RU2734383C1 - Constant force support - Google Patents

Abstract

FIELD: manufacturing technology.

SUBSTANCE: invention relates to engineering, where spring supports of constant force are used to support movable elements with transfer of force to bearing structures. Stiffness element is made in form of one spring (1), which receives only vertical load, and by one end is fixed on support plate (2) in internal cavity of housing (3) of constant force support, on the second end of the spring there is centering part (4) with two symmetrically arranged pins (5), on which rollers (6) are placed and interact with the curvilinear profile of cams (7), wherein axes (8) of cams are located in vertical slots of housing (3) and fixed by tie (9) with threaded hole forming a helical pair with adjusting screw (10), which head is located on external surface of housing (3) and having rotary degree of freedom around its own axis due to retainer (11); on cams (7) a projection is made, which is arranged in inclined slots of shaped U-shaped plate (12) of load-carrying part, besides, slots are arranged in a mirror manner relative to symmetry plane of profiled U-shaped plate (12), plane of symmetry is perpendicular to lateral elements of U-shaped plate (12) and passes through line of action of load on spring (1); side elements of U-shaped plate are arranged in slots of upper part of housing (3), wherein in the horizontal part of U-shaped plate (12) there is a hole with an internal thread, in which pipe (13) with external self-braking thread is placed along the entire length, on the upper end of pipe (13) there is a circular support foot (14), on the lower which surface is located annular bore for connection with pipe (13); on outer side of side elements of U-shaped plate (12) there is a ledge for installation of position lock.

EFFECT: reduced dimensions and simplified adjustment and calibration of spring force at the installation site.

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Description

The invention relates to the field of technology, where spring supports of constant force are used to support movable elements with the transfer of force to supporting structures. The main area of application is the support of pipeline sections that experience visible displacements and require constant supporting forces along the entire path of the pipeline.

Known structures of LISEGA constant force supports of types 11-14 [1], in which the rod, with elements for fastening pipelines, rests on an axial spring, the difference between the spring force and the constant force is compensated by auxiliary springs located on both sides of the main spring, the axes of which perpendicular to the line of action of the constant force, by transferring the force of the auxiliary springs through the cams to the rod. The disadvantage of this design is the large size of the support in the direction perpendicular to the movement of the rod, as well as the unevenness of the constant force due to the presence of several springs, due to the difference in the characteristics of these springs.

As a prototype, the LISEGA constant force support type 19 [1] (patent 2434174) is adopted, containing a body in which the load-carrying part interacts with the curved profile of the cams through a system of rotating elements located on the load-carrying part; the cams, located in pairs on both sides of the load-carrying part, are hinged and transmit the force from the load-carrying part to horizontal springs through inclined slots in the cams. The disadvantage of this design is the large size of the support in the direction perpendicular to the movement of the rod, the unevenness of the constant force due to the presence of several springs, as well as the complexity of setting and calibrating the force of the springs at the place where the support is mounted.

The objective of this invention is to reduce the size and simplify the adjustment and calibration of the spring force at the installation site.

The elimination of disadvantages is ensured by the fact that in a constant force support containing a housing, a stiffener fixed in the constant force support housing, rotary cams and a load-carrying part, characterized in that the stiffening element is made in the form of one spring, which perceives only a vertical load, and one end fixed on the base plate in the inner cavity of the constant force support housing, at the second end of the spring there is a centering part with two symmetrically located pins, on which rotating elements are located and interact with the curved profile of the cams, while the axis of rotation of the rotary cams is located in the vertical grooves of the housing and is fixed a rod with a threaded hole, forming a screw pair with an adjusting screw, the head of which is located on the outer surface of the housing and having a rotational degree of freedom around its own axis; a protrusion is made on the cams, located in the inclined grooves of the profiled U-shaped plate of the load-carrying part, and the grooves are mirrored relative to the plane of symmetry of the profiled U-shaped plate, the plane of symmetry is perpendicular to the side elements of the U-shaped plate and passes through the line of action of the load on the spring; the side elements of the U-shaped plate are located in the grooves of the upper part of the body, while in the horizontal part of the U-shaped plate a hole with an internal thread is made in which a pipe with an external self-braking thread is placed along the entire length, a round support heel is located at the upper end of the pipe, and on the lower the surface of which there is a round groove for connection with the pipe; on the outer side of the side elements of the U-shaped plate, a protrusion is made for installing the retainer.

The design of a constant force support is shown in Figure 1, which defines the main elements of the device.

Figure 2 shows an isometric view of a constant force support, which shows the spatial arrangement of the support elements.

