SU673765A1 - Hydraulic pulsator - Google Patents

Description

;.- - one; .; ; The invention relates to means for the oscillation drive at poms ex fluids and Mowet orshlen be, in particular, for eozbuzhdeki oscillations view ratsyo {} nyk Kc seKesxsB for delivery of hydrochloric mass vibratory feeders, screens Izvestoi nyjRjCarop, comprising conical eoldtnyk configured zdodno with podvyzhshym disc 1. In gold, at least one channel is made, which, as the spool rotates, provides for alternating the connection of the container with the discharge line and atmosphere. In the case of the pulsator between the wall of the case with the windows and the rotation of the spool of the aemee and a fixed disk with the opening of the KOFOE and the Shutter. It is reported from and 2 of the socket VL6Yy and the outlet holes in. However, this pulsator does not control the frequency of the pulsations of the working medium. A hydraulic pulsator is also known, comprising a casing C, to which BtanyCJCH piping is attached, and a rotating disk with through and holes, located on the floor from the center, and a fixed disk with groups of well channels of channels , ras.zhёnN1zhkh on om the same riso research institutes from each of Daug 2}. However, si STOt puller ae provides control of the frequency of the pulsations. In order to control the frequency of impulses in cables with the pipelines, the proposed pulse e r further comprises a rotary ring installed between the fixed disk and the film, and holes are made in the ring corresponding to the BD group of the through channels of the fixed disk. Behind the drawing there is a pulse that can be measured in the bp / yo axis. Nullator 1 can work both from an external drive, tcik and due to a spool caused by flow of shadostoy, 1 kefpuse I pulsator is a conical spool 2 and made iBJSOiRHoe hole 3, through which the working medium is fed, . Behind it to the body 1 is attached a fixed disk 5, separated from the rotating disc4 by a gasket of an antifriction material. On the other side of the fixed disk 5 is installed the rotary ring 7, pressed against the fixed disk by the cover 8.

On the conical surface of the spool 2 there are two milled grooves 9 in the helix forum. In the center of the spool there is a channel 10 and a cavity 11 connected to it in the flange-disk 4. Between the flange-disk 4 of the conical gold 2 and the body 1 there is a cavity 12,

In the rotating disk 4 there are made through holes 13 and 14 located in the same cross section diametrically opposite to each other and at different center of the center. On the fixed disk 5 there are two groups of through channels in 15 and GB. The channel group 15 is distant from the center by the same distance as the hole 13 of the rotating disk 4,. and channel group 16 - like a hole

14th of this disk. Through channels

15 and 16 of the fixed disk 5 from the side of the rotating disk 4 have. the shape of arcuate vaemok, which goes into round holes,; : opening towards the Krytska 8. This form of through channels provides the necessary time for mutual interaction; operating them with through holes 13 and 14 of a rotating disc 4 with

one side and KOMCrpyitTHBHO CONDITION

This is a combination with openings in the 17th century. the cover 8, on the other hand, serves for connecting and releasing the THEM pipelines.

The rotary ring 7 has holes 18, which are removed from the center by the same distance as Hole 14 of the rotating disk 4. The number of holes 18 is determined by the number of variants of the ring positions, i.e. the number of combinations of exhaust pipelines, in which the number of pulsations should be regulated. The position of the holes in the ring 7 depends on the spreading of the holes 17 in the crest 8. A hole is needed to adjust the frequency of the pulsations in one of the discharge piping and a pair of holes {diametrically opposed or opposite to each other by a quarter of a circle) to adjust the frequency of the pulsations in DV1 | GC exhaust pipelines. Yepbdyizhniy disk 5, gasket 6, Yov6rotch) ring 7 and the lid 8 are attached to the body 1 by bolts 19.

Pulsator works as follows. /. . , . ... .,,:.:..... -.one

The working medium, entering through the inlet 3 into the pulsator, is divided into two streams.

A living section of each flow is formed between the walls of the groove 9 on the surface of the conical spool 2 and the inner conical surface of the housing 1. Both flows are mixed in the cavity 12. From the cavity 12, the working medium through the through hole 13

or 14 in the flange disk 4 enters one of the through channels 15 and 16 of the fixed disk 5. Next, through the through channel 15, the medium enters the holes .17 of the cover 8 and then into the discharge pipes. In addition, depending on the position of the rotary ring 7, the working medium from the channels 16 of the sliding disk 5 can flow through the holes 18 of the rotary ring into the holes 17. The position of the rotary ring 7 is adjusted manually, having previously removed the bolts 19. The working medium passes through the milled grooves 9 causes an active force rotating the spool

2. When the spool rotates through through hole 13 o6efaeT through channels 15 of the fixed disk 5. For one turn of spool 2 into each through channel 15 press the working medium alternately. ..- ..

In order to increase the frequency of supplying the working medium to any of the openings 17 of the cover 8, there is a through-set 14, which is diametrically pro-positively through-through (step 13. 13. A through-hole 14 connects the cavity 12 to the through-channels 16.

To increase the frequency of supplying the working medium to any of the holes 17, it is necessary to align the hole 18 in the rotation ring 1 with the channel 16 of the fixed disk 5. When the spool rotates, the through hole 14 passes around the channels 16 of the fixed disk 5 and passes the working medium only through that channel 16 which is currently open in the pivot ring 7. Frequently, the pulsation of the working medium through the open hole doubles. At the same time, the frequency that passes into the remaining outlets remains the same, i.e. one time, one turn at a time. With a yolz, you can increase the frequency of the working medium pass in any OTiaepicTHH outlet, in any two adjacent, in any two D1 ametral opposite holes, etc. The calial 10 in the spool serves to connect the cavity 11 with the pressure line, which reduces the flange of the conical spool for the slug 6 and the needle of the flange.

The proposed pulsator makes it possible to increase the productivity and cost-effectiveness of the work of the organ, by a factor of 1.5–2, for example, the VIS5ROL6NTY conveyor with its load varying with time.

Claims (2)

1. The patent of the Federal Republic of Germany 1758551, CL.42 F 1/18, 1970. 2. The author's certificate  335015, class B About B 1/18, 1970.