RU28746U1 - Telescopic drive cylinder - Google Patents

Abstract

1. Telescopic drive cylinder, comprising a housing with openings for supplying and discharging a working medium, one of which is in communication with the forward-facing camera, and hollow rods with pistons installed inside the housing one inside the other, made with radial holes communicating with the reverse-facing chambers, characterized in that a telescopic tube is installed in the cavity of the central rod, rigidly connected with the ends to the bottom of the housing and to the central rod, while the cavity of the telescopic pipe is in communication with the inlet and outlet bochey medium, and in the central pipe bend formed radial port communicating via a channel with the cavity of the telescopic tube flyback chambers, wherein radial holes in hollow rods arranged at the ends of rods provided with porshnyami.2. The drive cylinder according to claim 1, characterized in that the channel is made in the form of a tube located in the cavity of the central rod and installed by the ends in the radial holes of the central bend of the telescopic pipe and the central rod. The drive cylinder according to claim 1, characterized in that the channel is made in the form of a tube installed in the radial hole of the central elbow of the telescopic pipe, and an annular gap formed between the inner surface of the central rod and the outer surface of the sleeve installed in the cavity of the central rod. The drive cylinder according to claim 1, or 2, or 3, characterized in that the inlet and outlet of the working medium, which is communicated with the cavity of the telescopic pipe, is made in the bottom of the housing.

Description

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Igrodenin belongs to the drive cylinder} / hydraulic and pneumatic systems.

N.a1-1 closer to the whole set of essential features to the invention is a telescopic drive w-shaft containing a housing, on the side wall of which there are holes for supplying and discharging a working medium, one of which is in common with the right direction, and the other is a back-up camera. The body has hollow rods with pistons installed inside one another. On opposite pistons of the end: -: radial openings are made, communicating with reverse gears to each other, USSR author's certificate N 7E443С. IPC F 15 P 15 16. publ. 1930).

When the drive cylinder is operating in the forward stroke reel, the working medium, which is used as compressed air, enters the forward stroke chamber through the inlet of the working medium, and the rods are extended as a result. When the rods exit the limits of the body, the working: medium, located in Kai / iepa: -: reverse, through the radial holes in the atmosphere begins to escape into the environment. In the reverse mode, compressed air enters the inlet return stroke, then through the radial holes in the stem: -: compressed air passes into each subsequent return stroke, while the rods begin to retract into the body, and the cylinder is completely folded.

pedagogy is known) GO of the telescopic / drive cylinder is: - there is an ogre, the corresponding possibilities for its use, and

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Composition of ALL working and environmental. This is due to the fact. that when working in the forward mode, there is a loss of the working medium due to its displacement into the environment, therefore, with equal composition. a; -: working and the environment, compensation is not possible due to the use of the environment.

The objective of the present invention is to provide a telescopic drive cylinder that can be used in a hydraulic and pneumatic system: regardless of the difference in composition between the environment and the environment, and which has small dimensions due to the lack of external masters, evil channels.

The technical result of the present invention is to exclude losses of the working environment, which is explained by the fact. that in the forward stroke mode, when the fluid is displaced from the backward flow} chamber, it does not go beyond the cylinder, but enters the forward stroke chamber and is used when operating in reverse stroke mode.

The basic technical result is achieved by the fact that in the telescopic drive cylinder, it contains a housing with openings for the drive and the working fluid, one of which is connected to the forward-stroke chamber, and hollow sections with pistons installed inside the housing one inside the other made with r.apial openings, communicating 1-1 with each other

in the cavity of the central stock is a telescopic pipe 1, rigidly connected to the end} .1 and with the bottom of the body and with the pentro spruce rod, while the cavity of the telescopic pipe

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a radial hole is made in the central bend of the pipe, which communicates through the cavity of the telescopic pipe: cage} 1 and reverse, and the radial holes E of the hollow rods are located at the end: rods equipped with pistons.

Besides. the channel is made in the form of a tube located in the cavity of the central rod and with the anvil end. 1 and in the rear holes of the central elbow of the telescopic pipe and the central rod: a ..

In addition, the channel is made in the form of a tube installed in the p, a, 9 hole of the central bend of the telescopic pipe, and an annular gap formed between the inner surface of the central rod and the outer surface of the sleeve installed in the cavity of the central rod.

In addition, the opening of the inlet and outlet of the working medium, which is communicated with the meanness of the telescopic pipe, is made on the bottom of the body.

The dryness of the invention is illustrated in FIG. 1, a telescopic drive cylinder is presented in the retracted position; FIG. 2 - telescopic drive cylinder in the released position, FIG. shows the Central rod of the drive cylinder with. made in vshche annular gap.