The stiffener is made in the form of one spring (1), which perceives only a vertical load, and at one end is fixed on the base plate (2) in the inner cavity of the body (3) of the constant force support, at the second end of the spring there is a centering piece (4) with two symmetrically located fingers (5), on which rollers (6) are located and interact with the curved profile of the cams (7), while the axis (8) of the cams is located in the vertical grooves of the body (3) and is fixed by a rod (9) with a threaded hole, forming a screw a pair with an adjusting screw (10), the head of which is located on the outer surface of the housing (3) and having a rotational degree of freedom around its own axis due to the lock (11); on the cams (7) a protrusion is made located in the inclined grooves of the profiled U-shaped plate (12) of the load-carrying part, and the grooves are mirrored relative to the plane of symmetry of the profiled U-shaped plate (12), the plane of symmetry is perpendicular to the side elements of the U-shaped plate (12 ) and passes through the line of action of the load on the spring (1); the side elements of the U-shaped plate are located in the grooves of the upper part of the body (3), while in the horizontal part of the U-shaped plate (12) a hole with an internal thread is made, in which a pipe (13) with an external self-braking thread is placed along the entire length, on the upper end of the pipe (13) is a circular support heel (14), on the lower surface of which there is an annular bore for connection with the pipe (13); on the outer side of the side elements of the U-shaped plate (12), a protrusion is made for installing the position lock.

The constant force support works as follows.

The section of the pipeline rests on a load-carrying part, consisting of a U-shaped plate (12), a pipe with an external thread (13) and a support foot (14). The force from the pipeline is transmitted to the rotating cams (7) using the slots in the U-shaped plate (12) and the cams' projections (7) passed through them. Cams (7), pivotally fixed by means of an axis (8), transmit force to the spring (1) through rollers (6) located on the centering part (4). When the position of the pipeline or the load from its support changes, a vertical displacement of the load-carrying part occurs, which in turn leads to rotation of the cams (7) around the axis (8). The rotation of the cam (7) is accompanied by a change in the point of contact with the roller (6) and a vertical displacement of the centering part (4), which leads to a change in the length of the spring (1) and a corresponding change in its force. A constant force on the load-carrying part is ensured due to the fact that the transfer of the force of the spring (1) is carried out through the roller (6) along the curved surface of the cam (7), thus, each position of the load-carrying part, in the working range, corresponds to one position of the cam (7) under which the condition of balance of forces is ensured. The constant support force is adjusted by displacing the rotary cams (7) along the vertical axis relative to the stationary body (3) using a screw pair (9) (10). Turning the screw (10) displaces the cam (7) and the centering piece (4) with a change in the spring length, without changing the point of contact between the cam (7) and the roller (6) relative to the axis (8). The fixing of the load-carrying part relative to the body (3) is carried out by means of a protrusion on the U-shaped plate (12) extending beyond the body (3), which is connected to the body by installing an additional device. Such a device can be a horizontal bar with a centrally located hole for the protrusion on the U-shaped plate (12), which is rigidly fixed to the body (3). Also, it is allowed to install an adjusting device that allows you to adjust the position of the load-carrying part relative to the body (3). A threaded pipe (13) is designed to adjust the height of the support, the rotation of which leads to a vertical displacement of the support foot (14) relative to the U-shaped plate (12).

Comparison of the prototype suspension and the claimed device shows that the change in the number, as well as the location of the stiffeners, provides the claimed device with a reduction in overall size in the direction perpendicular to the movement of the rod. It can also be seen that the location of the head of the load-adjusting screws outside the housing makes them easier to access.

Bibliography

1. LISEGA catalog "Standard Supports 2020", Issue November 2017

Claims (1)

A constant force support containing a body, a stiffener fixed in the constant force support body, rotary cams and a load-carrying part, characterized in that the stiffener is made in the form of a single spring that takes only a vertical load, and one end attached to the base plate in the inner the cavity of the constant force support housing, at the second end of the spring is a centering part with two symmetrically located pins, on which rotating elements are located and interact with the curved profile of the cams, while the axis of rotation of the rotary cams is located in the vertical grooves of the housing and is fixed by a rod with a threaded hole forming a screw pair with an adjusting screw, the head of which is located on the outer surface of the housing and having a rotational degree of freedom around its own axis; a protrusion is made on the cams, located in the inclined grooves of the profiled U-shaped plate of the load-carrying part, and the grooves are mirrored relative to the plane of symmetry of the profiled U-shaped plate, the plane of symmetry is perpendicular to the side elements of the U-shaped plate and passes through the line of action of the load on the spring; the side elements of the U-shaped plate are located in the grooves of the upper part of the body, while in the horizontal part of the U-shaped plate a hole with an internal thread is made, in which a pipe with an external self-braking thread is placed along the entire length, a round support heel is located at the upper end of the pipe, on the bottom surface of which is a round groove for connection with the pipe; on the outer side of the side elements of the U-shaped plate, a protrusion is made for installing the retainer.

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