RU2210683C1 - Hydraulic cylinder - Google Patents

Abstract

FIELD: hydraulics. SUBSTANCE: invention is designed for hydraulic systems. Proposed hydraulic cylinder contains plunger installed in housing. Movable joint of plunger and housing cover is furnished with sealing member placed in cover. Plunger is made with formation of ring rod space in movable joint with housing from side of cover. Ring rod space communicates with outer medium through channel made in side wall of cylinder housing along its entire length. EFFECT: improved reliability. 7 cl, 1 dwg

Description

 The invention relates to the field of hydraulic equipment and can be used in technological equipment, in particular in hydraulic systems for regulating the anti-bending pressure of the work rolls of the finishing stands of strip rolling mills as hydraulic anti-bending cylinders that compensate for the wear of the work rolls during operation and ensure flatness of the rolled strip.

 A known hydraulic cylinder containing a piston installed in the housing, the movable connection of which with the housing is equipped with a wiper ring and a sealing assembly located in the piston, the piston is made with a conical chamfer in front of the wiper ring, and the wiper ring is installed in the annular groove of the piston in communication with shaped channels made in the piston body with access to the end surface, in which filter nets are installed (See A.S. 527556 USSR, MKI F 16 J 1/00. Compressor piston / Declared 05/19/75, publ. 05/09/76 )

 In this technical solution, mechanical impurities are prevented from entering the gap between the cylinder body and the piston, since the mechanical impurities deposited on the surface of the body are scraped off by the sharp edge of the wiper ring and are retained by filter nets. At the same time, mechanical impurities cannot be drawn through the gap between the wiper ring and the housing into the annular cavity formed in the movable connection of the piston with the cylinder body - between the surfaces of the wiper ring and the annular groove due to the fact that the annular cavity is in communication with the working cavity by means of L-shaped channels with filtering nets, which allows you to equalize the pressure in the annular and working cavities when moving the piston.

 The disadvantage of the invention is that in the case of contamination of the filter nets by mechanical particles, which is often observed under conditions of increased contamination, abrasive mechanical impurities are drawn into the annular cavity in the movable connection of the piston with the housing through the gap between the wiper ring and the housing with a decrease in pressure in the said cavity in comparison with pressure in a working cavity. This leads to abrasion and scoring of the working surfaces of the movable joint, to premature wear of the seals and, as a consequence, to a decrease in the reliability and durability of the movable joint.

 The contamination of the filter nets, in turn, leads to the need for their frequent replacement, which complicates the operation of the hydraulic cylinder.

 The closest in technical essence to the claimed technical solution is a hydraulic cylinder taken by the applicant as a prototype, comprising a plunger installed in the housing, the movable connection of which with the housing cover is equipped with a wiper ring and a sealing element located in the cover, while the plunger is formed with the formation of an annular rod cavity in a movable connection with the housing on the side of the wiper ring (See Hydraulics, Hydraulic Machines, and Hydraulic Drives: Textbook for Engineering Universities / TM Basta Rudnyev SS, BB Nekrasov etc. -. 2nd ed -.. M .: Engineering, 1982, s.350-351, and Figure 3.54)..

 In severe operating conditions of a known hydraulic cylinder — in the presence of water and abrasive particles in the external environment — mechanical impurities enter the annular rod cavity and the movable connection between the cylinder body and the plunger due to the fact that when the plunger is pulled into the cavity of the cylinder body in the annular rod cavity a vacuum is created, which leads to the pulling out of the external water dust with abrasive particles of scale, dirt and other mechanical impurities. This causes increased wear of the surfaces of the plunger and the cavity of the hydraulic cylinder, and also reduces the reliability and durability of the seals of the movable connection of the plunger with the housing of the hydraulic cylinder and leads to external oil leaks along the stem of the plunger, water with particles of scale and dirt getting into the hydraulic fluid of the hydraulic system.

 A disadvantage of the known design is also the fact that when the plunger is pulled out of the cylinder body cavity, an excess pressure is created in the annular rod cavity, leading to the extrusion of the wiper ring, which also reduces the reliability of the structure.

 The technical problem solved by the invention is the creation of a hydraulic cylinder that prevents the ingress of mechanical impurities into the annular rod cavity and the movable connection between the cylinder body and the plunger and, due to this, under severe operating conditions - in the presence of water and abrasive particles in the external environment - to reduce surface wear the plunger and the cavity of the hydraulic cylinder, as well as increase the reliability and durability of the seals of the movable connection of the plunger with the housing of the hydraulic cylinder cores, eliminate oil leakage along the exterior portion of the plunger rod, the ingress of water with particles of scale and dirt in the hydraulic fluid of the hydraulic system.

 To solve the problem in a known hydraulic cylinder containing a plunger installed in the housing, the movable connection of which with the housing cover is equipped with a sealing element located in the cover, the plunger being formed with the formation of an annular rod cavity in the movable connection with the housing from the lid side, according to the invention, an annular the stock cavity is in communication with the external environment through a channel made longitudinally along the entire length of the cylinder in the side wall of the cylinder body.

