WO2017180016A1

WO2017180016A1 - Power element

Info

Publication number: WO2017180016A1
Application number: PCT/RU2016/000536
Authority: WO
Inventors: Юрий Альфредович ЛЕБЕДЕВ; Сергей Александрович МАКСИМОВ
Original assignee: Юрий Альфредович ЛЕБЕДЕВ; Сергей Александрович МАКСИМОВ
Priority date: 2016-04-15
Filing date: 2016-08-12
Publication date: 2017-10-19
Also published as: RU2016114680A3; RU2016114680A

Abstract

The proposed invention, more specifically a power element, makes it possible to eliminate regions of limited chamber elasticity and thus provides for additional extension of a chamber in both a longitudinal and a transverse direction by virtue of the straightening of pleats. The technical result is achieved in the proposed invention by the creation of a power element in which, according to the invention, pleats (2) of each tubular elastic chamber (1) are configured in the form of a spiral, wherein the maximum distance between pistons (7 and 8) of the power element is greater than the maximum distance between its trapezoidal feathers (10).

Description

Power element.

The field of technology.

The present invention relates to mechanical engineering and can be used as jacks or power equipment of hydraulic presses and other devices to create a working effort.

The prior art.

A known power element includes a body detachable along its longitudinal axis (consisting of two punches), a tubular elastic chamber mounted coaxially inside the body, bursting inserts of a trapezoidal section facing the elastic chamber with the largest side of the trapezoidal base and adjacent lateral faces to transverse bevels on internal surfaces detachable parts of the housing, located between the detachable parts of the housing in a sealing sleeve in which the ends of the elastic chamber with elastic chamber ontsah fittings thickening at the end intended for supplying working fluid into the elastic chamber and discharging air therefrom, (SU, SU, JY «1240121, E21S 37/06, 984).

The disadvantages of the known solutions are:

- the need to manufacture additional lodgements that ensure the transfer of the force of the power element to the press plate without significant stress concentrations;

- possible distortions of its moving parts, leading to uneven transmission of force to the movable plate of the press, jamming and rupture of the elastic chamber;

- the manufacture of detachable parts of the housing is associated with a significant number of different technological operations for the implementation elements providing a reliable connection of the elastic tubular chamber with the inlet fittings.

Known multi-chamber power element containing detachable along its longitudinal axis of the housing, at least one tubular elastic chamber mounted inside the housing along its longitudinal axis, at least two bursting inserts of trapezoidal cross section, which for their greater part are supported by tubular elastic chambers adjacent lateral faces to the transverse bevels on the inner surfaces of the detachable parts of the housing, sealing clips with fittings for supplying a working agent and air exhaust from the chamber, and in their end annular cavities are placed ring elastic seals and washers through which end parts of the elastic chambers are passed, side guide cheeks in contact with the outer side surface of the detachable parts of the housing and having transverse protrusions on the inner surfaces that are located in the grooves on the outer side surfaces of the housing, washers are installed in these cavities with the possibility of extension into the gap between the ends of the sealing clips and the ends of the detachable parts of the housing under the influence of elastic sealing Relatives (RF patent JY ° 1 14677 B66F 3/24, 201 1)

The disadvantages of the known design are:

- limited pressure in the elastic chambers and, as a consequence, the working force of the punches of the power element.

This is because, firstly, significant pressure on the inner ends of the sealing clips is not used to create a useful force, and secondly, the working pressure is limited due to the need to hold the cheeks in which the clips are secured against plastic deformations, as well as compensate for their longitudinal elastic deformations, complicating the design of the sealing clips.

- the limited stroke of the punches is due to a sharp decrease in the durability of standard tubular elastic chambers, if their stretching exceeds 400%.

The closest in technical essence to the present invention is a power element comprising a housing detachable along its longitudinal axis, tubular elastic chambers with corrugations mounted inside the housing along its longitudinal axis, transmitting force to the detachable parts of the housing bursting inserts of trapezoidal section, supported by elastic tubular chambers adjacent side edges to the transverse bevels on the inner surfaces of the detachable parts of the housing, the sealing clips located at the ends of the housing , fittings for supplying a working agent and venting air from elastic chambers, moreover, guide racks are installed in the lower part of the detachable housing perpendicular to the plane of the housing connector, and the upper part of the housing is provided with end protrusions with bevels on the inner surfaces and located between the guide racks, the bevels of the end protrusions in contact reciprocal bevels made on the outer surfaces of the sealing clips, which are placed between the guide racks with the possibility of longitudinal movement along the bevels of the detachable casing, and the sealing clips installed in the second end part of the casing are made in the form of end trapezoidal inserts in contact with the opposite ends of the elastic chambers having corrugations, and the corrugations of the central part of the elastic chambers have contact with the expanding inserts (see. RF patent 54557, class E21C37 / 10, 2014) The main disadvantage of the known design is the constructive solution of the corrugated elastic chamber, in which the joints between the longitudinal and transverse corrugations have limited elasticity, since these joints in the longitudinal and transverse directions do not have corrugations. In fact, the durability (operability) of the camera is limited by joints and can only be slightly increased due to the corrugated part of the camera.

