RU208966U1 - MOBILE SUPPORT STRUCTURE - Google Patents

Abstract

The utility model relates to building structures that receive the load from the structure and transfer it to the ground. The mobile support structure contains a stand with a base, made telescopic and consisting of two sections, supporting 3 and adjusting 6, with the possibility of adjusting the sections in height and subsequent rigid fastening of the sections relative to each other. As a base, a support block 2 is used, containing through holes through which at least three support rods 1 with tips 7 pass. The adjustment section of the rack 6 is connected to the upper support platform 11 and contains at least two rows of through holes for pre-setting the overall height of the mobile support structure. The supporting section of the rack 3 is provided with 2 through longitudinal grooves corresponding in width to the holes of the adjusting section in order to fix the sections relative to each other by means of a fixing bracket. The utility model makes it possible to increase the efficiency and reduce the time of erection of foundation structures without the use of heavy construction equipment and complex geodetic instruments, with the possibility of dismantling the mobile support structure without destroying it. 8 w.p. f-ly, 1 ill.

Description

The utility model relates to building structures that receive the load from the structure and transfer it to the ground (foundation). As structures, frame houses and agricultural buildings can be considered, among other things.

The closest analogue of the claimed mobile support structure is the support structure described in utility model patent RU 56712 U1 (class H01H 31/02, 03/20/2006). The well-known supporting structure contains a metal structure for installing the structure and a rack with a base for fixing the metal structure on the foundation. The rack is made telescopic, in the form of at least two sections with the possibility of adjusting the sections along the height of the rack and subsequent rigid fastening of the sections relative to each other.

The disadvantages of the known support structure are the lack of a basic rigid and fixed (in all three planes) fixation of this structure on an installed (including uneven) surface, the ability to pre-adjust the support structure in height and the need to pre-level the ground, which complicates its operation.

The technical objective of the proposed utility model is the development of a mobile (collapsible) support structure that is easy to install and operate due to the possibility of its preliminary adjustment in height, which will allow building structures, including frame houses and agricultural buildings, on uneven ground without using construction equipment and with the possibility of its repeated dismantling without destruction.

The technical result of the proposed utility model is to increase the efficiency and reduce the time of erection of foundation structures without the use of heavy construction equipment, without complex geodetic instruments, without excavation and with the possibility of dismantling a mobile support structure (MOC) without destroying it.

The technical result is achieved by the fact that the mobile support structure contains a stand with a base, made telescopic and consisting of two sections, support and adjustment, with the possibility of adjusting the sections in height and subsequent rigid fastening of the sections relative to each other, according to the proposal, a support block is used as the base, containing through holes through which at least three support rods with tips pass, the adjusting section of the rack is connected to the upper support platform and contains at least two rows of through holes for pre-setting the total height of the mobile support structure, while for preliminary adjusting the height of the mobile support structure, the supporting section of the rack is provided with two through longitudinal grooves corresponding in width to the holes of the adjusting section in order to fix the sections relative to each other by means of a locking bracket; for the final setting of the height of the mobile support structure, the support section of the rack is equipped with an external thread and a nut, which allows you to extremely accurately set the required overall height of the mobile support structure; while fixing the adjusting nut is carried out by means of a stopper that prevents the possibility of rotation of the adjusting nut. The through holes in the support block are made with the possibility of the support rods passing through them at an angle of 5 to 90 degrees to the horizon. The width of the longitudinal grooves of the support section of the rack corresponds to the diameter of the through holes of the adjusting section. The support section is made with the possibility of dismantling. The support section of the rack is attached to the support block by means of the bottom support platform. The thread length of the support section of the rack is at least 2/3 of the length of the support section of the rack. The distance between the centers of the holes in the adjustment column does not exceed the height of the adjustment nut. The upper support platform of the adjusting post contains at least three through holes for fastening the structure to be installed on it. The upper support platform of the adjusting post is made with the possibility of placing a pressure sensor on it to control the load of the structure installed on it.

The proposed device is illustrated by a drawing, which shows a General view of the mobile support structure.