 In special cases of execution, the hydraulic cylinder has the following distinctive features.

 According to the invention, a precipitating element is installed in the channel made in the side wall of the cylinder body, and the channel is in communication with the external environment through an opening in the lower part of the side wall of the body, the cross-sectional area of which is less than the cross-sectional area of the channel.

 According to the invention, the hole in the lower part of the side wall of the housing is equipped with a filter.

 According to the invention, the precipitating element is made in the form of a threaded screw.

 According to the invention, the precipitating element is made in the form of a spring.

 According to the invention, the precipitating element is made in the form of a flat partition with an opening in the lower part located along the entire length of the channel and separating the annular rod cavity from the external environment, while the channel is additionally communicated with the external environment through an opening made in the upper part of the side wall of the cylinder body protected a visor whose cross-sectional area exceeds the cross-sectional area of the hole in the lower part of the side wall of the housing.

 According to the invention, the hole made in the upper part of the side wall of the cylinder body is provided with a filter.

 The presence of a channel made longitudinally along the entire length of the cylinder body in the side wall of the cylinder, which communicates the annular rod cavity with the external medium, makes it possible to equalize the pressure in the annular rod cavity with respect to the pressure of the external medium, that is, it performs the function of compensating for changes in pressure in the annular rod cavity during retraction the plunger inside the cavity of the cylinder or when it is extended from the cavity, which is necessary to ensure the operability of the hydraulic cylinder.

 As a result of compensating for changes in pressure in the annular rod cavity and maintaining it within the pressure of the external environment, water with particles of mechanical impurities is not drawn from the external environment from the cover side when the plunger is pulled into the cavity of the hydraulic cylinder and the seal is squeezed out when the plunger extends.

 At the same time, the presence of such a channel leads, when the plunger moves inside the cylinder cavity and creates a vacuum in the annular rod cavity, to draw water dust with mechanical impurities from the external medium through the lower channel opening. At the same time, water dust from the external environment does not have time to rise up along the entire length of the channel and get into the annular stock cavity, since when it moves along the channel due to the temperature difference, condensation of water occurs on the walls of the channel, as a result of which water along with the channel particles of mechanical impurity under the action of its own weight flows down. When the plunger is pulled out of the cylinder cavity, water dust with mechanical impurity particles is completely expelled from the channel through an additional hole in the lower part of the housing wall.

 As a result, the likelihood of drawing water dust with abrasive particles of scale, dirt and other mechanical impurities from the external environment into the annular rod cavity is reduced. This leads to a decrease in the wear of the surfaces of the plunger and the cavity of the hydraulic cylinder, to increase the reliability and durability of the seals of the movable connection of the plunger with the housing of the hydraulic cylinder and to reduce external oil leaks along the rod part of the plunger, and also eliminates the ingress of water with scale particles and dirt into the hydraulic fluid of the hydraulic system.

 The installation in the channel, made in the side wall of the cylinder body of the precipitating element, further contributes to the condensation and precipitation of water droplets with mechanical impurities from the external environment not only on the walls of the channel, but also on the surface of the precipitating element, which increases the possibility of removal of water condensate from the channel and reduces the likelihood ingress of water with mechanical impurities into the annular stock cavity.

 Moreover, the cross-sectional area of the hole in the lower part of the side wall of the housing that communicates the channel with the external medium is smaller than the cross-sectional area of the channel, which reduces the ingress of water dust with mechanical impurities from the external environment into the channel cavity, while ensuring that the functions of compensation for pressure changes in the annular stock cavity and drainage of condensation.

 The presence of a filter in the hole made in the lower part of the side wall of the housing reduces the ingress of mechanical particles into the channel cavity and, accordingly, into the annular rod cavity.

 The implementation of the precipitating element in the form of a screw with a thread allows you to increase the surface area of the precipitating element and, as a result, increase the reliability of the design. In this case, the downward threads of the thread facilitate the removal of condensed water with mechanical impurities.

 The implementation of the precipitating element in the form of a spring is another form of execution, where the coil of the spring performs similar functions.

 The implementation of the precipitating element in the form of a flat partition with an opening in the lower part located along the entire length of the channel and separating the annular rod cavity from the external environment almost completely eliminates the ingress of water with mechanical impurities from the external medium into the annular rod cavity. At the same time, through the hole in the lower part of the flat partition, the pressure in the annular rod cavity is balanced with the pressure of the external environment. The hole, made in the upper part of the side wall of the cylinder body and protected by a visor, additionally communicating the channel with the external environment, the cross-sectional area of which exceeds the cross-sectional area of the hole in the lower part of the side wall of the body, performs the function of balancing the pressure in the annular rod cavity with the pressure of the external environment and additionally serves to drain water from the channel when the plunger moves up, when its level becomes sufficiently high. The visor prevents water dust from entering the environment through this hole in the channel.

 The presence of a filter in the hole made in the upper part of the side wall of the cylinder body prevents mechanical impurities from entering the channel.

