RU2683431C1 - Device of application of microglass balls - Google Patents

Abstract

FIELD: construction materials.SUBSTANCE: invention relates to devices for applying road marking elements. While the road marking material has not had time to harden, microglass balls are applied on the road marking layer. When moving the tape with holes through the container, microglass balls come from the loading device to the lower part of the tape with holes inside the container. Some micro glass balls fall into the holes and move relative to the base along with the bottom of the tape. With the passage of the lower part of the ribbon with microglass balls in the holes and on the surface through the outlet with a scraper, those microglass balls, that are completely located in the holes of the tape, freely pass through the hole and then move along the base along with the lower part of the tape. Microglasses, that are located on the surface of the lower part of the tape or partially located in the holes, when passing on the tape through the outlet, they rest against the scraper and cannot leave the container. After exiting the tank, the lower part of the ribbon with microglass balls in the holes intersects the free edge of the base and stops contacting it. Under the action of gravity microglass balls fall down and leave the holes in the tape. Additionally, the drop in microglass balls is accelerated due to the increased pressure from the blowing agent.EFFECT: technical result is to increase the durability of the resulting road marking during operation.5 cl, 4 dwg

Description

Technical field

The invention relates to the field of road construction, and in particular to devices for applying road marking elements.

State of the art

To increase the visibility of the markings in the dark, microglass balls are used that are applied to the surface of the road markings in various ways, for example, manually or using special devices.

The closest technical solution (prototype) is a device for applying micro glass beads (Japanese application JP 11-293623, publication date 10.26.1999), consisting of a loading device and an inclined plate with holes located underneath. Dosing of microglass balls in the loading device is ensured by two parallel rotating rolls, between which the distance can be changed. Microglass balls from the loading device fall onto an inclined plate with holes (holes are made almost over the entire plate) and, rolling along the plate, gradually fall through the holes onto the previously marked road marking layer.

A disadvantage of the known technical solution is the low resistance of the resulting road marking due to knocking out of the glass beads from the road marking layer during operation. This is due to the fact that the mass of each microglass bead is small, and the viscosity of the material of the road marking layer is quite large. Accordingly, under their own weight, the microglass beads are slightly immersed in the road marking layer and then easily fall out of the road marking layer under external influence, because the adhesion force to the road marking material is small due to the small contact area. An additional disadvantage is the poor retroreflectivity of the road marking due to the slight immersion of the microglass bead into the road marking material.

The technical result of the invention is to increase the stability of the resulting road markings during operation.

The specified technical result is achieved due to the fact that in the device for applying microglass balls to form road markings on a road surface containing a vehicle with a tank mounted on it with a base equipped with a free edge, with a scraper, an inlet and an outlet, a tape with holes, two drum, loading device, blowing means, the tape is closed, stretched on drums, mounted with the possibility of rotation around their axis and located at a distance of d from each other so that their axes are parallel, with the formation of the bottom of the tape between the reels and with the possibility of moving the tape from the drum to the drum, the holes being through and located on the tape in a certain order, the inlet and outlet are located opposite each other other, the outlet is located close to the base, the lower part of the tape is passed sequentially through the inlet, on the base and through the outlet, the loading device is secured with the ability to supply microglass balls to the bottom of the tape in the tank, the scraper is installed in the tank to prevent the passage of the microglass balls located on the bottom of the tape to the free edge of the base, located near the outlet, the blowing means is located at the free edge with the blowing of the microglass balls in the holes the lower part of the tape, towards the road surface, in a particular case, the holes in the tape are staggered, in the particular case, the holes in the linen e arranged one behind the other in the course of the belt, in the particular case of drums arranged parallel to the axis of the pavement.

Brief Description of the Drawings

The invention is illustrated by drawings (Fig. 1-4), where Fig. 1 shows a general view of a device for applying microglass balls with box-shaped blowing means, Fig. 2 shows an enlarged image of a container area with an outlet, a base and a scraper, and box-shaped blowing means, figure 3 shows a General view of the device for applying microglass balls with blowing means in the form of a shaper gas flow, figure 4 shows an enlarged image of the region of the tank with the outlet, base and scraper, and blowing means in the form of ator gas stream.