A mobile support structure (MOC) for attaching the structure to the foundation contains support rods 1 with tips 7 and plugs 8 (the optimal number is at least 3 pieces depending on the shape of the block 2, usually from 3 to 6 support rods are used), support block 2, rack , made telescopic and consisting of two sections: the support section of the rack 3 with the bottom support platform 9 and the adjusting section of the rack 6 with the top support platform 11, connected to each other by means of a fixing bracket 10 and an adjusting nut 5 with a stopper 12.

As a base, a support block 2 is used, containing at least 3 through holes with an inclination angle from the horizontal from 5 to 90 degrees, through which support rods with tips pass. To achieve the best support characteristics, the number of support rods must be at least 3, and the holes in the support block are made with the possibility of passing through them the support rods at an angle of 5 to 90 degrees to the horizon, because with a smaller number of support rods and a different range of installation angles, the stability of the IOC cannot be guaranteed.

The adjusting section of the rack 6 is connected to the upper support platform 11 and contains at least two rows of through holes, with two holes in each row (optimally at least 6 through holes located relative to each other at a distance of no more than the height of the adjusting nut 5) for pre-installation of the total height of the mobile support structure, which allows you to perfectly accurately set the required height of both a single IOC and an entire pile field of unlimited size on any uneven or inclined surfaces.

To pre-adjust the height of the mobile support structure (pre-installation), the support section of the rack 3 is provided with two through longitudinal grooves located opposite each other and corresponding in width to the holes of the adjusting section 6 in order to fix the sections relative to each other by means of the fixing bracket 10.

For the final setting of the height of the mobile support structure, the support section of the column 3 is provided with an external thread and a nut 5, which makes it possible to set the required total height of the mobile support structure with the utmost precision. Fixation of the adjusting nut 5 is carried out by means of a stopper 12, which prevents the possibility of rotation of the adjusting nut 5.

The width of the longitudinal grooves of the support section of the rack 3 correspond to the diameter of the through holes of the adjusting section 6, which is necessary for fixing the support 3 and adjusting 6 sections relative to each other by means of the fixing bracket 10.

The supporting section of the rack 3 is made tubular. Adjustment rack 6 can be made as solid or tubular (to reduce the total weight of the structure and its cost, but on condition that sufficient strength is maintained). In this case, the inner diameter of the support section of the rack 3 is greater than the outer diameter of the adjusting rack 6.

The support block 2 can be made in the form of a cube, a rectangular or triangular prism, a hemisphere or other complex shape made of an impact-resistant material that does not respond to the external environment (metal, concrete, polymer material, concrete with a metal inner frame, polymer concrete or other impact-resistant material). ). In order to protect block 2 from the effects of the external environment, it can be covered with materials that exclude the effects of moisture and corrosion on it (for example, a protective coating with water-repellent characteristics).

The maximum dimension in the support block 2 is the side that rests on the surface to be installed. At the end of the support rod 1, designed to penetrate into the ground, put on or insert a tip 7, made in the form of a cone, and on the opposite end - a plug 8. The tip 7 is made of impact-resistant material (metal, plastic, metal-plastic or other polymer compound). Plug 8 prevents foreign material from getting inside the support rod and can be made of metal, plastic, metal-plastic or other polymer compound.

The support rod 1 can be made of a pipe or a solid rod, with a round, elliptical, square, rectangular, hexagonal or octagonal section. The support rod 1 can be made of metal, plastic, metal-plastic or other polymer compound, depending on the technical features of the structure being built, the load on the IOC and the soil.

The support section is made with the possibility of dismantling, which greatly simplifies the construction of the foundation and reduces costs in case of design errors or the need to transfer the foundation to another location, and therefore increases efficiency and reduces the time of erection of foundation structures.

The support section of the rack 3 is attached to the support block 2 by means of the bottom support platform 9. To connect the support section of the rack 3, the support platform 9 and the support block 2, welding, gluing or pressing can be used, depending on the required technical characteristics of the mobile support structure (materials, from which the support section of the rack and the lower support platform are made, as well as the load applied to it).

