RU131825U1 - LIGHTHOUSE MOUNTING DEVICE - Google Patents

Abstract

1. A device for attaching a beacon, comprising a base plate with a hole for attaching to a wall, characterized in that two latches are fixed to the base plate. 2. The device according to claim 1, characterized in that the fixtures are made in the form of Ω-shaped elastic plates. 3. The device according to claim 1, characterized in that the base plate is made with three holes, while the middle one is for fasteners, and the two extreme ones for installing the clips. 4. The device according to claim 3, characterized in that the latches are L-shaped and contain a cylindrical strut and a flat stopper. The device according to claim 4, characterized in that annular protrusions are made on the cylindrical struts of the latches. The device according to claim 4 or 5, characterized in that the base plate and the clips are made of non-metallic material. The device according to claim 6, characterized in that the support plate and the clips are made of plastic. The device according to claim 4 or 5, characterized in that the support plate and the clips are made of metal. The device according to claim 8, characterized in that the support plate and the latches are made of aluminum alloy. The device according to claim 4 or 5, characterized in that the base plate and the clips are made of different materials. The device according to claim 4 or 5, characterized in that it contains locking devices designed to lock the latches.

Description

The utility model relates to construction and can be used when performing plastering works.

A known system of hinged facades according to the patent of the Russian Federation for the invention No. 241600 IPC E04F 13/08, publ. 04/10/2011

The invention relates to the field of construction and arrangement of building facades. The system of hinged facades includes vertical guides, bearing and supporting brackets, extension cords, clamps, slides, cassettes, thermal bridges, anchors, dowels and gaskets. Vertical guides are made of a T-shaped profile. Bearing and supporting brackets are made of various sizes, for example from 65 to 220 mm, in accordance with the irregularities of the frame wall with differences, for example up to 190 mm. The maximum vertical distance between the brackets is, for example, 1.5 m. The brackets have both round and elongated holes. Each bracket can be both supporting and supporting. Bearing brackets are mounted in round holes, and support brackets are mounted in elongated holes. The vertical guides of the T-shaped and L-shaped profile, brackets and extension cords are stamped, for example, from aluminum with wavy working surfaces, and the radii K of the crests and troughs of the waves are, for example, 2 mm. The method of mounting facades using this system, which includes marking the facade, installing beacons using geodetic instruments, level and plumb beneath composite panels, consists in first drilling holes for anchor dowels for attaching supporting brackets based on, for example, three brackets on the profile height of the standard floor, which is attached to the wall with anchors, is installed in a checkerboard pattern insulation in the form of heat-insulating plates with their fastening to the wall with plate dowels, and installed on brackets to epyat vertical rails of T-shaped profile with a thermal gap therebetween vertically, then inserted into a sled assembly with its fixing rivets, and hung on the carriage assembled cassette into eyelets or glued. In other embodiments of the method of mounting facades directly on a vertical profile, a flat sheet is riveted or porcelain stoneware tiles are installed, fixed by means of clamps. The disadvantage is the high cost of a set of equipment.

A device for installing and regulating the position of a beacon according to the patent of the Russian Federation for utility model No. 102032, IPC E04F 21/20, publ. 02/10/2011

This device for installing and adjusting the position of the beacon, contains installed on the surface to be further processed, a sleeve with internal thread, such as a dowel, a threaded rod for interaction with the sleeve, a press washer above the threaded section and the tip, as well as a mounting plate for installing the beacon located on the tip, characterized in that a groove is made in the fastening bar to enable adjustment of the position of the fastening bar in a plane perpendicular to the axis of the threaded rod, but echnik provided with a head adapted to clamp the fastening strap to press the washer threaded rod.

The main disadvantage of this utility model is its high cost. Despite the convenience in operation, the model has a big minus. Due to its design features and execution, it requires large expenditures of manual labor and the use of materials, which ultimately makes this model unreasonably expensive in its production.

A universal device for attaching a beacon according to the patent of the Russian Federation for utility model No. 122136, IPC F16B 13/00, publ. 2011.2012

A universal device for attaching a lighthouse under the plaster, contains a latch, a lighthouse holder made of elastic material and provided with grooves, while one of the sides of the groove of the lighthouse holder contains a shoulder, and on the supporting surface of the lighthouse holder and the surface of the latch mounted on the lighthouse holder with the possibility of advancement along its axis, risks are met.

The disadvantage is the lack of technology of the lighthouse holder due to the need for milling operations and high manufacturing accuracy.

