EA034746B1 - Conic signaling and guarding device - Google Patents

Abstract

The device is used as a means to organize road traffic during road construction, repair and maintenance works, sports and cultural events, at site or parking lot training sessions in driving schools. The technical result is simplifying the use of such cones and, hence reducing labor costs. A conical signaling guarding device differs by the fact that it is made in the shape of a conical hollow shell connected to its base by a cylindrical rim, the outer side of the base has a cylindrical cavity with a wall and a bottom, and the upper part of the rim sitting in the cylindrical cavity and the lower part of the rim resting under the bottom of the cylindrical cavity, so that the base wall limits the internal space of the base; inside that internal space there are ribs, each rib connected to the side wall of the base with one tip while the other tip of the rib connects to the lower part of the rim, wherein inside the cylindrical cavity a ring-shaped removable weighting agent is installed, its upper part having a sloping and ascending to the conical hollow shell preferably conical surface.

Description

The device is used as a means of organizing traffic during the construction, repair and maintenance of roads, when organizing sports and cultural events, during training in driving schools on sites, in parking lots and in other places where the installation of signaling and protective devices is required.

From the prior art, the following analogues are known.

Known prefabricated cone for marking, which can be disassembled, which facilitates its transportation. The design of the cone allows you to easily and reliably fix the conical part and the base part and which ensures the stability of the cone due to the low center of gravity. In the described device, at least one locking flange has protrusions on the outer peripheral lateral edge of the lower part of the conical element, as well as a socket hole, which is almost equal in shape to the peripheral edge of the lower part of the conical element formed in the main body. The pre-assembled cone has a guide slot into which a fixing flange can be inserted to snap the protrusions along the peripheral edge of the socket opening. The locking flange is locked in a bayonet-like manner when it is rotated at the required angle from the insertion state in the guide slot, so that both elements can be mounted on top of each other or disconnected (JP 2005163312 (A), 2005-06-23).

The cone for providing movement includes a truncated cone and a base. The truncated cone body has an opening on the upper end surface for the signal lamp, and a partial part of its circumferential wall is thicker than the other part, forming a gap between each two road cones put on each other, for easy removal when stacking. A cone-shaped body with a truncated cone has a bottom with a flange consisting of upper and lower annular walls and short ribs formed between the upper and lower annular walls. The upper and lower annular walls, respectively, have connecting holes facing each other. The upper annular wall has openings for filling auxiliary material next to each connecting hole, and the lower annular wall has protruding levers. The base has a central hole for placing another cone around the cone flange, which can be integrated into the structure (EP 1626125 (A2), 2006-02-15).

Known signal cone, which includes separately manufactured base and cones, mechanically interconnected. The base is pressed with crumbs of (worn or defective) tires. In the present invention, the base is preferably molded preferably in a rectangular shape having an upper surface with a well formed therein, the well being necessary to provide lateral stability of the cone. The bottom surface of the base protrudes outward and has protruding supports in the corners. The supports are adapted in shape, arrangement and size shown to ensure stable operation of the device on the surface of the movement when raising the lower surface 16 above the surface of movement, so that the base minimally impedes the flow of water, which can be directed to the base when the traffic cones are used during heavy rains . The base is further configured with a plurality of through holes that extend from the upper surface to the lower surface of the base. In both the first and second embodiments, the plurality of injection molded connectors are integral with the annular flange and extend within the plurality of holes 20, thereby mechanically engaging the cone with the base (US 2008011221 (A1), 2008-01-17) .

Known road cone, which consists of prefabricated base and cone body. The base center has an opening having a large size, the periphery of the through groove is extended upward with a conical part having a predetermined height and taper, which is consistent with the conicity of the cone body and is formed with a combined part having a reduced inner and outer diameters. The upper edge of the combined part has a wavy configuration, and the outer surface of the combined part is formed with convex columnar elements with a given number and is located at equal intervals. Moreover, the convex columnar elements can be installed both on the outer surface, the inner surface, or on both the inner and outer surfaces of the combined part, and the end surfaces of the convex columnar elements are also aligned with the cone body, therefore, it is desirable to form a passing hole in the cone body and holes are made between adjacent columnar for the passage of fluid. The lower flange of the base is equipped with an annular positioning slot for installation on an additional weighting agent (US 2013174775 (A1), 2013-07-11).

