RU154117U1 - WEDGE ASSEMBLY FOR FASTENING CONSTRUCTION STRUCTURES - Google Patents

Abstract

A wedge assembly for attaching building structures, including a horizontal crossbar of a rectangular shape, a wedge body fixed to the wedge with side and middle walls, and a wedge of curved shape, convex side facing the middle wall of the housing and equipped with a means for the wedge to fall out of the wedge and crossbar housing connection unit, a support flange mounted on a round vertical stand and provided with grooves for mounting the wedge body, the bolt with the wedge body and the wedge inserted in the corresponding groove of the support flange, and about The orifice flange, in turn, is made of a flat shape with an outer contour of a round shape and an inner contour provided with a central hole for fastening to the rack, characterized in that the central wall of the wedge body is made curly with a vertically arranged bend extending along its center and forming in horizontal section with the side letters of the wedge case have the letter “M” with rounded transitions of the side walls to the central wall, while the height of the side walls of the wedge case is equal to the height of its central wall, and the lower hour l the side walls of the wedge body from the side facing the rectangular part of the crossbar is equipped with two cutouts that allow free movement of the wedge body with the wedge inserted into it in the groove of the flange, while grooves with rounding repeating the cross section of the wedge body are made in the supporting flange, except Moreover, the wedge body is provided in horizontal planes with upper and lower guide elements in the form of ears adjacent to the side walls of the body and bent inward, which fix the wedge in the working

Description

The invention relates to the field of construction and can be used for fastening building structures.

The well-known "wedge mounting unit for building structures" mounted on a vertical strut and consisting of a support flange with holes mounted on a strut, horizontal bolt, wedge and wedge housing mounted on a bolt, the flange is made in the form of a flat fittings with an axial hole for mounting to the stand, as well as with grooves for the wedge and wedge body, the crossbar is made with a rectangular section and slit-like grooves at the ends, the wedge case is made with a U-shaped section with two trapezoidal side walls and the middle wall exceeding the height of the side walls by the thickness of the bolt along the vertical axis, while the middle wall of the housing faces the vertical strut, the wedge is made with a height exceeding the height of the housing and with the locking element facing in the opposite direction from the vertical strut, and when installing the bolt the case with a wedge is inserted into the corresponding groove of the support flange.

Patent for PM No. 55822, IPC: E04G 7/22, d. Publ. August 27, 2006

The well-known "Wedge node for mounting building structures" comprising a horizontal rectangular crossbar with slit-like grooves at the ends, a wedge body of a U-shaped section mounted on a crossbar with side walls and an average wall exceeding the height of the side walls by the thickness of the crossbar along the vertical axis, a wedge made with a height exceeding the height of the wedge body, a supporting flange with holes, characterized in that the wedge is made with a complex geometric profile of the end surfaces with the formation of two supporting protrusions with -mentioned interior portion therebetween at one end surface and to form a ledge on the other end surface in the bottom of the wedge bolt is formed with recesses at the ends arranged in front of slit-like grooves on the inner side of the middle wall of the body wedge is formed between the side walls supporting protrusion.

Patent for ПМ №76366 IPC E04G 7/22, publ. September 20, 2008

Famous. A “wedge assembly for fastening building structures” comprising a horizontal rectangular crossbar, at the ends of which there are slit-like grooves and recesses located in front of them, a wedge-shaped wedge body with side walls and an average wall exceeding the height of the side walls by the thickness of the crossbar vertically axis, and on the inner side of the middle wall of the wedge housing between the side walls there is a support protrusion, a support flange with holes and a wedge whose height exceeds the height of the wedge housing a, made with a complex geometric profile of the end surfaces with the formation of a support protrusion on one end surface and a ledge on the other end surface in the lower part of the wedge, and also means for preventing the wedge from falling out of the cavity formed by the welded joint of the wedge body and the crossbar, characterized in that the means for preventing the wedge from falling out is a protrusion on at least one of the side surfaces of the wedge in its middle part between the supporting protrusion and the ledge.

RF patent for ПМ №144162 IPC E04G 7/22, publ. 08/10/2014

The closest analogue to this utility model is the “Mounting unit for building structures” mounted on a vertical stand and horizontal crossbar and consisting of a wedge, a wedge body with side and middle walls and a support flange made in the form of a flat shaped part with an axial hole for mounting to a rack and with figured grooves for installing a wedge housing mounted on a bolt therein, while the wedge housing is made with a curly cross-section with the formation of lateral longitudinal walls and a middle wall as well as with trapezoidal side walls and with a smooth transition from the U-shaped profile in the section of the housing to the M-shaped profile with the formation of a longitudinal protrusion in the middle wall of the housing for springing the wedge, said protrusion being made with increasing height along the longitudinal axis of the housing.

