RU41053U1 - ADJUSTABLE BRACKET SUPPORT - Google Patents

Abstract

1. An adjustable support for a prefabricated floor, comprising a rod rigidly connected to the base plate, and a body made in the form of a sleeve having a support flange on one side and a cylindrical flange mounted on the other, mounted for axial movement and fixing on the shaft, characterized in that the lateral side of the liner, at least half its length from one to the other flange, has the shape of a curved convex or concave surface formed by rotation of a second-order line segment around the axis of the support, while supporting flange has a support platform for receiving the ends of U-shaped cross-sectional profiles, the floor panels carrier made open on the edge of the flange grooves for passage of the vertical walls profiley.2. The adjustable support according to claim 1, characterized in that the tangent to the line segment forming the curved shape of the surface of the side of the sleeve, at the end point of this segment facing the support flange, is parallel to the axis of the support or angled to it. The adjustable support according to claim 1, characterized in that the tangent to the line segment forming the curved shape of the surface of the side of the sleeve, at the end point of this segment facing the support flange, is located to the axis of the support at an acute angle, the magnitude of which increases from the said point of the segment to its other end point facing the cylindrical flange. 4. The adjustable support according to claim 1, characterized in that the second-order line segment is an arc of a circle. The adjustable support according to claim 1, characterized in that the side of the sleeve has a portion of a curved surface formed by the

Description

The utility model relates to the field of construction, in particular, to prefabricated floor panel constructions forming an underground space in the premises for electrical communications and / or ventilation by installing floor panels on height-adjustable supports.

Known adjustable support prefabricated floor containing a rod rigidly connected to the base plate, and a housing made in the form of a sleeve having a support flange on one end and a cylindrical flange mounted on the other with axial movement and fixation to the rod (EP 0980944 A 1, CL E 04 P 15/024, 23.02.2000).

The lateral side of the sleeve of the known support has the shape of a cylindrical surface on which reinforcing elements are made in the form of stiffeners, stamped along the core portion of the sleeve.

During the operation of the floor, the support experiences significant alternating axial loads with a lateral component.

When calculating the strength of structural elements of floors of the type of sleeve, which is an essentially cylindrical thin-walled pipe with a significant ratio of length and diameter, the possibility of loss of stability by the sleeve due to bending from compression under axial load is taken into account.

The disadvantages of the known supports include a significant wall thickness of the housing, due to the need to ensure the longitudinal stability of the liner, and the associated increased material consumption and weighting of the structure. In addition, due to the developed flange in comparison with a relatively small diameter sleeve, under the action of the lateral component of an alternating load, there is a risk of deformation

flange, which at critical loads can occur even before the liner loses longitudinal stability.

Known adjustable support prefabricated floor structure containing a rod rigidly connected to the base plate, and a housing made in the form of a sleeve having a support flange on one edge and a cylindrical flange mounted on the other with axial movement and fixing on the rod (BE 4132989 , CL E 04 P 15/024, 04/08/1993).

The lateral side of the sleeve of the known support has the shape of a conical surface on which elements of its reinforcement are made in the form of longitudinal stiffened ribs extending onto the flange.

The adjustable support of this prefabricated floor structure is the closest analogue of the claimed device.

In this device, the disadvantages of the previous analogue have been partially eliminated - due to the implementation of the sleeve with a conical lateral surface, the wall thickness can be slightly reduced, and the sides connecting the side of the sleeve with the flange of the stiffener increase its strength. Despite a slight increase in transverse dimensions due to the formation of a conical part of the body, a decrease in wall thickness can reduce the consumption of the material as a whole. However, this design of the sleeve does not provide a significant reduction in the thickness of its walls. When reducing the wall thickness, in order to obtain the required strength of the housing, it is necessary to have reinforcing elements on the side of the sleeve and flange, which complicates the design and manufacturing technology of the support housing.

The problem the utility model aims to solve is to eliminate the shortcomings of the known support structure and provide the necessary strength characteristics while reducing material consumption, simplifying the design and manufacturing technology of the support body.