The lower support platform 9 can be detachable or one-piece with the support section of the rack 3, depending on the required technical characteristics of the IOC. In the case of an integral connection, they are welded together. If a detachable connection is required, the lower support platform 9 and the support section of the column 3 can be connected by slipping one on top of the other, or inserting one into the other. Fixture 4 is inserted at one end into the lower support platform 9, and at the other end into the support block 2.

Fastener 4 can be made in the form of a bolted, cotter pin, nut, adhesive, slotted or other connection, including welding, which depends on the expected load on the support structure and the materials from which the rest of its parts are made.

The support post 3 can be attached to the support block 2 without the bottom support platform 9 by inserting the support section of the support 3 into the technological hole of the block 2, made in advance or made as needed.

The length of the thread of the support section of the rack is at least 2/3 of the length of the support section of the rack, which allows, without compromising strength, to have the possibility of maximum adjustment of the entire mobile support structure in height (i.e., due to the long thread when organizing a pile field on an uneven site (with a large difference in height in the horizontal plane) we can set the MOC with the same large difference in height, not only due to the holes in the adjustment column 6, but also due to the thread on the support column 3).

The width of the longitudinal groove of the support section of the rack 3 must be not less than the maximum size of the holes in the adjustment section of the rack 6 and nut 5.

The distance between the centers of the holes in the adjustment column 6 does not exceed the height of the adjustment nut 5, which is a necessary condition for setting any strictly defined height of the Mobile support structure over the entire height range from minimum to maximum.

The upper support platform 11 is connected to the adjusting section of the rack 6 by means of a welded joint.

The upper support platform 11 of the adjusting rack 6 contains at least three through holes for fastening with the structure to be installed on it, which makes it possible to fix the fastening of the mobile support structure with the object to be fixed in the plane.

The upper support platform of the adjustment column can be connected to the structure to be installed on it by means of bolts, or screws, or cotter pins, or self-tapping screws.

The upper support platform of the adjusting post is made with the possibility of placing a pressure sensor on it to control the load of the structure installed on it.

The mobile support structure (MOS) installation process can be described as follows.

Align the platform relative to the horizontal at the place of installation of the mobile support structure (MOC) with a size not exceeding the lower plane of the support block 2. Put the support block 2 on the platform. We take the support rod 1 and attach the tip 7 to it. Next, insert the support rod 1 into the hole of the support block 2 and by means of mechanical or electromechanical action (sledgehammer, perforator, jackhammer or other), at an inclination to the horizontal from 5 to 90 degrees, insert the support rod 1 into the ground, rigidly fixing the position, and attach the plug 8 to the upper end of the support rod 1. We do the same with all the other rods, while controlling the horizontal plane of the support block, on which the entire support section of the MOK is installed, or the vertical plane of the attached support column 3 through the level. Thus, the IOC without prior preparation is manually installed on the surface.

We assemble the support section by screwing the adjusting nut 5 onto the thread of the support post 3, inserting the adjusting post 6 into the support post 3. Preliminarily adjust the overall height of the structure by vertically moving the adjusting and support posts relative to each other, and then fix it by means of the fixing bracket 10 passing through a groove in the support column 3 and holes in the adjustment column 6. After that (in the case of a detachable mount), we attach the upper support platform 11 to the adjustment column 6, and the lower support platform 9 to the support column 3. We attach the assembled structure to block 2 by means of fasteners 4 .

And, finally, by rotating the adjusting nut 5 along the thread of the adjusting column 6, the required height of the entire mobile support structure is set. For rigid fixation of the adjusting nut 5, a stopper 12 is used, blocking the possibility of its rotation. To fix the IOC with the object being installed on it, they are fixed through the holes in the upper support platform 11 by means of bolts or self-tapping screws.

If it is necessary to dismantle the IOC, we disconnect the support section from block 2 using an adjustable wrench and a solid support to it to create a “shoulder”, pull out the support rod 1 from the ground and release block 2 from the connection with the ground. After that, the aforementioned IOC can be installed in a different location.

