CS260299B1 - Medium distributor - Google Patents

Abstract

The aim of the solution is to reduce torsional stress sealing groove collars media flow with higher pressures, medium s with the highest pressure to seal with a single seal groove cuff (or their sole and not to change its flow direction cross section, facilitate the installation of sealing grooves cuffs with their one-sided oriental the possibility of seizing parts of the switchgear without the ointment transported media. That purpose is it reaches the solution of the media distributor which consists of a groove part and a protrusion parts that are rotatably supported by the foreheads through the bearing, while sealing groove cuffs have different diameters and are arranged to touch the groove part of the rotary groove and a side of the protrusion protrusion protrusion section.

Description

The invention provides a medium distributor between rotatable parts of the device.

Until now, the transport has been solved by a central pivot in the axis of rotation, which was sealed in the bearing by standard grooved sealing collars.

These cuffs are designed to seal high pressures of 15, 20 or 60 MPa and allow for sliding movement of, for example, a piston. The function of the piston in the distributor is fulfilled by a pin which transfers the media from the holes in the bearing with counter-positioned sealing collars on the sides of the holes. This pin performs a rotational movement instead of a sliding movement. If the speed is low, t. j. less 10 a min. is capable of transmitting peak pressures of the sealing sleeves. The disadvantage of this distributor is the uniform diameter of the sleeves, which depends on the diameter of the pin, which is larger than the diameters of the individual flow openings, and thus the sleeves sealing the flow with maximum (inlet) pressure have unnecessarily large diameters. Another disadvantage is the large dimensions increasing with the number of links through the openings of the transported media, where not only the diameter of the pin increases but also the length due to its lateral inlets or outlets of the medium through the bearing. It is also difficult to mount the pin in the bearing, as there is a risk of damage to the counter-rotating sleeves. If media with lubricating properties are transported, the pin is guided directly in the distribution bearing, with the risk of pinning the pin in the bearing, especially on the shaded areas behind the sleeves. Seizure may occur if the working temperature of the medium heats the pin and reduces its clearance in the bearing.

These drawbacks are eliminated by the medium distributor between the mutually rotatable parts of the device according to the invention, which consists of a groove portion having rotational grooves on the front flat and a projection portion having rotational projections on the front flat, the groove portion and the protrusion portion are aligned centered and secured to the bearing such that the clearance is prescribed between the rotary protrusion of the protrusion portion and the bottom of the rotary groove for sealing grooves that are dimensionally spaced according to the diameters of the rotary slots of the groove portion and wherein the sealing grooves are in contact with one flat side of the rotary projection of the projection portion and the other flat side and bottom of the rotary groove of the groove portion, wherein the flow openings of the individual media are located between the rotary grooves in the track kovej part and the rotary projections in the protrusion.

A new and higher effect of the solution according to the invention is that the distributor is composed of parts which do not touch at all, thereby eliminating the possibility of seizing. The sleeve diameters are differentiated so that the maximum (inlet) pressure is sealed by a single sleeve with the smallest diameter, which is much less stressed on the twist. The switchgear is not sensitive to the thermal expansion of its parts and any media that is not aggressive to the switchgear materials can be transported. The dimensions will be reduced because only one dimension of the distributor - diameter - increases with the number of prepared media or with their cross-section. The assembly of the switchgear has also been made easier, since all the collars are oriented in one direction and slide into the grooves at once, improving the inclined surfaces in the groove portion of the switchgear. Another new effect is that the medium with the highest pressure flowing through the first branch does not change its direction and shape at all.

In the accompanying drawing, FIG. 1 shows an example of the construction of a three-way distributor and FIG. 2 is a more detailed illustration of the seating of the sleeves in the grooves where the mounting run of the man groove is also included. Zeta.

The groove part 1 is rotatably supported against the projection part 2 by means of a bearing 3 which is dimensioned with respect to the forces exerted by the distributor medium pressures, or an axial bearing can be used to absorb these forces, the bearing 3 being only radially loaded. To the bearing 3, the groove part 1 is fastened by the screw 5 and the projection part 2 is fastened by the nut 4. In the rotary grooves of the groove part 1, test grooves 14 are placed which contact one of the projection 2 with one surface. and exits through the maximum pressure outlet 9. The medium pressure inlet 10 and the medium pressure outlet 11 can, for example, be guided through the medium which has given off its energy, while its pressure has been reduced. The low pressure inlet 12 and the low pressure outlet 13 can, for example, be guided by the element control medium or by the leakage medium of some devices. The groove portion 1 can be fixedly connected to one part of the device 8 and the projection part 2 can be carried by the gripper 7 of the other part of the rotary device.

The invention can be applied wherever it is necessary from one part of the device to convey the medium to the other rotary part, and it can also be combined with a mechanical or electric transducer which, viewed in the rotational axis direction, has an annular shape. of the invention, or (at lower media pressures) 'whose shaft' or electrical cable is routed through the center of rotation of the distributor. Particular applications may be in hydraulic dredges, cranes, in any swivel superstructure of the equipment, in pneumatic or hydraulic control of rotating parts of low-speed machine tools and the like.

Claims (3)

PREDMBT A fluid distributor between two mutually rotatable portions of a device, characterized in that it is supported by a groove portion (1) having rotational grooves on the front flat and a projection portion (2) having rotational projections on the front flat coaxial, the groove portion (1) and the protrusion portion (2) are coaxially centered and fixed in the bearing (3) by faces such that a clearance is prescribed for the sealing groove (14) between the rotary projection of the protrusion portion (2) and the bottom of the rotary groove. 2. The medium distributor according to claim 1, wherein the sealing grooves are 260299. B These are dimensionally graded according to the diameters of the rotary grooves of the groove portion (1) and the diameters of the rotary projections of the protrusion portion (2), the sealing grooves (14) touching one surface of the rotational protrusion of the protrusion portion (2). side and bottom of the rotary groove of the groove part (1). 3. The medium distributor according to claim 1, characterized in that the flow openings of the individual media are located between the rotary grooves in the groove part (1) and between the rotary projections in the projection part (2).