relates to means for cleaning hollow products of a capacitive type using a liquid and can be used in the chemical industry and other areas of the national economy.

 Known washer (USSR author's certificate N 1102648 of 04.03.81, IPC B 008 9/08), containing a fixed body, a rotary body, bends with jet nozzles mounted on it (nozzle like a Segner wheel) and a speed regulator, including filled with brake fluid a cup, a brake element with a shaft located therein and a drive turbine mounted on the shaft of the brake element in a fixed housing. The brake element is made in the form of a drum, and the cup is mounted on a rotary housing with the possibility of axial movement. The rotation of the rotary housing is carried out through a pair of bevel gears.

 A disadvantage of the known machine is the complexity of its design in relation to both the transmission mechanism of rotation of the rotary housing and the brake element, requiring regulatory maintenance due to the presence of sealing means.

 Known for another, adopted as a prototype machine for washing containers (Patent of the Russian Federation N 2020005, IPC 5 B 08 B 9/08, publ. 30.09.94), containing a hollow tank (fixed body) mounted on it with the possibility of rotation through a pair of conical gears housing with jet nozzles at the bends, the regulator of the frequency of rotation of the jet nozzles located inside the movable housing. 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 mounted on a fixed axis between its supports and mounted to interact with the annular grooves of the piston heads.

 One of the main disadvantages of this machine is its complexity, which reduces its reliability and complicates maintenance.

 In particular, the rotation of the movable housing is possible only if there is a mechanical transmission in the form of a pair of bevel gears. In addition, the design of the speed controller of the jet nozzles contains a large number of elements interacting in an additional working medium - oil, therefore, maintenance of this design is difficult, and the reliability is insufficient. Directly adjusting the frequency can be carried out only by changing the design, namely, changing the number of pistons and the diameter of the throttle holes made in the insert of the regulator body, that is, the speed of adjustment is very low, and the complexity is great.

 The aim of the invention is to increase reliability in operation and facilitate maintenance by simplifying the device.

 This is achieved due to the fact that in the machine for washing containers containing a hollow axis, a housing mounted on the hollow axis with the possibility of rotation, bends with jet nozzles and a nozzle speed controller, the housing is equipped with a hollow shaft located crosswise to the hollow axis, the nozzle bends are mounted on the ends of the shaft and the nozzle are directed in opposite directions so that the axis of the nozzles are crossed by the axis of the shaft, the nozzle speed controller is made in the form of an asterisk fixed to the hollow shaft and a profiled anchor, movably mounted on si, mounted on the body, with the ability to interact with the sprocket and equipped with adjusting balances.

 Providing the housing with a shaft located crosswise to the hollow axis, securing the nozzle bends at the ends of the shaft when the nozzles are located crosswise to the axis of the shaft and directing in opposite directions provides rotational-vibrational movement of the housing around the hollow axis without any mechanical gears, which greatly simplifies the device. In this case, the area of influence of the jets of washing liquid flowing out of the nozzles remains three-dimensional space.

 The implementation of the nozzle speed controller in the form of an asterisk mounted on the hollow shaft and an anchor interacting with it, movably mounted on an axis mounted on the housing and equipped with adjusting balances is extremely simple, since it contains a minimum number of parts, does not require additional working medium, allows adjust the speed by simply moving the balances without changing the design.

 In the local territorial information funds, objects of the same purpose containing the indicated distinguishing features were not found.

 In FIG. 1 shows a machine for washing containers in the context; in FIG. 2 is a view A of FIG. 1; in FIG. 3 is a section AA of FIG. 2.

 The machine comprises a hollow axis 1, a rotatable housing 2 mounted on it with a hollow shaft 3 located therein, located crosswise to the hollow axis 1. At the ends of the shaft 3, bends 4 are fixed with reactive nozzles 5 fixedly connected to them and directed in opposite directions. In this case, the axis of the nozzles cross the axis of the shaft. A sprocket 6 is fixed on the shaft 3, and on the axis 7, mounted on the housing 2, a profiled anchor 8 is movably mounted, which can interact with the sprocket 6 and equipped with adjusting balances 9. The hollow axis 1 communicates with bends 4 through holes 10, 11, 12, respectively in axis 1, housing 2, shaft 3.

 The machine works as follows.

 A washing liquid is fed into the hollow axis 1, which through the openings 10, 11, 12, taps 4 enters the nozzles 5. When the fluid flows from the nozzles 5, a reactive torque occurs on the shaft 3, as a result of which the shaft 3 rotates with taps 4 and nozzles 5. Reactive torque also occurs around axis 1. But this torque is alternating, since when the shaft 3 rotates, the nozzles 5 during each revolution of the shaft 3 change their position relative to axis 1, and therefore leads to an oscillatory movement of the housing 2 around axis 1. Asterisk 6 when the shaft 3 is rotated, the shock acts on the protrusions of the anchor 8 alternately, deflecting it one way or the other relative to the axis 7. For each action of the sprocket, the response of the anchor 8, due to the inertial forces, is the impact and the tooth of the sprocket 6 located in the zone of its action. When the tooth hits the protrusion of the anchor 8, the sprocket 6 slows down or stops its rotation, and the anchor 8 rotates around the axis 7 so that the sprocket 6, which then resumes rotation under the influence of the reactive torque of the nozzles 5, is different the tooth collides with the opposite part of the anchor 8, forcing it to turn in the opposite direction around the axis 7 until it hits the next tooth of the sprocket 6. Thus, the rotation of the nozzles 5, causing the sprocket 6 to vibrate the anchor 8, due to its impulse interaction of the anchor 8 and the sprocket 6 becomes dependent on the moment of inertia of the anchor 8. By changing the moment of inertia of the anchor 8 using the adjusting balances 9 by changing their mass or the shoulder of their centers of mass relative to axis 7, you can adjust the speed of the nozzles 5 by shaft 3 and simultaneously the frequency oscillations of the nozzles 5 about the axis 1. As a result of these movements of the nozzles 5, i.e. rotation with the shaft 3 and oscillations around the axis 1, the jet of washing fluid flowing from the nozzles 5, constantly change their direction in three-dimensional space around the machine, which improves the quality of cleaning the surfaces of the tank even with a stationary installation of the device.

 Thus, the proposed machine in comparison with the prototype due to the simplicity of the device is much more convenient to maintain, quicker to reconfigure, more reliable in operation and devoid of the danger of foreign matter, such as oil, in the tank being cleaned.

Claims (1)

 Machine for washing containers containing a hollow axis, a housing mounted on the hollow axis with the possibility of rotation, bends with jet nozzles, a nozzle speed controller, characterized in that the housing is equipped with a hollow shaft located crosswise to the hollow axis, the nozzle bends are mounted on the ends of the shaft and the nozzles are directed in opposite directions so that the axis of the nozzles crosses the axis of the shaft, the nozzle speed controller is made in the form of an asterisk mounted on a hollow shaft and a profiled anchor, movably mounted on an axis fixed to and the case with the ability to interact with the sprocket and equipped with adjusting balances.

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