Disclosure of invention

The drawings indicate: drum 1, belt 2, hole 3, capacity 4, loading device 5, microglass ball 6, scraper 7, gas supply device 8, blowing means 9, device for applying road marking material 10, road marking layer 11, road surface 12 , free edge 13, outlet 14, base 15, vehicle 16, inlet 17.

Road marking as a whole is a designation on the roadway, man-made structures and elements of arrangement of roads, informing road users about the conditions and modes of traffic on the road section (according to clause 3.1.1. GOST R 51256-2011 "Road marking. Classification. Technical requirements"). In accordance with Appendix 2 of Decree of the Government of the Russian Federation of 10.23.1993 N 1090 (as amended on 12.23.2017) "On the Rules of the Road", horizontal road marking consists of lines, arrows, inscriptions and other signs on the roadway. Vertical road marking in the form of a combination of black and white stripes on road structures and road equipment elements shows their dimensions and serves as a means of visual orientation. It is most preferable to use the described technical solution in the case of horizontal road marking, however, it is also possible to use for vertical road marking when appropriate changes are made to the design.

The pavement is the top of the pavement and consists of one or more layers of the corresponding material, for example concrete, or asphalt concrete and asphalt (according to paragraph 3.90 of the Code of Rules 34.13330.2012 "Roads", approved by order of the Ministry of Regional Development of the Russian Federation (Ministry of Regional Development Russia) dated June 30, 2012 N266).

On the pavement in the required configuration (in the form of lines of the desired width or characters) there is a layer of road marking 11. The layer of road marking 11 is a layer of material for road marking (paint, thermoplastics or cold plastic). One linear dimension (thickness) of this formation is much smaller than two other linear dimensions. In the described example of using a technical solution, the road marking also contains microglass beads 6 partially immersed in the layer of road marking 11.

Microglass ball 6 is an element similar in shape to a ball. The sizes of the microglass bead 6 are less than the thickness of the road marking layer 11. The microglass bead 6 is usually made of transparent glass, but can also be made of transparent polymeric or some other material with the required strength and optical characteristics. Microglass balls 6 are located on the side of the layer of road marking 11, facing away from the road surface. In this case, the microglass balls 6 are partially recessed into the road marking layer 11, and partially protrude above it. Microglass beads 6 can also be additionally coated with a layer of easily removable material, which, after application to the road marking layer, is washed off or removed mechanically.

The device for applying microglass beads is rigidly connected with the device for applying road marking material 10.

The main elements of the device for applying microglass beads to road markings are tension and pulling drums 1, belt 2 with holes 3, capacity 4 with base 15, inlet 17, outlet 14 and scraper 7, loading device 5, and also a gas supply device 8 and blowing means 9. Further, in the description of the definition, vertical, horizontal, upper, lower and the like are given in accordance with the direction of gravity in the position of the object during its standard use (as shown in figure 1).

Tape 2 is a strip of some material of small thickness, while the other two sizes are much larger than the thickness. The width of the tape 2 is close to the width of the lines (s) of the road markings, usually slightly larger than the width of the lines of the road markings. Depending on the particular embodiment, the tape 2 can be made flexible, as in the described embodiment of the technical solution, or can be made in the form of a rigid plate. Further in the description, a variant of flexible tape 2 is considered. Flexible tape 2 can be made closed during its constant unidirectional movement using two drums 1 (as on a conveyor belt). In addition, the tape 2 may be open when it is alternately oppositely directed, in this case, the movement occurs due to the winding of the tape 2, then on one drum 1, then on the other.

Tape 2 can be made of polymeric materials, plastics, metal materials, and the material should ensure that there is no significant change in the size of tape 2 during operation.

