FI130476B - 3D support with constant force - Google Patents

Abstract

The invention relates to a constant force 3D support in particular for supporting pipelines, devices and/or machines, for controlling the movements of the supported object and/or for eliminating or dampening swinging forces transmitted from the supported object to the support facility, which support facility includes support arms (3), to which a suspension device (22) for the supported object has been attached, and which support system comprises support joints (8) and a center support joint (10) in the inner branches of the support arms (3) for attaching the support arms (3) to a disc frame (12) and in the case of a supporting structure (32) via a connection device (14) which enables rotation, and in which support system the support joints (10) of the inner branches attach the support arms (3) to a tie rod (7) and further through a suspension device ( 5) defining vertical displacement and a base plate (6) at a force adjusting nut (7) to secure these to a disc frame (1) supporting them. The support system according to the invention is characterized by the fact that the center support joint (10) of the support arms (3) has been firmly attached to the disc frame (1) which rotates around an upright axis and the suspension member (5) defined at a desired force which has been attached with the support joint (8) at the inner branch of the support arm (3) carries with a planned force the suspension device (22) which has been attached with the support joint (12) to the outer branch of the support arm (3) and a suspension means (33) with a desired constant force and the above-mentioned construction and suspension device (22 ) together both damp oscillations and control the vertical and horizontal movements of the supported object on a circular arc at a constant distance from the center of the member (14) which enables rotation.

Description

3D CONSTANT FORCE BRACKET.

The object of the invention is a 3D constant force bracket especially for supporting pipelines, devices and/or ducts, for guiding the movements of the object to be supported and/or for damping the vibration forces of the object to be supported, to which the 3D constant force bracket includes a support-reinforced plate frame acting as the end plate of the flexible member, branched support arms attached to the movable from the legs on the support joints to the drawbar on the spring element and on the central support joint to the plate frame supports and the spring element, which is pre-tensioned with the drawbar between the plate frame and the end plate by means of an adjustment nut and attached to the external load-bearing structure, an element enabling rotation of the 3D constant force bracket, the center of which is transverse to the center of the bracket, supported by a roller attached to the hanger arms of the support arms the suspension element that limits the support movement to vertical, the control frame that forms it and the control frame, which is attached to the supports of the plate frame, guides the supported object supported by the suspension element on the spring element in a pre-selected manner and damping vibrations in a circular arc at a constant distance from the center of the element that enables rotation.

Nowadays, equipment attached to load-bearing structures, such as the support of various pipelines, the control of displacements and the damping of vibration forces, are implemented with separate devices for each function separately. The current 2D constant force brackets require a large amount of vertical space, and when using them, the horizontal displacements of the supported objects cause additional stresses in the supported equipment, often requiring a check of the strength calculations after the bracket design. In addition, hinged support arm brackets have a limited operating range because they always have a certain amount of horizontal displacement. Due to the mentioned problems, the planning and implementation of support solutions is often quite time-consuming and expensive.

In addition, the market completely lacks competitive 3D constant force brackets and the additional features attached to them, such as fitting into low spaces and controlling the displacements of supported objects and dampening vibrations. —The purpose of the invention is to provide a set of support equipment that eliminates the above-mentioned problems. In particular, the purpose of the invention is to bring out support equipment that is also suitable for low spaces, reduce costs, and facilitate and speed up the planning and implementation of equipment support.

The purpose of the invention is achieved with a support device, which is characterized by - what is presented in the patent claims.

The 3D constant force bracket of this patent application is in accordance with the specification presented for the relevant bracket type in patent application US 3718305 A and to which the vertically guiding additional parts of the suspension element have been added.

The 3D standard body support according to the invention is characterized by the fact that the support arm is branched and the support force transferred to the suspension member via the suspension arms of the support arm acting on the elastic member is both sufficiently constant and equal to the force required to support the object to be supported attached to the suspension member during the entire vertical displacement, and that the external the load-bearing connection element enabling rotation attached to the load-bearing structure enables the support arms to turn at a certain angle and that the suspension element securely connected to the support arms controls the vertical and horizontal displacements of the object to be supported in a preselected manner and dampens vibrations in a circular arc at a constant distance from the center of the element enabling rotation. The 3D constant force bracket can also be realized as a compact structure so that the vertical displacement of the supported object is multiplied by the compression of the elastic member.

One application of a 3D constant force bracket according to the invention includes a support-reinforced plate frame, a connection element that enables rotation firmly attached to an external load-bearing structure, branched support arms whose inner branches are attached to the drawbar with support joints for the elastic member carrying the desired force, and to the plate frame with middle joints, attached to one end of the drawbar - the end plate and the force adjustment nut, the spring element between the body plate and the end plate, and the suspension element supported by the roller at the ends of the suspension legs of the support arms.