A close analogue is a conical road device, including a conical upper part, a horizontal base with rectangular ribs located inside it, attached to the rim by means of an additional ring. The rim protrudes above the base and is connected to the conical upper part by a monolithic conical transition located at an angle to the upper conical part, over which additional annular stiffeners are located. At the base, on the inside, there are cylindrical bushings for passing fixing bolts for fastening the device to the mounting base (WO 2018042398 (A1), 2018-03-08).

The disadvantage of the described analogue is the absence of a weighting agent.

- 1 034746

The closest analogue to the claimed technical solution is a signal cone containing a hollow body with a variable wall thickness, tapering upwards, the upper part of the body is provided with an opening with a device for manipulating it, the lower part of the body is connected to the upper receiving contact part of the base, the base is made in the form of a base plate , the lower part of which has a flat rectangular shape, and the upper part has a truncated shape tapering upwards, while the device is made of elastic material and with the possibility of elastic deformation when hitting it, while the entire body is made in the form of a truncated thin-walled cone with central axial holes on both sides from the bottom and top, equipped with a manipulation device made in the form of an annular protrusion directed inside the upper hole, the upper part of the base also has the shape of a truncated hollow thin-walled cone with holes on both sides from the bottom and top, the geometric parameters of both truncated cones in the working position provide a connection between with a tightness of the outer side of the cone of the body in the clamp of the upper hole of the cone of the base, in the conical part of the base are installed radial thrust ribs. In the conical part of the base there are installed radial thrust ribs and a cavity-forming ring, equipped with one or more holes with plugs for supplying a bulk weighting agent into it. The signal cone is made of high-pressure polyethylene by injection molding, which allows the cone to restore its shape after hitting it in the temperature range from -40 to + 40 ° C. The described cone is made with the possibility of putting on one device on a similar another for stacking them in a pack, while the radial thrust ribs are made as a safety measure against interlocking of the bodies in each other with possible damage to the side surfaces of the bodies during their subsequent power separation. The diameter of the upper hole of the cone body allows you to install a light bulb in it or on it to increase the range of visibility of the device in the dark (RU 29939 U1, 2003-06-10).

The disadvantage of the closest analogue is the complexity of its manufacture, the complexity of the Assembly and placement of the weighting agent in the cavity of the base.

The task to which the technical solution of the present invention is directed is to simplify the design, the design being completely monolithic and does not require the use of a bulk weighting agent.

The technical result is to simplify the use of the cone and, as a result, reduce labor costs.

The technical result is achieved due to the fact that the conical signal-protecting device is made in the form of a conical hollow shell connected to the base by means of a cylindrical rim, a cylindrical cavity is made on the outside of the base, which has a wall and a bottom, and the upper part of the rim is in a cylindrical cavity, and the lower part of the rim is located under the bottom of the cylindrical cavity, the wall of the base limits the internal space of the base, inside of which there are ribs, each of toryh its one end connected to the side wall of the base, with its other end connected to the lower edge portion of the rim, the inside of the cylindrical cavity a removable weight material in the form of rings, the upper part of which is sloping upward to the conical hollow shell preferably conical surface.

Preferably, the upper part of the rim is the inner wall of the cylindrical cavity, while the rim is made in the form of a cylindrical shell.