In the tape 2, through holes 3 are made through, close to round, so that the axis of each hole 3 coincides (or almost coincides) with the normal to the two opposite largest surfaces of the tape 2 at the location of the hole 3. The diameter of the holes 3 is usually slightly larger than the diameter microglass beads 6 (for different diameters of microglass beads 6, the diameter of the largest microglass beads 6 is chosen for the considered one), but it can also be significantly larger. The holes 3 are located on the tape 2 in a certain order (corresponding to the required location of the microglass balls 6 on the road marking layer 11), for example, in a checkerboard pattern or one after the other in the direction of the movement of the belt 2. The given arrangement of holes 3 provides uniform distribution of the microglass balls 6 on the layer road marking 11, and, accordingly, a constant level of retroreflection of the applied road marking on any part of it. The holes 3 can be made both on the entire tape 2 (usually in the case of a closed tape 2), and in its individual sections (in the case of a plate or an open tape 2, when separate parts of the tape 2 are constantly used to secure and / or move it and not used for distribution of microglass balls 6).

To move the flexible tape 2 usually use two drums (pulling and tensioning) 1, placed at a distance from each other so that their axes are parallel to each other, including the axis of the drums 1 can be parallel to the surface of the road surface. The parallelism of the axes of the drums 1 of the surface of the road surface provides a uniform distribution of the microglass 6 from the loading device 5 in the holes 3 of the tape 2, and, accordingly, prevents the situation when the microglass 6 rolls to one of the edges of the tape and some holes 3 in the tape 2 are unfilled microglass 6 , which results in a uniform distribution of microglass 6 on the road marking layer. Drum 1 in this case is usually generally a hollow or solid round cylinder with a height close to the width of the tape 2. The diameters of the drums 1 can be the same, and differ from each other. The distances from the surface of the road surface to the axes of the drums 1 may also be the same or different. The drums 1 can also be provided with side walls protruding above the cylindrical surface to prevent significant movement of the tape 2 along the axis of the drums 1. Each of the drums 1 is placed on a rotary axis or on a drive shaft (in this case, drum 1 can be called drive) connected to the engine , with the possibility of rotation around its own axis. One of the drums 1 is driven or additionally introduced into the device by a drive roller or a similar mechanism for rotating the drums 1 and / or moving the tape 2.

In the case of a closed tape 2 (the most preferable and considered in more detail later in the description of the case of execution) tape 2 partially covers two drums 1 from their opposite sides, adjacent to them along a cylindrical surface (its part). In this case, the tape 2 is stretched on the drums 1 to prevent it from sagging and is placed so that one of its largest surface is always oriented inward to the figure formed by the closed tape 2, and the other outward (i.e. without twisting the tape 2). In this case, in tape 2 it is possible to conditionally distinguish two flat parts - the upper and lower, i.e. the upper part of the tape 2 is located farther from the surface of the road surface than the lower.

In the case of an open tape 2, the tape 2 is fixed at each of its ends on the corresponding drum 1 (usually on its cylindrical surface). Depending on the position of the tape 2 at a particular point in time, the tape 2 partially, completely or several times covers each of the drums 1. The part of the tape 2, not wound on the drums 1, is usually located below the axes of the drums 1, but can be located higher. The tape 2 is also stretched on the drums 1 to prevent it from sagging and placed so that one of the largest surface of the tape 2 not wound on the drums 1 is fully oriented upward and the other downward (i.e., tape 2 is not twisted).

Capacity 4 is a container for microglass beads 6 coming from loading device 5 (in accordance with the Terminological Dictionary of Construction in 12 languages, capacity is a container for gaseous, liquid and granular bodies, https://technical_translator_dictionary.academic.ru/59678/ capacity, or on p.625 of the document http://www.complexdoc.ru/ntdpdf/539840/terminologicheskii_slovar_po_stroitelstvu_na_12_yazykakh.pdf, accessed 02.21.2018). The specific design of the tank 4 may be different subject to the design features described below, however, for illustration, the tank 4 is shown and further described in the form of a rectangular box.