The specified technical result and other advantages are achieved due to the fact that in the adjustable support of the prefabricated panel of the floor structure,

comprising a rod rigidly connected to the base plate and a body made in the form of a sleeve having a support flange on one side and a cylindrical flange mounted on the other side mounted axially and fixed to the shaft, the side of the sleeve at least halfway its length from one to the other flange, has the shape of a curved convex or concave surface formed by the rotation of a segment of a second-order line around the axis of the support, while the supporting flange has bearing pads to accommodate the ends different cross-sections of profiles supporting floor panels, made with grooves open along the edge of the flange for the passage of the vertical walls of the profiles.

This allows you to increase the strength characteristics, and in particular the longitudinal stability of the bearing housing, with axial alternating loads characteristic of it during operation, when the bearing housing experiences complex loading, including temporary compression. In addition, it becomes possible to simplify the design and manufacturing technology of the housing by eliminating the reinforcing elements of the side of the sleeve.

In addition, the tangent to the line segment forming the curved shape of the surface of the side of the sleeve, at the end point of this segment facing the support flange, can be parallel to the axis of the support or located at an angle to it.

It is preferable that the tangent to the line segment forming a curved shape of the surface of the side of the sleeve at the end point of this segment facing the support flange is located at an acute angle to the support axis, the magnitude of which increases from the point of the segment to its other end point, facing to the cylindrical flange.

In order to simplify manufacturing, a second-order line segment can be an arc of a circle.

The lateral side of the sleeve may have a portion of a curved surface formed by rotation of a segment of a second-order line, and a portion of a cylindrical or conjugated to it from the side of the support flange

conical surface.

In addition, the lateral side of the sleeve may have a portion of a curved surface formed by rotation of a segment of a second-order line, and a portion of a conical surface mating with it from the side of the support and / or cylindrical flange.

The lateral side of the sleeve may have mating portions with flanges, which have the shape of a curved surface, formed by the rotation of a segment of a second-order line around the axis of the support. The presence of mating sections improves the strength characteristics of the support housing.

To simplify the design, the segment forming the shape of the curved surface of the mating section is an arc of a circle, which is inherent in structures obtained, for example, by casting.

Each supporting platform of the supporting flange can be made with grooves open along the edge of the flange for the passage of the vertical walls of the profiles and has a flange reinforcement element located between the grooves, made in the form of an extruded groove with a flat bottom parallel to the grooves, in which from the opposite side the open edge of the gutter has a hole for attaching the end of the profile.

The depth of the gutter is usually 0.5-1.5 thickness of the flange. The utility model is illustrated by drawings, where in Fig.1 shows an adjustable support, top view;

figure 2 is a section aa in figure 1;

figure 3 is a section bB in figure 1;

Figures 4a-4c show various surface shapes of the side of a support sleeve;

figure 5 shows the pad support Assembly with the plate puller electrostatic charges;

in Fig.6 - the stripper plate before assembly with an overlay.

Adjustable support 1 (Fig. 1) of a prefabricated floor comprises a base plate 2, rigidly connected with it, for example by welding, a rod 3, and a body made in the form of a sleeve 4 having a cylindrical flange 5 from one edge (Fig. 3), and the other is the supporting flange 6.

The lateral side of the sleeve 4, at least half its length from the support flange 6 to the cylindrical flange 5 has the shape of a curved convex or concave surface formed by the rotation of a segment of a second-order line around the axis of the support (Fig. 4). The flange 6 has a supporting platform for accommodating the ends of the U-shaped in cross section of the profiles 8, bearing the floor panel 10 (figure 1).

It is preferable to perform the lateral side of the sleeve over its entire length from one 5 to another flange 6 in the form of a curved surface formed by the rotation of a segment a of a second order line around the axis of the support (Fig.4c

The tangent to the line segment a, forming a curved shape of the surface of the side of the sleeve, at the end point b of this segment facing the support flange 6, can be parallel to the axis of the support or angled to it.