A known method of mounting facades according to the patent of the Russian Federation for the invention No. 2293826 IPC E04F 13/08, publ. 02/20/2007

The method of mounting ventilated facades includes pre-assembly on the construction site of window modules with a height of not more than the height of the floor in the form of frame frames. Window modules are assembled in the form of a frame frame for design architectural window openings, after which vertical beacons are installed along the line of design joints of wall fencing, taking into account compensatory gaps in these joints and along the side slopes of design architectural window openings. Mark out and drill holes relative to the vertical beacons on the ceilings for fastening the fastening nodes, install the fastening nodes in pairs and pre-tighten them together with threaded rods through the holes in the support legs of the fastening nodes and the holes in the ceilings. Retractable consoles extend beyond the contours of the floors. Separate racks and window modules are installed in the fixing nodes by combining the holes in the coverage plug of the fixing node with the corresponding oval holes at the ends of the individual racks and racks of the window modules and fixed with a bolt connection. At the ends of the racks at the level of the floors, compensatory gaps are provided by the vertical movement of individual racks and window modules. The leveling of the plane of the facade is carried out by moving individual racks and window modules in the direction perpendicular to the plane of the facade. Reconstruction of design joints of wall fences and side slopes of design architectural window openings relative to vertical beacons is carried out by horizontal movement of individual racks and window modules. The final coupler of the fixing nodes is carried out by threaded rods through additional fixing holes in their supporting consoles and previously drilled holes in the ceilings. The installation of horizontal beacons along the line of the upper and lower slopes of the design architectural window openings and the alignment of the horizontal trim of the window modules relative to the horizontal beacons is carried out by moving the horizontal trim along the racks of the window modules. The installation of window blocks inside the design architectural window openings, the formation of interfloor wall fencing is carried out by attaching to the rear sides of the individual racks and racks of the window modules of piece sandwich panels due to the L-shaped fastening elements and self-tapping screws. Then, the insulation of the interfloor gaps between the wall fencing is carried out by attaching the piece of insulation with plate dowels to the ceilings from the side of the facade and installing elements for attaching the cladding. A device for implementing the method is characterized. Effect: erection of lightweight external wall fencing with cladding with increased thermal performance and with the simultaneous possibility of their removal and repair during operation.

The disadvantages are complexity and high cost.

There is a method of frameless installation of a ventilated facade system according to the patent of the Russian Federation for invention No. 221102, IPC E04F 13/08, publ. November 27, 2004

The invention relates to the field of construction and is intended to improve thermal protection of the external enclosing structures of residential and public buildings and structures, as well as improve their appearance. Effect: reduction of labor costs of the work due to the use of enlarged blocks that perform the function of load-bearing frames and frames of the facing of window slopes at the same time. The method of frameless installation of a ventilated facade system involves pre-assembling modules on a construction site with a height of no more than a floor height that have load-bearing brackets with fastening supports to the wall enclosure, carried out beyond the module circuits and acting as conductors, these are: external and internal corner modules with insulation inside them, window modules with three degrees of freedom, performing the function of supporting half-timbers and frames for facing window slopes, assembling multilayer thermal insulation, assembling sets of multi-row g rizontalnyh profiles. The first modules are installed with reference by visually aligning the external and internal corners of the building with the solid contour from the base to the parapet to the actual architectural contours of the building and fasten the first modules with anchor bolts through oval holes in the supports of the supporting brackets at the points of contact with the wall. Install the second modules with reference to the architectural contours of the window openings by visually aligning the inner faces of the closed contour of the second modules with the actually made contours of the window openings, while the vertical profiles of the second modules 2 create free zones of continuous vertical window screens from the basement to the parapet and local free zones of the interfloor walls the width of the window opening. The downside is the complexity of the equipment kit.

Famous lighthouse for decorating with a fastener according to the patent for a utility model of the Russian Federation No. 113760, IPC E04F 21/00, publ. 02/27/2012 g

The lighthouse for finishing and plastering, consisting of a guide having mounting holes for mounting, and the mounting holes have a diameter that allows them to drill through holes in the surface to be leveled and to install a fastener

The disadvantage is the use of manual operations.

A known method of construction of the outer wall of the building according to the patent of the Russian Federation for the invention No. 2185485, IPC EV04/02, publ. July 20, 2002

The method of erecting the outer wall of the building includes the erection of lightweight masonry from small-sized materials and the inner wall with their connection to each other, placement on top of the masonry of temporary beacons and on them a reinforced concrete frame with slots in the middle part for passing insulation, fixing the frame and attaching it to the ceiling, erection masonry of the next floor and the removal of beacons with filling the formed gaps with sealant. When the inner wall is made of small-piece materials, the frame, after its fixation and before fastening to the ceiling, is connected with reinforced concrete columns previously fixed to the ends of the inner transverse walls in a rigid unchanged angle.

The disadvantage is the low accuracy of the installation of beacons.