The object to be carried moves the suspension element attached to it and operating on the basis of an elastic element, which works in a pre-selected manner and dampens vibrations in an arc of a circle at a constant distance from the center of the element enabling rotation.

In the following, the invention is explained in more detail by referring to the attached drawing.

Figure 1 shows a 3D constant force bracket according to the invention, shown from the side as a centerline section. — The metal structure 3D constant force bracket shown in Figure 1 includes the branched support arms 3 and at the ends of its inner arms and at their point of intersection, the drawbar 5 and the supports 2 of the plate frame 1, which are attached with joint sleeves 9, 11 and pivot pins 8, 10, and the support arm 3 with the help of the pivot pin 12 and the roller 13 the suspension element 22 connected to the outer branches, with the help of the draw rod 4 and the adjustment nut 7 for the desired — the spring element 5 preloaded for the bearing force of the suspension element 22 between the frame plate 1 and the base plate 6, the connection part 15 of the member 14 enabling rotation attached to the external load-bearing steel structure 32, the bearing 17 and to the frame plate 1 and/or its supports 2 attached body part 16, guide 31 of the elastic member 5, suspension member 22, which is formed by the support plate 19 of the guide body 18, the attachment plates 20 of the hanger 33, the end plates 21, the support plate 23 of the guide rollers 30 and the axle pins of the guide rollers 30 attached to it 29 on the sides of the support, the guide plates of the guide frame 24 25, upper support plate 26, lower support plate 27 and hanger attachment support plates 28.

The 3D constant force bracket according to the invention allows controlled vertical and horizontal displacements of the object of the support, which increase strongly as the leverage ratio increases. These above-mentioned features obtained by increasing the leverage ratio greatly facilitate the planning of supports for various pipes and devices, which can be done without unnecessarily restricting the movement of the object to be supported and the support being carried out as planned.

Utilizing all the features of the 3D constant force bracket according to the invention requires the suspension 33 to have a low and rigid structure that eliminates internal displacements and thus to be an essential part of the bracket assembly.

When using the 3D constant force bracket according to Figure 1, the bracket is attached to the load-bearing structure, e.g. as shown in Figure 1. After this, the hanger 33 and the object to be supported are attached to the suspension member 22, which, due to the pre-crossing of the bracket, may remain in the dimensioned position during installation after the installation of the bracket.

The support equipment according to the invention is not limited to the example application shown above.

In addition to the application of the previous support equipment, the 3D constant force support can — be used without the suspension member 22 by connecting the hanger 33 to the hanger branch 3 of the support arms. The suspension element 22 as such can also be connected to some types of 2D brackets.

Regarding the support device according to the patent application, the bearing of the frame tube 6 can be replaced with some other load-bearing connection that enables the frame tube to rotate, and the parts connected to the support joints 8 of the support arms 3 supported on the elastic member 5 can be replaced with other functional joint solutions.

The invention is not limited to the advantageous applications presented, but can vary within the framework of the inventive idea formed by the patent claims.

Claims (1)

Patent claim: 1. Constant force 3D carrier for carrying up with constant force in particular pipelines, duct systems and/or devices, to control 5 movements of a supported object and/or to dampen swinging forces transmitted from the supported object to a support installation , which support system comprises branched support arms (3), on the outer branches of which are attached a suspension device (22) for the supported object, support joints (8) and a central support joint (10) for inner branches of the support arms (3) to support and fasten the support arms (3) on a plate frame (1) and on a supporting structure (32) via a connecting means (14) which enables rotation to control the movements of the supported object and/or dampen oscillations in the desired way, and in which support system the support joints (8) in the inner branches of the support arms, the support arms (3) attach to a tie rod (4) and further through a spring means (5) that defines vertical movement and through an end plate (6) to a force adjustment nut (7) to attach them to the plate frame (1) which supports them, and further, fixed in a fixed manner on a support frame, as parts which control the suspension device (22) to be moved vertically, attachment parts (28), guide plates (25), an upper support plate (26) and a lower support plate ( 27) for a suspension means, and according to a definition for the 3D carrier with constant force, the center support joint (10) of the carrier arms (3) is fixedly attached to the disk frame (1) which rotates about a vertical axis and the suspension means (5) which has been attached to the inner branch of the support arm (3) carries with a desired force the suspension device (22) which has been attached to the outer branch of the support arm (3) and the suspension member (33) with a desired constant force, characterized in that the support arms (3) and the parts , the fastening parts (28) of the suspension device, guide plates (25), upper support plate (26) and lower support plate (27), which control the movement vertically, together control the suspension device (22) which has been attached to the outer branch of the support arm (3) and both dampen oscillations and controls the vertical and horizontal movements of the supported object on a circular path at a constant distance around a vertical center line of the member (14) which enables the rotation.