It is preferable that the tangent to the line segment a, forming a curvilinear surface shape of the side of the sleeve 4, at the end point b of this segment facing the support flange 6, is located at an acute angle to the axis of the support, the magnitude of which increases from the point b of the line a to its other end point e, facing the cylindrical flange 5.

In order to simplify the manufacture, the second-order line segment a can be an arc of a circle of radius K.

The lateral side of the sleeve 4 may have a portion of a curved surface formed by the rotation of a segment of a second-order line a, and a portion e (FIGS. 4a, 46) of a cylindrical or conical surface mating with it from the side of the support flange 6.

In addition, the side of the sleeve 4 may have a portion of a curved surface formed by the rotation of a segment of line a of the second order, and a portion of the conical surface mating with it from the side of the supporting and / or cylindrical flange.

The lateral side of the sleeve 4 may have mating sections with the flanges 5 and 6, which have the shape of a curved surface, also formed by the rotation of a second-order line segment around the axis of the support. Land availability

Interfacing improves the strength characteristics of the support housing.

To simplify the design, the segment forming the shape of the curved surface of the mating section is an arc of a circle of radius r, which is inherent in structures obtained, for example, by casting.

The embodiment of Fig. 46 can be used to obtain the sleeve 4 with a minimum number of transitions, including deep drawing, when stamping the sleeve from a metal sheet.

On figv presents the most optimal in shape, dimensions and strength characteristics of the design of the sleeve 4, containing the minimum number of sections of a curved shape.

A segment of a second-order line a, forming a curved shape of the surface of the side of the sleeve 4, can generally be a section of a parabola or hyperbola, which provides high strength characteristics of the support during compression of its body, however, this is less preferred due to the complexity of manufacturing such forms .

To improve the performance of the precast floor on the flange 6 is a shock-absorbing and / or sound-absorbing pad 7 (figure 1). The flange 6 is designed to install the ends of the profiles 8, bearing metal plates 9 with the upper plastic floor panels 10. The support 1 is equipped with a stripper 11 located on the cover plate 7 of the charges of the electrostatic field of the panels. The puller 11 protects the panels 10 from being electrified by static charges.

The overlay 7 is divided by protrusions 12 into sectors for orienting the angles of the plates 10 with panels 12 mounted on it. Depending on the height and design of the protrusions 12, they can contact the plates 9 and / or with the panels 10. A cylindrical flange 5 of the sleeve 4 is connected to the rod 3 with the possibility of axial movement and fixing by means of a threaded connection 13.

The puller 11 has contact elements and / or pads for electrical connection of the housing 4 of the support 1 with plates 9 and / or panels 10. It is made in the form of a square metal plate 14, the corners of which are located in the sectors of the lining 7. Contact pads for plates 9 and / or panels 10 are located in the corners of the plate 14 on its outer surface.

The plate 14 has openings on its lateral sides of the grooves 15 under the protrusions 12 of the lining 7, and at the corners are open outwards in the direction of its diagonal cutouts. 16.

The contact element for the housing of the support in contact with its flange 6 is pre-formed in the plate by cutting along an open circuit in the form of a petal 17.

When assembling the plate 14 with the lining 7, the petal 17 is passed into the slot 18 (Fig. 6) of the lining 7, made under the open portion of the contour of the lobe 17, and is bent on the opposite side of the lining 7 to its periphery so that the end of the lobe 17 after installing the lining on the support the flange 6 is located between the plate 7 and the flange 6 (figure 3).

Each corner cut 16 of the plate 14 is formed by the side and bottom edges. The bottom edges of the cutouts 16 are located perpendicular to the diagonals of the plate, the side edges parallel to the sides of the plate.

The angular parts of the plate 14 (Fig.6) are raised above the plate, while the plate is made of metal with low electrical resistance.

