RU2707607C1 - Bar-lifting panel - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to building elements of buildings and structures. Bar-lifting panel is made of light and strong material, comprises panel body, two covers installed in guides on upper end surface of panel with possibility of movement by means of screw mechanism, four supports located on lower surface of panel. Panel body is made in the form of box of rectangular shape, open from above, with holes of tetrahedral section, arranged in one row from right and left lateral sides. Each hole on the right side of the box is aligned with the corresponding opening on the left side, the number of which is identical on each side. Bar-lifting elements are installed inside barrel and fixed vertically, each of which is made in the form of rectangular tetrahedral bar contacting with next standing bar-lifting elements identical in design. Each of them has in its lower part a transversal through four-sided channel, and in the middle part – a vertical channel of rectangular cross-section opening to the upper surface. In lower part vertical channel is pneumatically and perpendicularly connected with transverse through channel. Inside the vertical channel there are two longitudinal bars in the form of rectangular triangles, one on one side, and other below the first on the opposite side, with their small legs with their small legs facing the transverse through channel, hypotenuse of each of them is located at an angle to the longitudinal axial line of the vertical channel, is parallel and equal in length to the opposite section of the wall of the vertical channel. In the lower part of the vertical channel, at the point of its connection with the transverse through channel, two rectangular longitudinal bars of identical size are attached on opposite side walls, the distance between which corresponds to the width of the inlet opening on the upper end surface of the bar-lifting element, the lower surface of which is smooth. Distance between two rectangular bars is also equal to sum of two small legs of rectangular triangles. All transverse through channels of each bar transient barrel row are interconnected, and extreme ones are connected to corresponding tetrahedral holes on side surfaces of box, number of which is equal to number of cross rows of bar-lifting elements. Flooring is fixed on the upper part of the bar-lifting panel at some distance from the covers.

EFFECT: invention improves operational characteristics and widens field of use of the panel.

1 cl, 16 dwg

Description

The invention relates to the structural elements of buildings and structures.

Known panel overlap, comprising a concrete body with channels located in the transverse direction and filled with insulation. The channels have closed ends, forming ribs along the longitudinal faces, the thickness of which increases evenly from the middle of the panel to its ends.

(RF Patent No. 1,784,722, CL E 04 B 5/02).

The disadvantages of the known panel: high weight, low crack resistance.

These disadvantages are due to the design of the panel and the material used.

Known multi-hollow reinforced concrete panel for floors, having a cross-sectional configuration of voids along the length of the panel, smoothly changing from trapezoidal with a large base on top, and in the middle of the panel with a transition through a rectangular section.

(RF patent No. 1 249 123, CL E 04 B 5/02).

Known bar lifting panel containing the body of the panel, made of lightweight and durable material with longitudinal hollow cavities. Inside the panel there are bar-lifting elements arranged in the longitudinal direction in two rows, and in the transverse direction their number is not limited and is determined by the width of the panel. Each bar-lifting element contains two longitudinal rectangular E-shaped vertical cavities that are not pneumatically connected to each other, arranged symmetrically to each other and turned towards each other with their three lateral longitudinal channels, closed on both end faces. The lowermost lateral longitudinal channels of the E-shaped cavities are blind, and each of the upper lateral longitudinal channels is pneumatically connected to a corresponding vertical longitudinal channel opening to the upper surface of the panel, and by means of an inclined longitudinal channel with an internal cavity of the corresponding longitudinal pipe closed on both end sides . Both middle longitudinal channels are connected to the internal cavities of the respective longitudinal pipes, closed on both end faces. All opposite walls of cavities and channels are equal in area. All surfaces of the arcs across the pipes lying are equal in area. On the upper surface of the panel in the rails there are two covers with the possibility of moving in the transverse direction by means of a screw mechanism, having through longitudinal windows equal in width and length to the vertical channels of the panel. To reduce the weight inside the panel in free places, longitudinal voids are made that are not associated with bar lifting elements. Four supports are made in the lower part of the panel.

(RF patent No. 2 627 507, CL E 04 B 5/02).