The tank 4 is provided with a base 15 (usually its role is played by the flat bottom of the tank 4 or the base 15 itself performs the function of this bottom) along which the tape 2 moves (the lower part of the tape 2 in the case of a closed tape 2). The base 15 is usually a flat rectangular plate.

The container 4 is also provided with a through inlet 17 and an outlet 14, the shape of which coincides with the cross-sectional shape of the tape 2, i.e. made rectangular. The inlet 17 is intended for the entrance of the tape 2 into the tank 4, and the outlet 14 for the exit of the tape 2 from the tank 4. The dimensions of the inlet 17 are equal to or slightly larger (no more than the diameter of the smallest microglass 6) of the cross section of the tape 2. The width of the outlet 14 is equal to or slightly larger than the width of the tape 2, and the height of the outlet 14 can be equal to, slightly more or several times the thickness of the tape 2. The inlet 17 and the outlet 14 are opposite walls (in the case of a rectangular container) adjacent to the base 15. In this case, the outlet 14 is located close to the base 15, and the inlet 17 can be located either close to or at a distance from the base 15.

Due to the location of the outlet 14 close to the base 15, the base 15 is provided with a free edge 13 located along the largest size of the outlet 14 and not in contact with other walls of the tank 4. In addition, the size of the base 15 can be selected so that the free edge 13 of the base 15 lies in the plane of the side wall with the outlet 14, or so that the free edge 13 lies outside the tank 4 (including due to the fixed connection to the bottom of the tank 4 additional plate outside the tank 4, in this case Learning the base 15 includes a bottom and an additional plate).

The container 4 can also be equipped with a scraper 7. The scraper 7 is a device that prevents the containers 4 from leaving the microglass balls 6, which are not located in the holes 3 of the tape 2. The loading device 5 is magically connected to the feed hopper of the microglass balls 6, structurally ensuring uniform distribution of balls across the width of the tank 4 .

The scraper 7 can be made as a flat or bent plate of plastic, rubber, silicone or other materials, or as a brush with bristles of plastic, rubber, silicone or other materials. The scraper 7 is fixed on the tank 4 (inside or outside) so as to cover the part of the outlet 14 that is not blocked by tape 2. In addition, the bottom edge of the side wall with the outlet 14 can be used as a scraper 7, provided that that the height of the outlet 14 is approximately equal to the thickness of the tape 2. The scraper 7 in the form of a brush is preferably used in addition to the scraper 7 in the form of a plate, and it is necessary to place the scraper 7 in the form of a brush in front of the scraper 7 in the form of a plate in the direction of movement of the tape 2.

The container 4 is oriented with its base 15 (i.e. bottom) down and placed between the reels 1 so that the inlet 17 faces one drum 1 and the outlet 14 faces another drum 1. The lower part of the closed tape 2, at least partially located inside the tank 4, located without a gap on the base 15, and the tape 2 passes through the inlet 17 and the outlet 14. The scraper 7 touches the surface of the lower part of the tape 2, opposite the base 15.

The boot device 5 is a device of any design, providing the supply of microglass balls 6 in the tank 4 with a given flow rate. For example, the boot device 5 can be performed as a batcher of continuous or periodic action, bunker or tape type (in accordance with the Great Soviet Encyclopedia https://dic.academic.ru/dic.nsf/bse/85197/Doser, access date 21.02. 2018). In addition, the loading device 5 can be performed as a screw feeder, a gate feeder, a plate feeder or a plunger feeder (Skoblo A.I., Molokanov Yu.K., Vladimirov A.I., Schelkunov V.A. Processes and apparatuses for oil and gas processing and Petrochemistry: Textbook for universities. - 3rd ed., revised and supplemented. - M.: Nedra - Business Center LLC, 2000. - 677 pp. p.501-503).