On the peripheral part of the lining 7 there are elements for fixing the lining 7 on the flange 6 during the final assembly of the body 4 and the lining 7 with the plate 14. The fixing elements of the lining are made in the form of sections of the conical skirt covering the supporting flange 6, which are formed along the edges of the lining 7. The smallest inner diameter of the conical skirt is slightly smaller than the diameter of the support flange 6.

Each supporting platform is made with grooves 19 open along the edge of the flange for passage of the vertical walls of the profiles and has a reinforcing element 20 of the flange 6 located between the grooves, made in the form of an extruded groove with a flat bottom parallel to the grooves 19 and in which there is a flat bottom a hole 21 is made opposite the open edge of the gutter for fastening the end of the profile.

The depth of the gutter is usually 0.5-1.5 thickness of the flange.

The highest strength characteristics of the body of the support 1 are provided in the case when the ratio of the diameter of the rod 3 to the largest diameter B2 of the side of the sleeve 4 with a wall thickness of 2-5 mm

is 0.4-0.6. The ratio with the same wall thickness of the diameter of the rod 3 to the length of the cylindrical flange 5 and to the length of the side of the sleeve 4, measured along the axis of the support, is respectively 0.2-1 and 0.6-0.9.

The overlay 7 is made of a polymeric material having soundproofing and cushioning properties, such as plastic.

The cylindrical flange 5 of the sleeve 4 is made with an internal thread, by means of which the sleeve 4 is mounted on the rod 3 having a mating thread. After moving the sleeve to the required height, the threaded connection of the rod 3 and the sleeve 4 is locked with a lock nut 22.

The flange 5 can be made with a smooth inner surface having a diameter of the external thread of the rod 3.

The base plate 2 has holes 23 for fasteners for mounting the support 1 to the subfloor.

Claims (10)

1. An adjustable support for a prefabricated floor, comprising a rod rigidly connected to the base plate, and a body made in the form of a sleeve having a support flange on one side and a cylindrical flange mounted on the other, mounted for axial movement and fixing on the shaft, characterized in that the lateral side of the liner, at least half its length from one to the other flange, has the shape of a curved convex or concave surface formed by rotation of a second-order line segment around the axis of the support, while supporting flange has a support platform for receiving the ends of U-shaped cross-sectional profiles, the floor panels carrier made open on the edge of the flange grooves for passage of the vertical wall profiles. 2. The adjustable support according to claim 1, characterized in that the tangent to the line segment forming the curved shape of the surface of the side of the sleeve, at the end point of this segment facing the support flange, is parallel to the axis of the support or is located at an angle to it. 3. The adjustable support according to claim 1, characterized in that the tangent to the line segment forming the curved shape of the surface of the side of the sleeve at the end point of this segment facing the support flange is located at an acute angle to the axis of the support, the magnitude of which increases from the aforementioned point of the segment to its other end point facing the cylindrical flange. 4. The adjustable support according to claim 1, characterized in that the line segment of the second order is an arc of a circle. 5. The adjustable support according to claim 1, characterized in that the side of the sleeve has a portion of a curved surface formed by rotation of a second-order line segment, and a portion of a cylindrical or conical surface mating with it from the side of the support flange. 6. The adjustable support according to claim 1, characterized in that the side of the sleeve has a portion of a curved surface formed by rotation of a second-order line segment, and a portion of the conical surface mating with it from the side of the support and / or cylindrical flange. 7. Adjustable support according to claims 1 to 6, characterized in that the mating sections have the shape of a curved surface, which is formed by the rotation of a second-order line segment around the axis of the support. 8. The adjustable support according to claim 7, characterized in that the segment forming the shape of the curved surface of the interface section is an arc of a circle. 9. The adjustable support according to claim 1, characterized in that each support area of the support flange has a flange reinforcement element located between the slots, made in the form of an extruded gutter with a flat bottom open at the edges of the flange and parallel to the grooves, in which from the side opposite to the open the edge of the gutter, made a hole for attaching the end of the profile. 10. The adjustable support according to claim 9, characterized in that the depth of the groove is 0.5-1.5 thickness of the flange.