A device for installing beacons according to the patent of the Russian Federation on utility model No. 105927, IPC E04G 21/00, publ. 06/27/2011 g

A device for installing level beacons during construction works consists of a clamping rule, a laser level and an installation angle, while the clamping rule is made according to the “clothespin” principle to clamp the level beacons in it, it contains a fixed and a movable part made conical between by which a swivel is installed, consisting of a steel rod and a return spring, at least two keys for clamping / unloading level beacons mounted on springs along the front surface of the rule clamp and designed to open / close the movable part, at least two water levels for determining verticality, installed along the front surface of the fixed part, at least one water level for determining horizontalness, installed in the central part of the side surface of the fixed part, a line for control the direction of the light beam of the laser level, located along the fixed part, at least on two opposite sides of the rule-clamp, the laser level is made in the form onarika and contains a housing mounted on a magnetic sole, inside of which are located at least one battery and at least two LEDs installed with the possibility of emitting light rays from both sides of the housing and their sweep 90 ° relative to each other, mounting metal corner is designed to accommodate a laser level on it and has an eyelet for attaching to a building surface.

The disadvantage is the high cost of laser equipment

Known adjustable device for mounting a beacon according to the patent of the Russian Federation for utility model No. 88083, IPC F16B 13/00, publ. October 27, 2009, a prototype.

An adjustable device for attaching a beacon under the plaster, including a fastener, for example a nail dowel or a self-tapping screw, while it contains a beacon holder made of an elastic material, for example PVC, having at least one groove in the upper plane and in the lower plane. The groove in the upper plane can be made with undercut in the form of, for example, a dovetail. The groove in the lower plane can be made in the form of the head of the fastener. The lighthouse holder can be made of sheet material, for example steel, or aluminum, and has the shape of a square or rectangle, on the sides of which there are bent surfaces.

The main disadvantage of this utility model is its inconvenience in work: the lighthouse is fixed on the side, which reduces the possibility of using it in "inconvenient" - inaccessible places. In addition, the finished model has a number of drawbacks in the calculations. The unbalanced dimensions of the model do not allow quick installation and dismantling of the lighthouse, making the installer's work longer and burdensome and, as a result, lower efficiency.

The tasks of creating a new device is to ensure ease of use and cost reduction.

The solution of these problems was achieved in a device for attaching a beacon containing a base plate with an opening for attaching to a wall, characterized in that two latches are fixed to the base plate. The latches can be made in the form of Ω-shaped elastic plates. The base plate can be made with three holes, while the middle one is intended for fasteners, and the two extreme ones for the installation of latches. The latches can be made "G" -shaped and contain a cylindrical rack and a flat stopper. On the cylindrical struts of the clamps can be made of annular protrusions. The base plate and retainers can be made of non-metallic material. The base plate and locks can be made of plastic. The support plate and the clamps can be made of metal. The base plate and locks can be made of aluminum alloy. The base plate and locks can be made of different materials. The device may include locking devices designed to lock the latches.

The essence of the utility model is illustrated in the drawings of figures 1 ... 23, where:

figure 1 shows a view of the base plate in section

figure 2 shows a view of the base plate in plan,

figure 3 shows the first embodiment of the device,

figure 4 shows the first embodiment of the device Assembly

figure 5 shows a longitudinal section of a second variant of the device,

Fig.6 shows a top view of the device,

Fig.7 shows the appearance of the plate,

Fig.8 is a fragment of a thrust plate,

figure 9 - appearance of the plate with a trademark,

figure 10 is an external view of the plate from the upper side,

figure 11 shows a view of the left retainer,

Fig.12 shows the right retainer,

Fig.13 shows the installation process of the beacon,

on Fig and 15 shows a variant of the device with a locking device,

on Fig-18-18 shows a third variant of the locking device,

in Fig.19 shows the installation operation of the dowel,

Fig.20 installation of the beacon,

on Fig and 22 reconciliation of lighthouses on the walls,

Fig.23 shows the process of plastering the wall.

A device for attaching a beacon (figure 1 ... 23) contains a support plate and 1 and two clamps 2 mounted on it. The base plate 1 has one hole 3 for attachment to the wall. The hole 3 has a chamfer 4. The support plate can be made rectangular in shape or with rounded corners. Figure 2 shows the base plate 1 with straight side surfaces 5 and radius surfaces 6. A trademark can be made on the lower surface of the base plate. Beacon 7 is installed between the latches 2.

Various device designs are possible. The simplest option is shown in figures 3 and 4. The latches 2 are made in the form of Ω-shaped elastic plates or wires.