The gas supply device 8 is a device for supplying gas (for example, air, including compressed air) with a given flow rate to the blowing means 9. For example, a fan, a gas blower or a compressor can be used as a gas supply device 8. The gas supply device 8 is hermetically connected directly or through a pipe to the blowing means 9.

The blowing means 9 is a device for blowing microglass balls 6 from the holes 3 in the tape 2 (in a certain area) under the action of high pressure. The blowing means 9 can be performed as a hollow structure of arbitrary shape (in particular, box-shaped) to create a zone of high pressure or as a gas flow former to create a gas flow.

In the first case of execution (Fig.1,2), the blowing means 9 is a hollow structure, open from two adjacent sides. The shape of the blowing means 9 can be arbitrary, for example, the blowing means 9 can be made in the form of a quarter of a straight cylinder with bases, a straight triangular or quadrangular prism. The blowing means 9 is located on the side of the container 4 from the side of the outlet 14 and above the base 15. With all the ends of the walls on one open side, the blowing means 9 fits snugly against the opposite base of the surface of the part of the tape 2 moving along the base 15, and along the ends of the walls with the other side, the blowing means 9 is attached to the outer surface of the container 4. For a snug fit of the ends of the walls to the tape 2, special overlays made of elastic material, for example rubber or silicone (tight fit) can be placed on the ends also contributes to the tension of the tape 2 on the drums 1). In this case, the smallest distance between the free edge 13 of the base 15 and the line of contact between the tape 2 and the wall of the blowing means 9 that is farthest from the tank must be no less than the diameter of the largest microglass 6. In one of the walls of the blowing means 9 there is a hole for supplying gas from the gas supply 8 .

In the second case of execution (Figs. 3, 4), the blowing means 9 (gas flow former) is a structure providing for the creation of a directed gas flow. The gas flow generator can be made in the form of a tapering nozzle of a rectangular profile, and the largest cross-sectional size of the nozzle is constant as the nozzle narrows and is not less than the tape width 2. The characteristic size of the tapering nozzle gap is not less than one and a half expected minimum diameters of microglass beads 6 in the loaded batch. The gas flow former is located on the side of the tank 4 from the side of the outlet 14 so that the gas flow is directed to the road marking layer 11 perpendicularly (almost perpendicularly) to it and oriented along the free edge 13 of the base 15. In this case, the gas flow former is located as close as possible to the free edge 13 of the base 15 so that the gas flow passes past the base 15. Using a gas flow former as a blowing means 9 reduces the gas flow rate for blowing the microglass beads 6.

The device for applying microglass beads is also equipped with a means of movement 16, which provides movement of the device along the layer of road marking 11 at a given speed. As a means of transportation 16, wheels or rollers placed on the drive shafts, wheels or rollers on the axles in conjunction with any traction device or a support frame attached to the traction device can be used. The device for applying microglass beads can be a separate device or be part of a marking machine.

The implementation of the invention

In the case of using the above elements and means, the invention is implemented as follows (the presented description of the object illustrates a particular case of its execution, other implementations using the features of this technical solution are possible).

Almost all elements of the microglass bead application device are known and do not require special manufacture or any explanation of the manufacturing methods. For example, in the following sources just tape 2 and tape 2 with already made holes 3 are presented (https://www.rtisale.ru/konvejernaya-lenta, http://www.conveyerbelt.ru/hols.html, accessed 22.02. 2018), drive and non-drive drums 1 (https://intmash.com/barabany/, https://cficom.ru/katalog/roliki-motor-barabany/roliki-i-motor-barabany-rulmeka/motor-barabany/ , circulation date 02/22/2018), gas flow formers (http://www.directindustry.com.ru/prod/meech-international/product-30966-352343.html, http://www.directindustry.com.ru/ prod / elektror-airsystems / product-24355-1478941.html, circulation date 02/22/2018), gas supply device 8 (http://www.blowers.ru/catalog, circulation date 02/22/2018), scrapers 7 (http: //www.directindustry.com.ru/prod/tanis-brush/product -147753-1688767.html, http://polimer-ug.com/skrebki-dlya-skrebkovogo-konveiera/, https://www.k-brush.com/blank-bh2y7, accessed February 22, 2018), boot device 5 (http://nevskiishnek.ru/catalog/dozatory-sypuchikh-materialov, accessed February 22, 2018).