Preferably, the first part of each rib connected to the wall is made flat and rectangular with a height equal to the height of the side wall, then the height of the rib after connecting to the wall of the cylindrical cavity decreases by the height of the wall of the cylindrical cavity, forming the second part of the rib, which is also made flat and rectangular and located on the lower side of the bottom of the cylindrical cavity, while both of these parts have a common lower edge located at the level of the side wall, the third part of the rib is made narrowing or bevelled and is a continuation of the second part, and the height of the end of each rib does not exceed the height of the rim and is monolithically connected to it at right angles to the conditional tangent plane to the rim, passing at the junction of the rib with the rim.

It is preferable that a protrusion is arranged around the edge of the cylindrical cavity, the outer surface of which is rounded or beveled towards the cylindrical cavity, while it is preferable that said surface is conical, the inner part of the protrusion has an preferably inner cylindrical surface flush with the surface of the cylindrical cavity.

It is preferable that the conical hollow shell is additionally provided with a cylinder head, the diameter D1 of the head being smaller than the diameter of the upper part of the conical shell D2, and their conjugation forms a rounded annular ledge, with the upper edge of the head having a circular bevel directed inside the head.

It is preferable that the wall of the conical part has a variable thickness along its length, forming annular protrusions and depressions on the outer surface of the shell, the edges of the said annular protrusions having bevels and / or fillets, the lower part of the conical shell and

- 2 034746 the part of the conical shell adjacent to the head has the same thickness as the annular protrusions, the thickness of the lower part of the conical hollow shell being equal to the thickness of the annular protrusions.

Preferably, the upper part of the rim protrudes above the cylindrical cavity and has an external cylindrical surface, then the rim passes into a conical hollow shell.

It is preferable that the removable weighting agent is made in the form of a conical ring with an opening in the central part and consists of two parts integrally connected to each other, the upper part of the weighting agent being made conical and the lower part being cylindrical, the inner surface of the weighting agent formed by the hole also being made cylindrical, height a removable weighting agent at the edge of the hole is equal to the height of the upper part of the rim, and the height of the cylindrical lower part is not less than the height of the wall of the cylindrical cavity or VNA to her.

The removable weighting agent is preferably made of an elastic polymer material, for example, filled rubber.

A brief description of the images of a possible implementation of the device:

FIG. 1 is an isometric view of a device;

FIG. 2 - top view;

FIG. 3 is an isometric view from below;

FIG. 4 - bottom view;

FIG. 5 is a side view;

FIG. 6 is a section A-A in FIG. 2;

FIG. 7 is a section BB in FIG. 2;

FIG. 8 - three cones with mounted weighting agents, assembled in a stack (placed inside each other) isometric view;

FIG. 9 is a horizontal section through a stack of cones with a plane passing through the axis of symmetry of the cone (fragment of the top of the stack);

FIG. 10 - weighting is shown (isometric view);

FIG. 11 is a side view;

FIG. 12 is a bottom view of a weighting agent;

FIG. 13 - device without weighting (isometric view).

The presented graphic materials illustrate a particular case of the technical solution, do not cover and, moreover, do not limit the entire scope of the patent claims.

The conical signal-protecting device is made in the form of a conical hollow shell 1 connected to the base 2 by means of a cylindrical rim 3 (Fig. 13).

On the outside of the base there is a cylindrical cavity 4, which has a wall 5 and a bottom 6, the upper part of the rim 7 being in the cylindrical cavity 4, protruding above it (Fig. 13), and the lower part 8 of the rim 3 is located under the bottom 5 of the cylindrical cavity 4 (Fig. 3).

The wall 9 of the base limits the inner space of the base 2. Inside the said internal space of the base 2, the lower part of the rim 8 is located and the ribs 10 are located, each of which is connected by one end 11 to the base wall 9, while each other end 12 connects each rib to the lower part rim 8 without protruding beyond its lower edge (Fig. 3).

In fact, the upper part of the rim is the inner wall of the cylindrical cavity 4, and the rim 3 is made in the form of a cylindrical shell.

The base 2 is made rectangular in plan, the base wall 9 has rounded corners, the outer surface of the base is flat, except for the location of the cylindrical cavity (Fig. 13).