The well-known pressure-lifting panel according to the patent of the Russian Federation No. 2 627 507, as the closest in technical essence and achieved useful result, adopted as a prototype.

A disadvantage of the known bar-lifting panel adopted as a prototype is the complexity of the design of bar-lifting elements.

The specified disadvantage is due to the design of the lifting elements.

The objective of the present invention is to increase the technical characteristics of the bar lifting panel.

The technical result is ensured by the fact that in the bar-lifting panel containing the panel body made of light and durable material, bar-lifting elements, two covers installed in the rails on the upper end surface of the panel with the possibility of lateral movement by means of a screw mechanism, four supports located on the lower end the surface of the panel, according to the invention, the body of the panel is made in the form of a box of rectangular shape, open at the top, with openings of tetrahedral section, placed in one poison on the right and left sides, each hole on the right side coaxial to the corresponding hole on the left side, the number of which is the same on each side, inside of which longitudinal and transverse rows are mounted and vertically mounted lifting elements, each of which is made in the form of a rectangular tetrahedral bar in contact with adjacent bar-lifting elements, identical in design, each of which has a transverse through tetrahedral in the lower part anal, and in the middle part there is a vertical channel of rectangular cross section opening onto the upper surface of the bar-lifting element, and in the lower part it is pneumatically perpendicularly connected to the transverse through channel in its middle, and two longitudinal bars in the form of rectangular triangles are fixed inside the vertical channel, one on one side and the other is slightly lower than the first on the opposite side, facing their small legs towards the transverse through channel, the hypotenuse of each of which is located and at an angle to the longitudinal axial line of the vertical channel, it is parallel and equal in length to the opposite section of the wall of the vertical channel, and in the lower part of the vertical channel, at the junction of it with the transverse through channel, two rectangular bars are attached on opposite side walls, half of which go into the transverse a through channel, identical in size, the distance between which corresponds to the width of the inlet on the upper end surface of the bar-lifting element, the lower end surface which is smooth, and the distance between them is also equal to the sum of two small legs of rectangular triangles, in addition, all transverse through channels standing in each transverse row of bar-lifting elements are interconnected, and the extreme ones are connected with the corresponding tetrahedral openings on the side surfaces of the box , the number of which is equal to the number of transverse rows of bar-lifting elements, in addition, on the upper part of the bar-lifting panel, a floor is fixed at some distance from the covers.

The invention is illustrated by drawings, where:

figure 1 - shows a General view of the bar-lifting panel;

figure 2 is a top view of the flooring;

figure 3 is a bottom view of a bar-lifting panel;

in figure 4 is a top view of a bar-lifting panel with a partial section with the flooring removed;

figure 5 is a General view of the lifting element;

figure 6 is a side view of a lifting element;

in figure 7 is a top view of the lifting element;

figure 8 is a bottom view of the lifting element;

figure 9 is a vertical section of a lifting element;

figure 10 is the aspect ratio of the vertical and transverse through channels;

figure 11 is a diagram of the pressure forces of atmospheric air on the inner walls of the lifting element;

figure 12 is a diagram of the pressure forces of atmospheric air from the top of the cover and onto the lower surface of the bar-lifting element;

figure 13 is a diagram of the pressure of atmospheric air on the upper and lower surfaces of the lifting element with the cover removed;

figure 14 is a diagram of the pressure forces of atmospheric air on the upper surface of the pressure-lifting panel with the covers and supports removed;

figure 15 is a diagram of the use of a bar-lifting panel for moving material within a construction site;

in figure 16 - the device of the screw mechanism for opening and closing the covers.