RF patent for ПМ №74943, IPC E04G 7/22, publ. July 20, 2008

The technical result of the claimed utility model includes increasing the reliability of the wedge assembly for attaching building structures by making the central wall of the wedge body curly, supplying the support flange with grooves with rounding repeating the cross section of the wedge body, and making the wedge body with guide elements in the form of ears that fix the wedge in the working plane and supplying the wedge with a complex shape with three wedging zones, two of which are located on the inside of the wedge, the image dissolved projection which serves as a means for preventing loss of the connection node wedge housing and wedge bolt. The achievement of this technical result is ensured by the fact that the wedge assembly for attaching building structures includes a horizontal crossbar of rectangular shape, a wedge body fixed to the wedge with side and middle walls, and a curved wedge facing convex to the middle wall of the housing and equipped with a means for the wedge to fall out of the assembly joints of the wedge and crossbar housing. The wedge assembly also contains a support flange mounted on a round vertical column and provided with grooves for mounting the wedge body. Moreover, the crossbar with the wedge body and the wedge is inserted into the corresponding groove of the support flange, and the support flange, in turn, is made of a flat shape with an external contour of a round shape and an internal contour provided with a central hole for fastening to the rack. In this case, the central wall of the wedge housing is made curly with a vertically arranged bend passing through its center and forming the letter “M” in horizontal section with the side walls of the wedge housing with rounded transitions of the side walls to the central wall. The height of the side walls of the wedge body is equal to the height of its central wall, and the lower part of the side walls of the wedge body from the side facing the rectangular part of the crossbar is equipped with two cutouts that allow free movement of the wedge body with the wedge inserted into it in the groove of the flange. Grooves with fillets are made in the support flange, repeating the cross section of the wedge body. In addition, the wedge housing is provided in horizontal planes with upper and lower guide elements in the form of ears adjacent to the side walls of the housing and bent inward, which fix the wedge in the working plane. The central wall of the wedge housing in the lower part is provided with a bulge directed towards the rectangular crossbar and serving as a supporting protrusion. The wedge, in turn, is equipped with a complex shape with three wedging zones, each of which is made in the form of a part of a circle facing the convex part towards the vertical strut. Moreover, one wedging zone in the form of an arc is located on the outer part of the wedge, and the other two wedging zones are upper and lower on the inner part of the wedge with the formation of a protrusion in the center between them, which serves as a means to prevent the wedge from falling out of the junction of the wedge housing and the crossbar. The wedge assembly for attaching building structures is illustrated by the drawings in FIG. 1, 2, 3, 4, 5, 6, 7, 8, and 9. FIG. 10, 11, 12 and 13 explain the mechanism of interaction of the parts of the node in working condition.

FIG. 1 - wedge assembly for fastening building structures (general view of the assembly);

Fig 2 - wedge assembly for mounting building structures (side view);

FIG. 3 - wedge assembly for fixing building structures (top view);

Fig 4 - a wedge assembly for fixing building structures (connection of a crossbar with a wedge body and a wedge inserted into it);

Fig 5 - wedge assembly for mounting building structures (top view of the wedge with the image of the Central hole and cuts on the wedge body);

Fig 6 - wedge assembly for mounting building structures (horizontal section of the wedge housing);

FIG. 7 and 8 - wedge assembly for fastening building structures (view of the wedge housing from the back and front);

FIG. 9 - wedge assembly for fastening building structures (type of wedge with the image of wedging zones);

FIG. 10 - wedge assembly for fastening building structures (the upper position of the wedge in its body connected to the crossbar);

FIG. 11 - wedge assembly for mounting building structures (the lower position of the wedge in its body connected to the crossbar);

FIG. 12 - wedge assembly for fastening building structures (mechanism of interaction of the assembly elements);

FIG. 13 - wedge assembly for fastening building structures (mechanism for the interaction of the elements of the assembly);