Each rib 10 is made in a broken shape, and the first part 13 of each rib connected to the wall 9 of the base 2 is made flat and rectangular with a height equal to the height of the wall 9 of the base 2.

Further, the height of the ribs 10 after connecting to the wall 5 of the cylindrical cavity 4 decreases by the height of the walls 5 of the cylindrical cavity 4, forming the second part 14 of the ribs (Fig. 3).

The second part 14 of the rib is also made flat and rectangular and is located on the lower side of the bottom 5 of the cylindrical cavity 4 (Fig. 3).

Moreover, both of these rectangular parts 13 and 14 of each rib 10 have a common lower edge 15 located at the level of the wall 9 of the base 2 (Fig. 3).

The third part 16 of the rib is made tapering or beveled and is a continuation of the second part 14, and the height of the end 12 of each rib 10 does not exceed the height of the rim 3 and is seamlessly connected to it at right angles to the conditional tangent plane to the rim 3, passing at the junction of the rib 10 s the rim 3 (Fig. 3).

All ribs 10 are seamlessly connected both with the wall 5 of the cylindrical cavity 4 and with its bottom 6. The top of the first part 13 of the ribs 10 is also seamlessly connected with the inner side 17 of the base 2, which is outside the wall 5 of the cavity 4.

A removable weighting member 18 in the form of a ring is mounted inside the cylindrical cavity 4, the upper part of which 19 has a sloping surface, preferably tapering up to the conical hollow shell, which is necessary for safe deformation of the weighting material in the event of a collision with a vehicle wheel.

If you cannot ensure a smooth transition from the base 2 to the conical shell 1 provided by the sloping surface of the removable weighting compound, a sliding effect can occur, which is especially dangerous on wet asphalt: before deforming the device, the wheel may run into the base 2 of the device, get stuck between the base 2 of the device and a conical hollow shell, begin to slip and slide on the basis of 2 devices on asphalt, which can change the direction of traffic of a vehicle that has hit a cone and lead to an emergency nation.

In the presence of a sloping ascending preferably conical surface when hitting the device, the car wheel moves first along the base, and then up the sloping conical surface of the removable weighting agent in the direction of the conical shell 1, crushing it and moving the cone without the slip and sliding described above.

Around the edge of the cylindrical cavity 4 is an annular protrusion 20 to protect the edges of the removable weighting agent from possible damage (Fig. 1, 6, 13).

The outer surface 21 of the annular protrusion is made rounded or beveled towards the cylindrical cavity 4 of the base 2.

Preferably, said outer surface of the annular protrusion 21 is conical, wherein the annular protrusion 20 has an preferably inner cylindrical surface flush with the surface of the wall 5 of the cylindrical cavity 4 of the base 2 (FIG. 6).

The conical hollow shell 1 may be further provided with a cylinder head 22.

It is preferable that the diameter D _{1 of the} tip is smaller than the diameter of the upper part of the conical hollow shell D ₂ (Fig. 6), and their conjugation forms an annular ledge 21 rounded from the outside, necessary for the clearance t between the conical hollow shells 1 of the devices (Fig. 9) when installing devices in a stack (placing devices inside each other). The presence of a gap t between the walls of the cones eliminates the absence of sticking devices and ensures their quick and unhindered removal from the stack.

The upper edge of the head 22 has a circular bevel 23 directed inside the head, while the lower edge of the head also has a bevel.

Bevel 23 is necessary to facilitate the installation of additional devices, for example, signal lights, in the head, as well as to reduce the contact area between the ends of the heads of the 22 cones in the stack (Fig. 8, 9), which also facilitates the removal of devices from the stack. The bevel at the lower edge of the head is designed to facilitate the removal of the said devices.

The wall of the conical hollow shell 1 has a variable thickness along its length, forming annular protrusions 24 and depressions 25 on the outer surface of the shell, the edges of the said annular protrusions having bevels 26 and / or fillets (Fig. 6). Moreover, the lower part of the conical hollow shell, as well as the part of the conical hollow shell adjacent to the head 22, has the same thickness as the annular protrusions 24.