 Thus, a reduction in the wear of the surfaces of the plunger and the cavity of the hydraulic cylinder is achieved, the reliability and durability of the seals of the movable connection of the plunger with the housing of the hydraulic cylinder are increased, external oil leakage along the rod part of the plunger and the ingress of water with scale particles and dirt into the working fluid of the hydraulic system are eliminated.

 The invention is illustrated in the drawing, which shows the proposed hydraulic cylinder in section.

 The hydraulic cylinder comprises a plunger 2 installed in the housing 1. The movable connection of the plunger 2 with the cover 3 of the housing 1 is provided with a sealing element 4 located in the cover 3. The plunger 2 is formed with an annular rod cavity 5 in a movable connection with the housing 1 from the side of the cover 3. Ring the rod cavity 5 is in communication with the external environment through a channel 6 made in the side wall of the cylinder body 1 longitudinally along its entire length. In a preferred embodiment, the precipitating element is installed in the channel 6, made in the form of a flat partition 7. The precipitating element can also be made in the form of a screw with a thread or in the form of a spring (these options are not shown in the drawing). The flat partition 7 is made with a hole 8 in the lower part, is located along the entire length of the channel 6 and separates the annular rod cavity 5 from the external environment. In this case, the channel 6 is in communication with the external environment through an opening 9 in the lower part of the side wall of the housing 1. The cross-sectional area of the opening 9 is smaller than the cross-sectional area of the channel 6. The opening 9 is provided with a filter 10. In addition, the channel 6 is additionally communicated with the external environment through the opening 11, made in the upper part of the side wall of the cylinder body 1. The hole 11 is protected by a visor 12 and is equipped with a filter 13. The cross-sectional area of the hole 11 exceeds the cross-sectional area of the hole 9. The piston cavity 14 of the hydraulic cylinder is made with a hole 15 in the housing 1 for oil supply.

 When the plunger 2 is pulled into the cavity 14 of the housing 1, the decrease in pressure in the annular rod cavity 5 is compensated by the fact that the annular rod cavity 5 is in communication with the external medium through channel 6. As a result of pressure equalization in the cavity 5 with the external medium, the possibility of water penetration with mechanical impurities from the external environment into the gap between the plunger 2 and the housing 1, thereby eliminating premature wear of the movable joint and the seal 4. At the same time by reducing the pressure in the count of the front rod cavity 5, water dust with mechanical impurities is drawn from the external medium into the channel 6 through the hole 9 in the lower part of the side wall of the housing 1. At the same time, a small amount of water dust is drawn into the channel 6 part from the side through the hole 8 in the lower part of the flat partition 7 annular rod cavity 5. Water dust during condensation settles in the form of water droplets together with mechanical impurities on the walls of the channel 6 and the flat partition 7 and flows down and is removed by gravity cut the hole 9 and through the hole 11 in the upper part of the side wall of the housing when the plunger 2 moves from the cavity 14 of the cylinder body 1 and the pressure in the annular rod cavity 5 increases. The visor 12 protects against water dust from the external environment through the hole 11 in the channel 6. Filters 10 and 13 prevent the ingress of large solids.

 Thus, the proposed implementation of the hydraulic cylinder protects against premature wear of the surface of the plunger and cylinder body, as well as sealing elements, prevents the loss of working fluid along the stem of the plunger, eliminates the ingress of water and mechanical impurities into the working fluid and increases the life of the hydraulic cylinder.

Claims (7)

 1. A hydraulic cylinder comprising a plunger installed in the housing, the movable connection of which with the housing cover is provided with a sealing element located in the cover, the plunger being made with the formation of an annular rod cavity in the movable connection with the housing from the lid side, characterized in that the annular rod cavity communicated with the external environment through a channel made in the side wall of the cylinder body longitudinally along its entire length.  2. The cylinder according to claim 1, characterized in that in the channel made in the side wall of the cylinder body, a precipitating element is installed, while the channel is in communication with the external environment through an opening in the lower part of the side wall of the body, the cross-sectional area of which is less than the cross-sectional area section of the channel.  3. The cylinder according to claim 2, characterized in that the hole in the lower part of the side wall of the housing is equipped with a filter.  4. The cylinder according to one of paragraphs. 2 and 3, characterized in that the precipitating element is made in the form of a screw with a thread.  5. The cylinder according to one of paragraphs. 2 and 3, characterized in that the precipitating element is made in the form of a spring.  6. The cylinder according to one of paragraphs. 2 and 3, characterized in that the precipitating element is made in the form of a flat partition with an opening in the lower part located along the entire length of the channel and separating the annular rod cavity from the external medium, the channel being additionally communicated with the external medium through an opening made in the upper part the side wall of the cylinder body, protected by a visor, the cross-sectional area of which exceeds the cross-sectional area of the hole in the lower part of the side wall of the body.  7. The cylinder according to claim 6, characterized in that the hole made in the upper part of the side wall of the cylinder body is provided with a filter.