The bar-lifting panel comprises a panel body made of light and strong material in the form of a rectangular box 1, open at the top with openings of tetrahedral cross-section 2, placed in a row on the right and left sides. Each hole on the right side is aligned with the corresponding hole on the left side, the number of which is the same on each side. Inside the box 1, longitudinal and transverse rows are installed and vertically mounted bar-lifting elements 3, each of which is made in the form of a rectangular tetrahedral bar in contact with adjacent bar-lifting elements of the same design. Each bar-lifting element 3 has in the lower part a through four-sided transverse channel 4, and in the middle part a vertical channel 5 of rectangular section, opening onto the upper end surface 6, and in the lower part pneumatically perpendicularly connected to the transverse through channel 4 in its middle. Inside the vertical channel 5, two longitudinal bars are fixed in the form of rectangular triangles 7 and 8, one on one side and the other slightly lower than the first on the opposite side, facing their small legs towards the transverse through channel 4. The hypotenuse of each rectangular triangle 7, 8 is located under angle to the longitudinal axial line of the vertical channel 5, parallel and equal in length to the opposite section of the wall of the vertical channel 5. In the lower part of the vertical channel 5, at the junction of it with the transverse the second through channel 4, two rectangular longitudinal bars 9 and 10, half-entering into the transverse through channel 4, are equal in size, are attached on opposite side walls, and the distance between them corresponds to the width of the inlet of the vertical channel 5 on the upper end surface of the lifting element 3. Distance between two rectangular bars 9 and 10 is also equal to the sum of two small legs of rectangular triangles 7 and 8. All transverse through channels 4, standing in each transverse row of bar-lifting elements 3, are interconnected, and the outermost in these rows are connected to the corresponding tetrahedral holes 2 on the side surfaces of the box 1. On the upper surface of the box 1, two lids 12 and 13 are mounted with the possibility of moving in the transverse direction by means of a screw mechanism. The lids 12, 13 are designed to open and close the rectangular holes of the vertical channel 5, facing the upper end surface 6 of the lifting elements 3, the lower surface 14 of each of which is smooth and fixed inside on the bottom of the box 1. The screw mechanism contains a shaft 15 mounted in bearings and made integrally with screws 16 and 17, one of which has a right-hand thread and the other has a left-hand thread. The nuts 18 are screwed onto the screws 16 and 17, bolted to the covers 12 and 13. A flywheel 19 with a handle is fixed to the shaft 15. On the guides 11 above, at a certain distance from the covers 12 and 13, the flooring 20 is fixed. Four supports 22 are fixed at the corners of the box 1 at the corners. The bar-lifting panel operates as follows. With the covers 12 and 13 closed, box 1 is mounted on supports 22 on a flat surface. The outputs of the vertical channels of rectangular cross section 5 located on the upper end surfaces 6 of all the lifting elements 3 are closed. The atmospheric air pressure created by the Earth’s attraction from above on the covers 12, 13 is equal to the atmospheric pressure on the lower surface 21 of box 1, as equal in area. Lifting power does not occur. However, atmospheric air penetrates into all the bar-lifting elements 3 through openings 2 in the side walls of the box 1 and fills the cavities of the transverse through channels 4 and vertical channels 5 of all the bar-lifting elements 3 and interacts with all available walls. All opposite sections of both channels 4 and 5 are equal in area and size to each other. Hence L ₁ = L ₂ ; L ₃ = L ₄ ; L ₅ = L ₆ ; L ₇ = L ₈ ; L ₉ = L ₁₀ ; L ₁₁ = L ₁₂ ; L ₁₃ = L ₁₄ ; L ₁₅ = L ₁₆ ; L ₁₇ = L ₁₈ ; L ₁₉ = L ₂₀ ; L ₂₁ = L ₂₂ ; L ₂₃ = L ₉ + L ₁₀ + L ₂₁ + L ₂₂ . The pressure of atmospheric air produced at any sites in any direction is mutually balanced regardless of whether the covers 12, 13 are open or closed. Therefore, F ₁ = F ₂ ; F ₃ = F ₄ ; F ₅ = F ₆ ; F ₇ = F ₈ ; F ₉ = F ₁₀ ; F ₁₁ = F ₁₂ ; F ₁₃ = F ₁₄ ; F ₁₅ = F ₁₆ ; F ₁₇ = F ₁₈ ; F ₁₉ = F ₂₀ ; F ₂₁ = F ₂₂ ; F ₂₃ = F ₉ + F ₁₀ + F ₂₁ + F ₂₂ . Thus, atmospheric air does not increase the pressure inside the bar-lifting elements 3. When opening the covers 12, 13, the ratio of the upper end 6 and lower end 14 of the surfaces of the bar-lifting elements 3 (Figs. 12 and 13) and, accordingly, the entire bar-lifting panel changes. Due to the openings of the vertical channels 5 of the barostatic elements 3, the area of the upper surface 6 of the pressure-lifting panel will be approximately 40-45% less than the lower surface 14 of the box 1. Therefore, the pressure of the atmospheric air Fv + will act on the upper end surfaces 6 of the pressure-lifting elements 3 in the same direction the force of weight P will act, and they will be opposed by a pressure force of atmospheric air from below Fн that is large in magnitude, which will balance the forces Fв and Р, and the remaining force Фп will lift the bar-lifting panel up to as long as the air pressure on the lower surface 14, decreasing with height, does not balance the forces Fв and Р (Fig. 13. And vice versa, with the covers 12 and 13 closed, the forces Фв and Фн are equal in magnitude because the areas of the upper 6 and lower 14 surfaces are equal (Fig. 12).