Disclosure of the invention.

The technical result solved by the invention is the creation of a power element that allows to exclude zones of limited elasticity and thereby providing additional stretching of the chamber, both in the longitudinal and transverse directions due to the "expansion" of the corrugations.

The technical result in the present invention is achieved by the creation of a power element containing a body detachable along its longitudinal axis, tubular elastic chambers with corrugations installed inside the body along its longitudinal axis, transmitting force to the detachable parts of the housing bursting inserts of trapezoidal section, supported by tubular elastic chambers, adjacent lateral faces to the transverse bevels on the inner surfaces of the detachable parts of the housing, the sealing clips located at the ends of the housing, pieces guides for supplying a working agent and venting air from elastic chambers, moreover, guide racks are installed in the lower part (lower punch) of the detachable housing perpendicular to the plane of the housing connector, and the upper part (upper punch) of the housing is equipped with end protrusions with bevels on the inner surfaces and located between the guide racks while the sealing clips are placed between guiding racks with the possibility of longitudinal movement along the bevels of the detachable case, and the sealing clips installed in the second end part of the case are made in the form of end trapezoidal inserts in contact with the opposite ends of the elastic chambers having corrugations, and the corrugations of the central part of the elastic chambers have contact with bursting inserts, in which , according to the invention, the corrugations of each tubular elastic chamber are made in the form of a spiral, with the maximum distance between the punches of the power element the one greater than the maximum distance between its trapezoidal inlays.

The spiral arrangement of the corrugations of the elastic chamber in the present invention eliminates zones of limited elasticity and provides additional stretching of the chamber, both in the longitudinal and transverse directions due to the “straightening” of the corrugations, that is, without using the elasticity of the material of the chamber.

Pre-compression of the chamber between the trapezoidal inserts, for example, due to the return springs of the power element allows you to compensate for the accelerating stretching of the chamber along the plane of symmetry of the inserts.

The installation of fittings for supplying a working agent and venting air from elastic chambers in one of the sealing clips makes it easier to service power elements (air displacement and filling with a working agent), as well as to simplify the protection of the fittings from damage, since they are accessed from one side.

The installation of fittings for supplying a working agent and venting air from elastic chambers in different sealing clips installed on opposite sides in the housing is necessary if the dimensions of the power element, for example, a cross section, are not allow you to place both fittings on one side of the power element or, if necessary, the serial connection of the power elements in the garland, for example for placement in pipes.

Disclosure of graphic materials.

The essence of the proposed power element is illustrated by the following description and drawings, where:

In FIG. 1 shows a longitudinal section of a power element, in which the fittings for supplying a working agent and air exhaust from elastic chambers are installed in one of the sealing clips;

In FIG. 2 - section aa in figure 1;

In FIG. 3 shows a longitudinal section of a power element, in which the fittings for supplying a working agent and venting air from elastic chambers are installed in different sealing clips installed on opposite sides in the housing;

In FIG. 4 is a section BB in FIG. 3.

The best embodiment of the proposed power element. The power element comprises a body (punches) that is detachable along its longitudinal axis, tubular elastic chambers 1 with corrugations 2. mounted inside the housing in the plane of its connector, bursting inserts 3 of trapezoidal cross section, which are supported by the tubular elastic chambers 1 located on the ends of the housing clips 4, fittings for air exhaust 5 from the elastic chambers 1 and the supply of the working agent 6

Depending on the technological tasks presented to the proposed design, the fittings for supplying the working agent 6 and air exhaust 5 from the elastic chambers 1 can be installed in one of the sealing clips (4) or in different sealing clips 4 installed on opposite sides in the housing. The sealing clips 4 installed in the second end part of the housing are made in the form of end trapezoidal inserts.

The corrugations of 2 tubular elastic chambers are made in the form of a spiral, while the maximum distance between the punches is greater than the maximum distance between the trapezoidal inserts.