A wedge assembly for attaching building structures according to FIG. 1, 2, 3, 4, 5, 6, 7, 8, and 9 contains a horizontal crossbar 1 of a rectangular shape, a wedge housing 2 with side and middle walls, and a wedge 3 of curved shape mounted on a crossbar, a support flange 4 mounted on a round vertical column 5, and provided with grooves 6 for installing the crossbar 1, the crossbar 1 with the wedge body 2 and the wedge 3 is inserted into the corresponding groove 6 of the support flange 4, and the support flange 4 is made of a flat shape with an external round shape and an internal contour, with a central hole 7 for fastening to a rack 5 and grooves 6 with fillets, repeated cutting section of the wedge body. The Central wall 8 of the housing 2 of the wedge 3 is made curly with a vertically arranged bend passing through its center and forming in the horizontal section with the side walls 9 of the housing 2 of the wedge 3 the letter "M" with rounded transitions of the side walls 9 to the central wall 8, while the height of the side the walls 9 of the housing 2 of the wedge 3 is equal to the height of the Central wall 8 of the housing 2, and the lower part of the side walls 9 of the housing 2 of the wedge from the side facing the rectangular part of the crossbar 1, is equipped with two cutouts 10, allowing free movement housing 2 with a wedge 3 in the groove 6 of the flange 4. In addition, the housing 2 of the wedge 3 is equipped with upper and lower guide elements 11 in the form of ears, for fixing the wedge 3 in the working plane. The central wall 8 of the housing 2 of the wedge 3 in the lower part has a bulge 12 directed towards the rectangular crossbar 1 and serves as a support ledge. The wedge 3 in this case is made of complex shape with three wedging zones, each of which is made in the form of a part of a circle facing the convex part towards the vertical strut 5, with one wedging zone 13 in the form of an arc located on the outer part of the wedge 3, and two other jamming zones the upper 14 and lower 15 on the inner part of the wedge with the formation of a protrusion in the center between them 16. The wedge assembly for attaching building structures is assembled and operates as follows: when assembling the wedge assembly to the vertical post 5, it is welded flange 4 with grooves 6. The wedge 3 is inserted into the wedge housing 2 between the upper and lower guides 11, which is welded to the end of the rectangular crossbar 1. In this case, the wedge 3 is able to freely move inside the wedge 2 and the crossbar 1 body from the upper position (Fig. 10 ) to the lower position (Fig. 11) without falling out of the assembly of elements due to the protrusion 16. If desired, the wedge 3 can be fixed in the upper position with little effort, due to the wedging zones 13 and 14 (Fig. 10). This position of the wedge 3 makes it convenient to lower the body of the wedge 2 into the groove of the flange 6 (Fig. 12). Between the casing 2 of the wedge 3 and the groove of the flange 6 there is a certain technological gap disappearing when wedging. After the wedge body is located in the corresponding groove of the flange, the wedge 3 is knocked out from the upper position to the lower position (Fig. 13) using a percussion instrument.

Further movement of the wedge under the action of a force leads to wedging of the wedge 3 between the central wall of the housing 8 and the protrusion 12 located in the lower part of the central wall of the wedge housing on one side and the groove of the flange 6 on the other. The reaction forces of the supports that arise in this case press the wedge housing 2 with the crossbar 1 to the vertical strut 5 in the working position at a right angle.

The reverse wedging of the elements of the node occurs with a percussion instrument along the wedge 3 from below. In this case, the wedging forces disappear. Between the body of the wedge 2 and the groove of the flange 6 there is a small backlash that allows you to disassemble the wedge connection. The wedge assembly for fastening building structures, proposed as a utility model, makes it possible to increase the reliability of fastening and increase the vertical loads perceived by the flange, provides the convenience of working with the elements of the wedge assembly, simplifies assembly and reduces the cost of production of the basic elements of the wedge assembly.

Claims (1)

A wedge assembly for attaching building structures, including a horizontal crossbar of a rectangular shape, a wedge body fixed to the wedge with side and middle walls, and a wedge of curved shape, convex side facing the middle wall of the housing and equipped with a means for the wedge to fall out of the wedge and crossbar housing connection unit, a support flange mounted on a round vertical stand and provided with grooves for mounting the wedge body, the bolt with the wedge body and the wedge inserted in the corresponding groove of the support flange, and about The orifice flange, in turn, is made of a flat shape with an outer contour of a round shape and an inner contour provided with a central hole for fastening to the rack, characterized in that the central wall of the wedge body is made curly with a vertically arranged bend extending along its center and forming in horizontal section with the side letters of the wedge case have the letter “M” with rounded transitions of the side walls to the central wall, while the height of the side walls of the wedge case is equal to the height of its central wall, and the lower hour l the side walls of the wedge body from the side facing the rectangular part of the crossbar is equipped with two cutouts that allow free movement of the wedge body with the wedge inserted into it in the groove of the flange, while grooves with rounding repeating the cross section of the wedge body are made in the supporting flange, except Moreover, the wedge body is provided in horizontal planes with upper and lower guide elements in the form of ears adjacent to the side walls of the body and bent inward, which fix the wedge in the working planes, and the central wall of the wedge case in the lower part is provided with a bulge directed towards the rectangular crossbar and serving as a supporting ledge, the wedge, in turn, is made of complex shape with three wedging zones, each of which is made in the form of a part of a circle facing the convex part to the side a vertical strut, with one wedging zone in the form of an arc located on the outer part of the wedge, and two other wedging zones, upper and lower, on the inside of the wedge with the formation of a protrusion in the center between them , which serves as a means to prevent the wedge from falling out of the junction of the wedge housing and the crossbar.

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