In the completeness of the MOC, on the upper support platform 11 at the junction with the object installed on it, a pressure sensor can be provided, for example, a piezoelectric element fixed on it (on the MOC) by means of a mechanical, adhesive connection, or simply placed on the site. And immediately before installation, and at the time of installation, it is fixed on the IOC by the installed object itself. With the help of a device capable of receiving a signal from the sensor, it is determined how much the IOC has shifted. Knowing such information, we can adjust the IOC and thereby maintain the integrity of the building. The need for a sensor is due to various types of soil on the territory of our planet, in other words, their bearing capacity.

Example.

Mobile supporting structure for house installation (collapsible).

We align the site relative to the horizontal at the place of installation of the mobile support structure. We put the support block, made in the form of a cube, from high-strength concrete on the site. We take 4 support rods made of a metal pipe and attach metal tips to them. Next, we insert the support rods into the holes of the support block and, using a perforator, insert the support rods into the ground at an inclination of 45 degrees to the horizontal, rigidly fixing the position. We attach plastic plugs to the upper ends of the support rods. Thus, the IOC without prior preparation is manually installed on the surface.

We assemble the rack by screwing on the thread of the support section of the rack, made of steel, the adjusting nut and inserting the adjusting section of the rack, also made of steel, into the support rack. The thread length of the support section of the column is 2/3 of the length of the support section of the column.

The overall height of the structure is preliminarily adjusted by vertical movement of the adjustment and support posts relative to each other, and then it is fixed by means of a fixing bracket passing through the groove in the support post and the hole in the adjusting post. After that, we attach the upper support platform to the adjusting section of the rack, and the lower support platform to the support section of the rack.

The support column section is attached to the support block by means of a bottom support platform containing 4 holes by means of bolts.

The upper support platform of the adjusting post is made of a material that is authentic to the material from which the adjusting post is made, and contains 4 through holes for fastening the structure to be installed on it by means of bolts.

The claimed device has a simple design and is easy to use, which allows you to speed up the construction of structures without the use of complex geodetic instruments and preliminary development of the soil.

Claims (9)

1. A mobile support structure containing a stand with a telescopic base and consisting of two sections, a support and an adjustment section, with the possibility of adjusting the sections in height and subsequent rigid fastening of the sections relative to each other, characterized in that a support block is used as the base, containing through holes through which at least three support rods with tips pass, the adjusting section of the rack is connected to the upper support platform and contains at least two rows of through holes for pre-setting the total height of the mobile support structure, while for pre-adjustment of the height of the mobile support structure the support section of the rack is equipped with two through longitudinal grooves corresponding in width to the holes of the adjusting section in order to fix the sections relative to each other by means of a fixing bracket, for the final setting of the height of the mobile support structure the support section the rack is equipped with an external thread and a nut that allows you to extremely accurately set the required total height of the mobile support structure, while the fixing of the adjusting nut is carried out by means of a stopper that prevents the possibility of rotation of the adjusting nut. 2. Mobile support structure according to claim 1, characterized in that through holes in the support block are made with the possibility of passing through them the support rods at an angle of 5 to 90 degrees to the horizon. 3. Mobile support structure according to claim. 1, characterized in that the width of the longitudinal grooves of the support section of the rack corresponds to the diameter of the through holes of the adjusting section. 4. Mobile support structure according to claim. 1, characterized in that the support section is made with the possibility of dismantling. 5. Mobile support structure according to claim. 1, characterized in that the support section of the rack is attached to the support block by means of a lower support platform. 6. Mobile support structure according to claim 1, characterized in that the thread length of the support section of the rack is at least 2/3 of the length of the support section of the rack. 7. Mobile support structure according to claim 1, characterized in that the distance between the centers of the holes in the adjustment column does not exceed the height of the adjustment nut. 8. Mobile support structure according to claim 1, characterized in that the upper support platform of the adjusting column contains at least three through holes for fastening with the structure to be installed on it. 9. Mobile support structure according to claim 1, characterized in that the upper support platform of the adjusting post is configured to place a pressure sensor on it to control the load of the structure installed on it.

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