The telescopic drive axle-shindr contains a housing 1, in which hollow rods S, 4 with pistons 5, 5, 7 are placed inside one another. The housing 1 has openings 8, 5 for supplying and discharging a working medium, which can be used as HOW, THA: and gaseous environment. GTв-г-рС т lit- о ЕЫПИЛКёНС) Е ИСКИБОИ СТСККг КРУПУЗЗ. JL, S OTEt-pCTiif

9 - E bottom of the body 1. E rod has a radial hole 10, E rod 3 has a radial hole 11, and in the central rod 4 has a radial hole 12, with this hole openings 10, 11, 12 are located at the end; -: rods equipped with pistons , E of the cavity of the central rod 4, a telescopic pipe 13 is installed, the number of elbows of which is p, a (n + 1), where n is the number of hollow rods. Pentral, the elbow of the pipe 13 is rigidly connected to the central rod 4 by the end, and the outer side of the pipe 13 is firmly connected to the bottom of the housing 1 by the end. 13. The CAVITY 15 of the telescopic pipe 13 is in communication with the hole 9 for supplying and discharging the working medium and a channel, for example, in the form of a tube 16, connected to a return channel / 1EPA / 1 and 17, 18, 19. The tube 16 is placed in the cavity of the Central rod; 4, one end of the tube 16 is installed in the hole 12 of the rod 4, and the other end is in the hole 14 of the telescopic pipe 13. Kaj / iepa 16 of the reverse stroke is formed by the inner wall of the housing 1 and the outer wall of the rod 2, 1 of the reverse stroke is formed by the inner wall of the rod 2 and the outer wall of the rod 3, short} lera 18 reverse is formed by the inner wall of the rod 3 and the outer wall of the Central rod 4, E cylinder has a camera 20 forward. The return chamber 17 is connected by a radial hole 10 with a return chamber 18, to the return scraper 18 is connected by a hole 11 with a return passage 19. At the free ends: -: rods 2, 3, 4 are fitted with retaining rings 21, which provide the LAST-SECOND-TO-DIGITAL WIRELESS PRIME STROKE &, B, PRI UL; the sneakers prevent the pistons 5, 6, 7 E from stopping the bottom of the case. The channel connecting the 1st cavity 15 of the telescopic pipe IS with 17, IS, 19 backward can be made even narrower than the gap 22, formed between the inner surface of the vile central rod: and 4 and the outer surface of the sleeve 2S, which is installed with the hollow of the central 4. The ring gap 22 is in communication with the cavity 15 through the tube 24, which is located E cavity of the Central rod 4 and is installed E radial -1-1 hole 14 of the telescopic pipe IS.

The telescopic near cylinder works as follows.

In front of the cylinder’s forward stroke, the working medium is fed through the hole 8 of the housing 1 for direct running, and, under the action of the working medium, the pistons 5, 6, 7, 2, S, 4 start ONE TIME EXIT. With this, rod 2 is fully ejected to the shoulder of body 1, and rods 3, 4 are extended. then the stem 3 rests on the E step, and: 2, and the rod 4 rests on it. 3. Idally, with the RISK OF STOKE, the overflow occurs: of the working environment; out of 17 backward through aperture 10 E Kai / iepy 13 backward, from r: a} / 1er 18 through aperture 11 E hi3j / iepy 19 backward, out of 19 through aperture 12, through pipe 16, through aperture 14 E cavity 15 telescopic tube 1z. ..already with STAINLESS STOKE 2, o, 4 the telescopic tube 13 begins to grow, increasing the length of the cavity 15, while the maximum lENGTH lu CCCTE9TCTEyfT is EXCELLENT

him cylinder. The working medium, coming in from the tube - 16 E cavity 15, begins to displace the working medium, on; -: the dressing E of the cavity 15, through the hole U.

In the reverse operation mode, the working medium is fed through the hole 9 E cavity 15, at the same time the working medium is replaced, on: -: the E cavity 15 being dressed, through the hole 14 through the tube 16 and through the IS IS 15 backward hole, at the same time, shtSK 4 starts the CEE DECISION according to the direction to the bottom of the housing 1. Hole 11 opens E moment of control rod 4 B The jaw of rod 3, and the working environment through Hole 11 starts to be bent E IS and adds it, P the moment of stop of the stem J E The stem protrusion opens from hole 10, through which the working medium enters E 17 atnogo stroke. When the STOKE 2, 5, 4 is drained, the working medium from the forward-facing chamber 20 is displaced through hole 8, and the ELEMENTED cylinder completely crashes.

Claims (4)

1. Telescopic drive cylinder, comprising a housing with openings for supplying and discharging a working medium, one of which is in communication with the forward-facing camera, and hollow rods with pistons installed inside the housing one inside the other, made with radial holes communicating with the reverse-facing chambers, characterized in that a telescopic tube is installed in the cavity of the central rod, rigidly connected with the ends to the bottom of the housing and to the central rod, while the cavity of the telescopic pipe is in communication with the inlet and outlet bochey medium, and in the central pipe bend formed radial port communicating via a channel with the cavity of the telescopic tube flyback chambers, wherein radial holes in hollow rods arranged at the ends of rods provided with pistons. 2. The drive cylinder according to claim 1, characterized in that the channel is made in the form of a tube located in the cavity of the Central rod and installed by the ends in the radial holes of the Central elbow of the telescopic pipe and the Central rod. 3. The drive cylinder according to claim 1, characterized in that the channel is made in the form of a tube installed in the radial hole of the central elbow of the telescopic pipe, and an annular gap formed between the inner surface of the central rod and the outer surface of the sleeve installed in the cavity of the central rod. 4. The drive cylinder according to claim 1, or 2, or 3, characterized in that the inlet and outlet of the working medium, which is communicated with the cavity of the telescopic pipe, is made in the bottom of the housing.