The annular protrusions 24 serve as stiffeners, increasing the strength of the conical hollow shell

1. The annular depressions 25 are intended for sticker signal reflective tapes or the installation of other reflective tapes, such as removable.

The bevels 26 facilitate the removal and replacement of reflective tapes, as well as reduce internal stresses inside the shell of the conical hollow shell 1.

The upper part 7 of the rim 3 protrudes above the cylindrical cavity 4 and has an external cylindrical surface, then the rim passes into a conical hollow shell 1.

Moreover, the thickness of the lower part of the conical hollow shell is equal to the thickness of the protrusions 24.

The removable weighting agent 18 is made in the form of a conical ring with an opening 27 in the central part and consists of two parts integrally connected to each other.

Moreover, the upper part 28 of the weighting agent is made conical, and the lower part 29 is made cylindrical, the inner surface of the weighting agent 30 formed by the hole 27 is also made cylindrical, the height of the removable weighting agent 18 at the edge of the hole 27 is equal to the height of the upper part 7 of the rim 3, and the height of the cylindrical lower part is not less than the height of the wall 5 of the cylindrical cavity or equal to it (Fig. 10-12).

The removable weighting agent 18 is preferably made of an elastic polymer material, for example, filled rubber.

The removable weighting agent 18 has external non-rounded edges 31 and 32 (Fig. 10) located on the outer perimeter of the removable weighting agent 18. The edges 33 and 34 of the central hole 27 in the removable weighting material 18 also have no rounding (Figs. 10-12).

The edges of the weighting agent 31-34 are made not rounded so as not to form gaps in the cylindrical cavity 4, in which various debris can accumulate.

The weighting agent 18 is put on a conical hollow shell 1, which passes through the hole 27 in the weighting member 18 and is installed in the cylindrical cavity 4. For a denser installation of the weighting element 4,034,746 of the hopper 18 (to provide a larger friction surface and no gap), the upper part 7 of the rim 3 protrudes above a cylindrical cavity 4 and has an external cylindrical surface.

Next, the rim 3 passes into a conical hollow shell 1 or monolithically connected with it, and the thickness of the lower part of the conical hollow shell 1 is equal to the thickness of the protrusions 24.

Thus, the rim 3 in addition to performing the function of fixing the weighting agent 18 is an important element of the structural rigidity of the device, reinforcing the base 2, including at the place of its conjugation with the conical hollow shell 1.

The weighting agent 18 is preferably made of elastic polymeric materials, for example filled rubber, which ensures friction of its lower cylindrical part 29 against the surface of the wall 5 of the cylindrical cavity 4, including the cylindrical surface of the upper part of the rim 7. In addition, the weighting agent 4 is an element of rigidity of the base 2 .

In order to increase the weight of the weighting agent 18, metal or other particles or objects of a greater weight can be dispersed dispersed within the polymeric material in comparison with the weight of the said polymeric weighting material.

For a tighter contact, taking into account the elasticity of the material of which the weighting compound is made, its diameter or transverse dimension may slightly (within 0.5-3 mm) exceed the diameter of the cylindrical cavity 4.

The bottom surface 35 of the weighting agent is made flat (Fig. 12) for installation on the bottom 6 of the cylindrical cavity 4 of the weighting agent, which is also made flat.

The device operates as follows. The device is removed from the stack of devices (Fig. 8 and 9) and installed on an asphalt, soil or other basis. Moreover, on uneven bases, the ribs and cavities between them provide contact between the conical hollow shell 1 and the base 2. If necessary, for example, during road works at night, the troughs of 25 cones are glued with reflective tape or other types of removable reflectors are installed in them.

The device can be made of rigid, or semi-rigid, or sufficiently flexible polymer. When using any of the listed polymeric materials, all elements of the device are monolithically interconnected, i.e. the device is solid.