The holes 3 in the tape 2 can be made, for example, by punching using a press. Tape 2 with holes 3 (the case of flexible closed tape 2 is considered) is placed on the drums 1 with the necessary tension.

Separately, a container 4 is made without a base 15 and a base 15 of the construction described above (so that after assembly the tank 4 is equipped with an inlet 17 and an outlet 14), for example, by cutting the necessary elements from sheet steel and welding them. Between the base 15 and the container 4 without the base 15, the lower part of the tape 2 is placed so that after the complete assembly of the container 4 the tape 2 passes through the inlet 17 and the outlet 14 and connect the base 15 to the tank 4 without the base 15, for example, by means of fasteners products. Then, a scraper 7, partially covering the outlet hole 14, is fixedly attached to the container 4 (in the case of a separate manufacture). The container 4 and the drums 1 with the tensioned tape 2 are placed and installed so that the container 4 and the drums 1 are stationary relative to each other. Fixed relative to the tank 4 from the side of the outlet 14, the blowing means 9 are fixed as described above. The blowing means 9 is connected to a gas supply device 8, which can be installed both stationary relative to the tank 4, and with the possibility of movement. Install the loading device 5 with the possibility of constant or periodic supply of microglass balls 6 into the tank 4. To the tank 4 and / or to the bearings of the rotary axes (shafts) of the drums 1 through the suspension system or similar, connect the vehicle 16 preferably so that between the base 15 and the layer surface road marking 11 there was a minimum distance for the normal movement of the device along the road surface. All elements requiring the movement of components for their work (usually a drive drum 1, loading device 5, vehicle 16, gas supply device 8) are connected to the engines, including using various gears.

The device for applying microglass beads is used together with the device for applying road marking material. When applying horizontal road marking, the road marking layer 11 is first applied by means of the application of the road marking material. As a device for applying road marking material, a roller or a spray gun can be used, to which road marking material is automatically supplied with a given flow rate or manually. For example, various known marking or marking machines can be used, in particular an extruder, a carriage for applying thick-layer materials or a spray gun.

Then immediately, until the road marking material had time to harden, microglass balls 6 were applied to the road marking layer 11 using the proposed microglass balls application device, which operates as follows.

The container 4, and, accordingly, the device as a whole, can be oriented in various ways: both with the outlet 14 in the direction of the micro-glass bead application device along the road marking layer 11, and in the opposite direction. In this case, the movement of the tape 2 by means of the drums 1 is always organized so that the tape 2 inside the container 4 penetrates through the inlet 17, and from the tank 4 through the outlet 14, i.e. the lower part of the tape 2 moved from the inlet 17 to the outlet 14. If necessary, the direction of movement of the tape 2 is variable, the inlet 17 is preferably performed in the same way as the outlet 14: with the same dimensions, and also an additional scraper 7 should be fixed.

The necessary speed of movement along the road marking layer 11 of the microglass bead application device and the necessary speed of movement of the lower part of the tape 2 relative to the base 15 are set. By changing the ratio of the indicated speeds, it is possible to further control the density of the application of the microglass 6 on the road marking layer 11 along the road marking layer 11.