If you remove the support 22, then on the lower surface 21 of the box 1 will no longer act the pressure force of atmospheric air Fn (Fig. 14). To turn on the lifting force, it is necessary to turn the flywheel 19 and push the covers 12 and 13 apart in the transverse direction, and then the ratio of the areas of the upper 6 and lower 14 of the lifting elements 3 will be violated. move to the center of the bar-lifting panel, close all openings of the vertical channels 5 on the upper surfaces 6 of the bar-lifting elements 3, the upper and lower surfaces of the bar-lifting panel are equal in area and the lifting force will disappear. The stronger the covers 12 and 13 are moved apart and the more holes are open on the upper surface of the bar-lifting panel, the greater the lifting force and vice versa. Bar lifting panels can be used in the construction of foundations on weakly bearing soils, as well as for transporting small loads within the construction site, as shown in figure 15.

The technical result of the invention is to increase the operational characteristics of the bar-lifting panel, simplifying the design of the bar-lifting element and expanding the scope of the multi-hollow panel.

Claims (1)

A bar-lifting panel comprising a panel body made of light and strong material, two covers mounted in rails on the upper end surface of the panel with the possibility of lateral movement by means of a screw mechanism, four supports located on the lower surface of the panel, characterized in that the panel body is made in the shape of a box of rectangular shape, open at the top, with openings of tetrahedral cross-section, placed in a row on the right and left sides, with each opening on the right side They are aligned with the corresponding hole on the left side, the number of which is the same on each side, inside of which bar-lifting elements are installed and fixed vertically and transverse rows, each of which is made in the form of a rectangular tetrahedral bar in contact with adjacent bar-lifting elements, identical in design, each of which has in its lower part a transverse through quadrangular channel, and in the middle part a vertical channel of rectangular cross section, opening on the upper surface of the bar-lifting element, and in the lower part it is pneumatically perpendicularly connected to the transverse through channel in its middle, and two longitudinal bars in the form of rectangular triangles are fixed inside the vertical channel, one on one side and the other slightly lower than the first on the opposite side, facing their small legs towards the transverse through channel, the hypotenuse of each of which is located at an angle to the longitudinal axial line of the vertical channel, is parallel and equal to about the length of the opposite section of the wall of the vertical channel, and in the lower part of the vertical channel, at the junction with the transverse through channel, two rectangular longitudinal bars are fixed on the opposite side walls, halfway into the transverse through channel, the same size, the distance between which corresponds to the width of the input holes on the upper end surface of the lifting element, the lower end surface of which is smooth, and the distance between them is also equal to the sum of two x small legs of rectangular triangles, in addition, all transverse through channels of bar-lifting elements standing in each transverse row are interconnected, and the extreme of them are connected with the corresponding tetrahedral openings on the side surfaces of the box, the number of which is equal to the number of transverse rows of bar-lifting elements, except Moreover, on the top of the bar-lifting panel, a floor is fixed at some distance from the covers.

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