Moreover, in the manufacture of a flexible polymer, the device retains its shape due to the conical shape of the hollow shell 1, the cylindrical cavity 4 with the weighting agent 18 of the annular protrusion 21, the head 22, the protrusions 24, acting as annular stiffeners. In this case, the base 2 and the conical hollow shell 1 also retain their shape due to the rim 3, the thickness of the conical hollow shell 1 at the place of mating with the rim, as well as due to the configuration of the ribs and connecting them to the wall 9, the rim 3, the cylindrical cavity 4 and the inner side of the base 2 outside the wall of the cylindrical cavity 4.

Claims (9)

1. A conical signal-protecting device, characterized in that it is made in the form of a conical hollow shell connected to the base by means of a cylindrical rim, a cylindrical cavity is made on the outside of the base, which has a wall and a bottom, and the upper part of the rim is in a cylindrical cavity, and the lower part of the rim is located under the bottom of the cylindrical cavity, the wall of the base limits the inner space of the base, inside of which there are ribs, each of which is one of its own ontsom connected to the side wall of the base, with its other end connected to the lower edge portion of the rim, the inside of the cylindrical cavity a removable weight material in the form of rings, the upper part of which is sloping upward to the conical hollow shell preferably conical surface. 2. The device according to claim 1, characterized in that the upper part of the rim is the inner wall of the cylindrical cavity, while the rim is made in the form of a cylindrical shell. 3. The device according to claim 1, characterized in that the first part of each rib connected to the wall is made flat and rectangular with a height equal to the height of the side wall, then the height of the rib after connecting to the wall of the cylindrical cavity decreases by the height of the wall of the cylindrical cavity, forming the second part of the rib, which is also made flat and rectangular and is located on the lower side of the bottom of the cylindrical cavity, while both of these parts have a common lower face located at the level of the side wall, the third part of the rib made tapering or beveled and is a continuation of the second part, and the height of the end of each rib does not exceed the height of the rim and is seamlessly connected to it at right angles to the conditional tangent plane to the rim passing at the junction of the rib with the rim. 4. The device according to claim 1, characterized in that around the edge of the cylindrical cavity there is a protrusion, the outer surface of which is rounded or beveled towards the cylindrical cavity, while it is preferable that said surface is conical, the inner part of the protrusion has an inner preferably cylindrical surface, flush with the surface of the cylindrical cavity. - 5,034,746 5. The device according to claim 1, characterized in that the conical hollow shell is additionally equipped with a cylinder head, and the diameter D _{1 of the} head is less than the diameter of the upper part of the conical shell D ₂ , and their conjugation forms a rounded annular ledge, while the upper edge of the head has a circular bevel directed inside the head. 6. The device according to claim 5, characterized in that the wall of the conical part has a variable thickness along its length, forming annular protrusions and depressions on the outer surface of the shell, the edges of said protrusions having bevels and / or fillets, the lower part of the conical shell, and also the part of the conical shell adjacent to the head has the same thickness as the protrusions, the thickness of the lower part of the conical hollow shell being equal to the thickness of the annular protrusions. 7. The device according to claim 1, characterized in that the upper part of the rim protrudes above the cylindrical cavity and has an external cylindrical surface, then the rim passes into a conical hollow shell. 8. The device according to claim 1, characterized in that the removable weighting agent is made in the form of a conical ring with an opening in the central part and consists of two parts integrally connected to each other, the upper part of the weighting agent being made conical and the lower part being cylindrical, the inner surface of the weighting agent formed by the hole is also made cylindrical, the height of the removable weighting agent at the edge of the hole is equal to the height of the upper part of the rim, and the height of the cylindrical lower part is not less than the height of the cylinder wall tion cavities or equal to it. 9. The device according to claim 1, characterized in that the removable weighting agent is preferably made of an elastic polymer material, for example filled rubber.