When moving the tape 2 with holes 3 through the container 4 to the lower part of the tape 2 with holes 3 inside the container 4 (on its surface opposite the base 15), microglass balls 6 come from the loading device 5. the diameter of the holes 3 is equal to or slightly larger than the diameter of the microglass balls 6, then some microglass balls 6 fall into the holes 3 and move relative to the base 15 together with the bottom of the tape 2 (usually the thickness of the tape 2 is larger than the diameter of the microglass 6, so the microglass 6 is completely located in the holes 3 of the tape 2 ) In this case, due to the adherence of the lower part of the tape 2 to the base 15 (i.e., there is no gap between them), the microglass balls 6 remain in the holes 3 of the tape 2 until the free edge 13 of the base 15 is reached. Some microglass balls 6 remain on the surface of the lower part of the tape 2, opposite the base 15, or partially located in the holes 3 due to the location of several microglass balls 6 in one hole 3. When passing the bottom of the tape 2 with microglass balls 6 in the holes 3 and on the surface through the outlet 14 with the scraper 7 the glass beads 6, which are completely located in the holes 3 of the tape 2, freely pass through the outlet 14 and then move along the base 15 together with the lower part of the tape 2. Micro glass beads 6, which are located on the surface of the lower part of the tape 2, opposite the base 15, or partially located in the holes 3, when passing on the tape 2 through the outlet 14 they abut against the scraper 7 and cannot leave the tank 4. This is due to the fact that part of the cross section of the outlet 14 is closed by the tape 2 itself, and tavshayasya scraper part 7 closed correspondingly mikrosteklosharika passage 6 through the outlet 14 is only possible in the case of finding mikrosteklosharika 6 in the hole 3 in the tape 2. The presence of the scraper 7 to reduce non-target consumption and loss mikrosteklosharikov 6, as only those microglass beads 6 leave the tank 4, which then accurately (with a very high probability) will fall onto the road marking layer 11 and be fixed in it. The same contributes to the implementation of the holes 3 in the tape 2 in a certain order. The combination of these features prevents the loss of microglass balls 6 due to the fact that the microglass balls 6 are distributed only on the layer of the road marking 11 (i.e., there are no microglass balls 6 that fell onto the roadway without the possibility of fixing it and are not used to improve the visibility of the road marking) and distributed in one layer (i.e. there are no microglass balls 6, which without the possibility of fixing in the layer of road marking 11 fell on another microglass ball 6 already in the layer of road marking 11). The holes 3 in the tape 2 in a certain order also provides a certain and / or uniform location of the microglass 6 on the road marking layer 11.

After exiting the container 4 through the outlet 14, the lower part of the tape 2 with microglass balls 6 in the holes 3 intersects the free edge 13 of the base 15 and stops contacting it (microglass 6 in the holes 3 of the tape 2 also stops leaning on the base 15). Under the influence of gravity, the microglass balls 6 fall down (in the direction of the road marking layer 11) and leave the holes 3 in the belt 2. Additionally, the drop of the microglass balls 6 is accelerated due to the increased pressure from the blowing means 9. The increased pressure can be created in two ways, corresponding to two variants of execution blowing means 9. In the first case of execution of blowing means 9, increased pressure is created due to the fact that gas is injected into the hollow structure of blowing means 9. In this case, the walls of the blowing means 9, the wall of the container 4, to which the blowing means 9 are connected, the base 15 and the part of the tape 2 between the free edge 13 of the base 15 and the wall of the blowing means 9 farthest from the container 4 do not allow the injected gas to leave the space region bounded by the above elements . The exit of gas from this region is mainly possible through openings 3 in the part of the tape 2 between the free edge 13 of the base 15 and the wall of the blowing means 9 that is farthest from the container, and in these openings 2 there are microglass beads 6 that will be blown out of the openings 3 by gas. In the second case, the execution of the blowing means 9, increased pressure is created by a directed gas flow. As a result, the microglass beads 6 located in the holes 3 of the tape 2 on the path of the gas flow are blown out of the holes 3 of the tape 2.