The angle of inclination of the spiral turns is chosen experimentally depending on how far the stroke of the trapezoidal inserts is ahead of the stroke of the punches, for example, if the working stroke of the punches and inserts coincides, then the angle of inclination of the spiral turns relative to the axis of the force element will be 45 degrees, and if the stroke of the inserts is longer, then the angle of inclination of the turns is greater.

Thus, it is possible to achieve a greater stretching of the chamber in the transverse direction, compared with the longitudinal, in order to compensate for the increased stretching of the chamber in the transverse direction.

The choice of the angle of inclination of the coils of the spiral ensures uniform stretching of the chamber, even if the values of longitudinal tension differ from transverse tension.

Spiral corrugations 2 of the elastic chambers are in contact with longitudinal bursting inserts 3 of a trapezoidal section and end trapezoidal inserts 10 (a sealing sleeve

four)

The sealing clips 4 abut lateral faces to the inner surfaces of the detachable lower 7 (lower punch) and upper 8 (upper punch) parts of the housing.

In the lower part 7 of the detachable housing perpendicular to the plane of the connector housing mounted guide racks 9. Sealing clips 4 are placed between the guide racks 9 with the possibility of longitudinal movement along the bevels (not shown) of the detachable case.

The proposed power element operates as follows.

At the beginning of the working cycle, in all the elastic tubular chambers 1, a working agent is fed through the inlet of the working agent 6, while air is removed from them through the air outlet 5, which are fixed, for example, in sealing clips 4.

After displacing the air from the chambers 1, the air outlet 6 will be closed. Under the influence of the pressure of the working agent on the side walls of the elastic tubular chamber 1, it expands and through the bursting inserts of the trapezoidal section 3 transfers the force directly to the detachable parts of the housing (punches).

At the same time, the bursting inserts of trapezoidal section 3 transmit a 1.6-fold increased force to the detachable lower 7 and upper 8 parts of the body (the gain is given for the commonly used angle between the side bevels of the bursting inserts of trapezoidal section -60 degrees).

During the working cycle, the upper detachable part 8 of the housing moves along the guide racks 9, preventing possible distortions and ensuring its plane-parallel movement and the creation of a given force on the target.

After completing the working cycle and depressurizing the working agent, the pairs of bursting inserts of trapezoidal cross section 3 and detachable lower 7 and upper 8 parts of the housing return to their original position under their own weight and / or by additional return springs on the press or jack (not shown in the drawing).

Industrial applicability

Prototypes of the proposed power element were made, in which:

- fittings for supplying the working agent and air exhaust from the elastic chambers are installed in one of the sealing clips.

- fittings for supplying the working agent and air exhaust from the elastic chambers are installed in different sealing clips installed on opposite sides in the housing.

The test results showed that the present invention several times increases the durability of the chamber of the power element due to the possibility, at least during idling, not to use the margin of elasticity.

Thus, during the working stroke, the camera operates in a comfortable mode with a large margin of elasticity, and this allows not only to significantly increase the durability of the camera, but also to increase the working stroke of the power element.

Claims

Claim.

1. A power element comprising a housing detachable along its longitudinal axis, tubular elastic chambers (1) with corrugations (2) installed inside the housing along its longitudinal axis, transmitting force to the detachable parts of the housing bursting trapezoidal section inserts (3), supported by tubular elastic chambers (1) adjacent by lateral faces to transverse bevels on the inner surfaces of the detachable parts of the housing, sealing clips located at the ends of the housing (4), fittings for supplying the working agent (6) and air outlet (5) from the elastic x chambers (1), moreover, in the lower part (lower punch) (7) of the detachable case, racks (9) are installed perpendicular to the plane of the case connector, and the upper part (upper punch) (8) of the case is equipped with end protrusions with bevels on the inner surfaces and located between the guide posts, while the sealing clips (4) are placed between the guide posts (9) with the possibility of longitudinal movement along the bevels of the detachable housing, and the sealing clips (4) installed in the second end part of the housing in the form of end trapezoidal inserts (10) in contact with opposite ends of the elastic chambers having corrugations, and the corrugations of the central part of the elastic chambers have contact with bursting inserts, characterized in that the corrugations (2) of each tubular elastic chamber (1) are made in the form of a spiral, with this maximum distance between the punches (7 and 8) of the power element is greater than the maximum distance between its trapezoidal inserts (10).

2. The power element according to claim 1, characterized in that the fittings for supplying the working agent (6) and air outlet (5) from the elastic chambers (1) are installed in one of the sealing clips (4).

3. The power element according to claim 1, characterized in that the fittings (6) for supplying a working agent and exhaust (5) for air from elastic chambers are installed in different sealing clips (4) installed on opposite sides in the housing.