The support plate 1 in the second embodiment of the device (FIGS. 5 and 6) is made with three holes 3, 8 and 9, while the central hole 3 is for mounting fasteners (a self-tapping screw or dowel), and the two extreme holes 8 9 are for fixing clips 2 (FIG. .7 and 8). The design of the support plate 1 is shown in Fig.7 ... 10.

The latches 2 (FIGS. 1, 11 and 12) can be made in a “G” -shaped shape and have a cylindrical leg 10 and a flat stopper 11. On the cylindrical leg 9, annular protrusions 12 can be made to improve fixation in the holes 4 and 5. ( 5 and 11).

The assembly process is shown in FIG.

All parts of the device can be made of one material. It is possible to use non-metallic materials, for example, plastics, ceramics, etc. It is possible to use metals: steel, aluminum alloy, cast iron, metals obtained by powder metallurgy.

A possible embodiment of the device (Figs. 14 and 15) with a thickening 15 near the holes 8 and 9 and the use of a device for fixing 16. A possible design of the second version of the device for fixing 16 is shown in Fig. 4 and contains a spring 18 and a ball 19 installed in the cavity 17 The third version of the locking device 16 is made in the form of annular protrusions in the holes 8 and 9 formed by the conical part 20 of these holes.

Work with the device

The support plate 1 is fastened with a self-tapping screw 13 (Fig. 19 ... 23) or a dowel containing a self-tapping screw 13 and a plastic insert 14.

The support plate 1 through the Central hole 3 is mounted on the mounting screw 13 with a conical head .. The screw 13, in turn, is screwed into the nylon insert 14 of the dowel when mounted on a stone base or screwed without a nylon insert 14 directly into the base, for example, a wooden wall. A self-tapping screw 13 in this system is a regulatory mechanism that determines the level of deviation from the wall of the future beacon. Unscrewing or twisting the self-tapping screw 13, you can change the height of the beacon relative to the wall and as a result set the required thickness of the future plaster layer (Fig. 19).

We lean the beacon 7 against the plate 1 and clamp it with the clips 2, inserting them into the side holes 8 and 9. The beacon 7 with the clip in this place forms a “mounting point” to the wall 21 (Fig. 20).

Along the entire length of lighthouse 7, several “attachment points” are installed — 6 attachment points are installed on the lighthouse 2.5 m long with an interval of 45-50 cm, forming an even line (Fig. 22).

At a distance of 1.3 m from each other, another lighthouse 7 is installed parallel to the first and so on (Fig. 19). In the complex, these beacons 7 form an even plane.

Next is the actual plastering, when sprayed onto the surface of the previously prepared mortar, and the excess mortar is removed as a rule, forming an even plane (Fig. 23).

To fix the beacon 7 to the plate 1, you can use the clamps 2 in the form of a pre-bent plate or spring wire bent in half (figure 1 ... 4).

The advantages of this utility model are:

1. Due to its design features, the model managed to achieve maximum convenience, comfort and speed of installation of beacons on the wall. Installation of the beacon can be done even in a hard-to-reach place when other methods of fastening are not suitable.

2. The ability to quickly adjust beacons after installation.

3. Reliability: accidental displacement of the beacon is excluded. The lighthouse remains motionless even when exposed to a force sufficient to deform it.

4. Possibility of multiple use of the lighthouse: after plastering the walls, you can remove the lighthouse by removing the solution from the lighthouse mounting area and turning the locks clockwise or counterclockwise. Clear the beacon from the solution and it is ready for work again.

5. Low manufacturing cost

An automated manufacturing method that almost completely eliminates manual labor,

B) low energy intensity of the production process,

C) small size of the model - low material consumption,

D) the use of cheap materials.

Claims (11)

1. A device for attaching a beacon, comprising a base plate with a hole for attaching to a wall, characterized in that two latches are fixed to the base plate. 2. The device according to claim 1, characterized in that the fixtures are made in the form of Ω-shaped elastic plates. 3. The device according to p. 1, characterized in that the base plate is made with three holes, the middle one is for fasteners, and two extreme ones for installing the clips. 4. The device according to claim 3, characterized in that the latches are made L-shaped and contain a cylindrical rack and a flat stopper. 5. The device according to claim 4, characterized in that the annular protrusions are made on the cylindrical struts of the latches. 6. The device according to p. 4 or 5, characterized in that the base plate and latches are made of non-metallic material. 7. The device according to p. 6, characterized in that the base plate and latches are made of plastic. 8. The device according to p. 4 or 5, characterized in that the base plate and latches are made of metal. 9. The device according to p. 8, characterized in that the support plate and latches are made of aluminum alloy. 10. The device according to p. 4 or 5, characterized in that the base plate and latches are made of different materials. 11. The device according to p. 4 or 5, characterized in that it contains locking devices designed to lock the clamps.

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