The increased pressure created by blowing means 9 and acting on the microglass balls 6 not resting on the base 15 allows to reduce the likelihood of the microglass ball 6 getting stuck in the hole 3, and also by choosing the increased pressure it is possible to provide a different degree of immersion of the microglass 6 in the road marking layer 11. T .to. the mass of each microglass bead 6 is small, and the viscosity of the material of the road marking layer 11 is quite large, usually under the own weight the microglass beads 6 are immersed in the layer of the road marking 11 much less than a radius. This can lead to the fact that during operation the microglass beads 6 will be removed from the road marking layer 11. Under the action of increased pressure, it is possible to immerse the microglass 6 into the road marking layer 11 by more than a radius, which significantly reduces the likelihood of microglass beads 6 being removed from the road layer marking 11 by increasing the adhesion force of the microglass 6 and the layer of road marking 11. Higher resistance of the road marking also helps to reduce the consumption of microglass 6, t. . there is no need to apply spare microglass balls 6 to the road marking layer 11 in case individual microglass balls 6 are knocked out of the road marking layer 11 (to maintain the required level of retroreflection). A greater (compared with the known technical solution) immersion of the microglass beads 6 in the material of the road marking also contributes to an increase in retroreflectivity of the road marking.

Then, the road marking layer 11 with microglass beads 6 is cured naturally or through additional exposure, for example, with cold air.

All the described actions are repeated continuously with a constant movement of the tape 2 by the reels 1 and with a constant movement of the device for applying microglass balls along the layer of road marking 11.

Thus, the presence in the device for applying microglass balls blowing means 9 and the gas supply device 8 and the implementation of the proposed technical solution in the manner described above provides an increase in the stability of the resulting road marking during operation. This is due to the fact that the increased pressure created by the blowing means 9 allows deeper (but not completely, so that the microglass balls 6 partially protrude) to immerse the microglass balls 6 in the road marking layer 11 than in the case of free fall of the microglass balls 6. Due to the microglass balls 6 over a larger surface in contact with the material of the road marking layer 11, and therefore, between the microglass balls 6 and the road marking layer 11, a large adhesion force acts that prevents the microglass balls 6 from falling out of the layer orozhnoy marking 11 during operation under the influence of car tires, shoe soles of pedestrians, as well as environmental factors. A greater immersion of the microglass beads 6 also contributes to an increase in the retroreflectivity of the road markings. In addition, the presence of tape 2 with holes 3, with the help of which the distribution of microglass balls 6 occurs, allows to reduce energy consumption during operation of the device, because with the same degree of immersion of the microglass beads 6 into the road marking layer 11 in the described device, a much lower gas flow rate and lower generated pressure are required than if the microglass beads 6 are suspended on the road marking layer 11, suspended in a gas stream using a particulate atomizer.

Claims (5)

one . A device for applying microglass beads for forming a road marking on a road surface, comprising a vehicle with a container mounted on it with a base provided with a free edge, with a scraper, an inlet and an outlet, a tape with holes, two drums, a loading device, a blowing device, the tape is made closed, stretched on drums, fixed with the possibility of rotation around their axis and located at a distance from each other so that their axes are parallel, with the formation between the bar with the bottom of the tape and with the possibility of moving the tape from the drum to the drum, and the holes are through and located on the tape in a certain order, the inlet and outlet are located in the container opposite each other, the outlet is located close to the base, the bottom of the tape is skipped sequentially through the inlet, on the base and through the outlet, the loading device is fixed with the possibility of feeding microglass balls to the bottom of the tape in containers, the scraper is installed in the tank to prevent the passage of the microglass balls located on the bottom of the tape to the free edge of the base, located near the outlet, the blowing means is located at the free edge with the blowing of the microglass balls located in the holes of the bottom of the tape towards the road surface .
2. The device for applying microglass beads for forming a road marking on a road surface according to claim 1, characterized in that the holes in the tape are staggered.
3. The device for applying microglass beads for the formation of road markings on the road surface according to claim 1, characterized in that the holes in the tape are arranged one after the other in the direction of travel of the tape.
four . The device for applying microglass beads for the formation of road markings on the road surface according to claim 1, characterized in that the holes in the tape are located in any predetermined order.
5 . The device for applying microglass beads for the formation of road markings on the road surface according to claim 1, characterized in that the axis of the drums are parallel to the road surface.

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