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Device for acceleration of growth and restoration of lawn. RU patent 2508624.

IPC classes for russian patent Device for acceleration of growth and restoration of lawn. RU patent 2508624. (RU 2508624):

A01G7/02 - Treatment of plants with carbon dioxide (greenhouses therefor A01G0009180000)

Another patents in same IPC classes:

Method to recycle emissions of hazardous admixtures in air of stock-raising premises / 2468569
Invention relates to agriculture. The method consists in additional fertilising of plants with carbonic acid gas and nitric fertilisers due to supply of air with a mixture of gases along pipelines from a stock-raising room into a system of aeration drainage of a soil layer of greenhouses. In periods between crop combinations these emissions are supplied to sites for preparation of substrates from organic materials, volume of which is determined using the following formula: where W - volume of composted organic material, m3; 24 - number of hours per day; - quantity of ammonium discharged from a stock-raising room, kg/hr/head; Tcom - period of composting, days; K1 - content of nitrogen in ammonium, %; N - number of animal heads in a stock-raising room; Gfert - quantity of nitric fertilisers, which are to be introduced in composting of organic materials, kg/m3; K2 - nitrogen content in a fertiliser used for composting, %.

Regulating device for greenhouse / 2448455
Group of inventions relates to agriculture. The regulating device (10) of a greenhouse (15) contains a computer control unit (20), the lighting element (30) and at least one detecting element (40) where the lighting element (30) and the detecting element (40) are connected to the computer control unit (20). The lighting element (30) comprises at least one light emitting device (31) that emits light (32), which lightens the plant (70) growing in a greenhouse (15). At that the detecting element (40) measures the partial pressure of oxygen in the greenhouse (15), and the amount of light (32) emitted by light emitting device (31) is regulated by the computer control unit (20), depending on the measured partial oxygen pressure. In the method the growth of plants (70) is controlled in the greenhouse (15) by measuring the partial pressure of oxygen (101) in the greenhouse (15). At that the indicated partial pressure of oxygen is associated with photosynthetic activity of a plant (70) in the greenhouse (15), the transfer of values of the partial pressure of oxygen to the computer control unit (20), determining the optimal amount of light (111) necessary for best plant (70) growth, depending on the measured partial oxygen pressure, and regulating of the actual amount of light emitted by the lighting elements (30) to the optimal amount.

Method and device for acceleration of growth / 2432736
Group of inventions relates to growing of lawns at sports facilities. In the process the surface of the lawn (2) at least partially is covered cover with upper room (4) with an open bottom, to which CO2 is delivered, and it creates the carbon dioxide concentration from 500 to 2000 ppm. Moreover, the surface of the lawn (2) indoors (4), is lit with the use of lighting equipment (14). The device includes a closed room (4) with an open bottom, made with the possibility of placing on the surface of the lawn (2), additionally equipped with a lighting devices (14) and a device for delivering of carbon dioxide (8) from a reservoir (10) indoors (4) to achieve concentration of carbon dioxide from 500 to 2000 ppm.

Method of using solar energy / 2335118
Invention relates to forest management. The method involves burning woody materials in the access of oxygen producing heat and carbon dioxide containing gas mixture. Then carbon dioxide is extracted out of the mixture and dry ice is obtained. The dry ice is delivered to forest area, regasified, distributed over the area by mixing with air till excessive average daily concentration of carbon dioxide reaches 0.005% to 0.2% by volume. Further carbon dioxide is absorbed in the photosynthesis process by the trees which are burnt later.

Device for acceleration of growth and restoration of lawn / 2508624
Device for acceleration of growth and restoration of lawn comprises an open downwards canopy (3) which can be placed over the area of the lawn (2). The canopy limits the space (6) over the area of the lawn (2). The canopy (3) permits light through and/or comprises a lighting device for illumination of the area of the lawn (2). The input means of CO2 are mounted for supplying CO2 under the canopy (3). The canopy (3) is formed with a drive for automatic displacement of the entire canopy (3) over the area of the lawn (2) to accelerate the growth and restoration of lawn in areas with the ability of free displacement along the area.

FIELD: agriculture.

SUBSTANCE: device for acceleration of growth and restoration of lawn comprises an open downwards canopy (3) which can be placed over the area of the lawn (2). The canopy limits the space (6) over the area of the lawn (2). The canopy (3) permits light through and/or comprises a lighting device for illumination of the area of the lawn (2). The input means of CO₂ are mounted for supplying CO₂ under the canopy (3). The canopy (3) is formed with a drive for automatic displacement of the entire canopy (3) over the area of the lawn (2) to accelerate the growth and restoration of lawn in areas with the ability of free displacement along the area.

EFFECT: ease of treatment of large areas of lawn is ensured.

37 cl, 11 dwg

The invention relates to a device for accelerating the growth and repair of the lawn.

EP 0561193 A2 is a method and device for stimulation of plant growth and lawn. The device consists of a roof that covers the lawn almost completely, lights, and two fans for supply of carbon dioxide. Within 24 hours, lawn under closed canopy is illuminated by artificial light sources approximately 8-12 hours. The atmosphere in which there is a lawn, circulates continuously or intermittently with two fans and/or replaced from time to time. The amount of carbon dioxide absorbed by the lawn should be submitted continuously or with breaks in the atmosphere under a canopy by means of filing of carbon dioxide. This method and the device are proposed to ensure the growth of the lawn at any time of the year, in accordance with natural conditions.

EP 1269815 describes A device for treatment of lawn gas. In this design, the gas flow on the lawn is available in the pipeline through the entire area of the lawn. One end of the pipeline is open and connected with the pressure source, the other end is closed. In the pipeline is the output holes, facing the lawn. In further developments in the device mounted sensors that determine one or several variables, such as temperature, humidity environment, the temperature of the lawn, humidity lawn, the temperature of the intake gas, the temperature of the produced gas, humidity intake gas, humidity produced gas, the amount of carbon dioxide, as well as the use of fertilizers, and transmit these data to the regulating and controlling device by which regulated pressure source and/or steam and/or carbon dioxide, and/or amendment and/or heating device. This device can be made in the form of mobile, in the presence of the chassis. In this mobile device chassis is supplied with the drive. The drive started using the drive chain, which is located at the drive channel. Drive channel is below the level of the lawn.

In the invention DE 102006017813 A1 opens the way to accelerate the growth and repair of lawns, the upper part of the lawn, fenced, at least, section by section, space, open to the bottom and closed on all other sides. In this space comes CO 2 , and the lawn in this space, illuminated with the light fixture. The link given by the full content DE 102006017813 A1.

From previous experience aware of the fact that the covering only a limited area is the lack of the device, and the increasing size of the device-consuming. Moreover, the devices for the growth of this type are exposed to storms because of their height and lightweight construction.

The object of the present invention is a device and method, allowing to accelerate the growth of large areas of lawn simple and economical way.

This problem is solved with the help of the device with signs of item 1 of the claims.

Further priority development set out in the relevant dependent clauses.

The device according to the present invention is designed to accelerate the growth and repair of the lawn. It consists of canopy open at the bottom, which can be placed on the section of the lawn, and limits the space above the surface of the lawn, with canopy is made in such a way that reflects the light and/or has a lighting device for lighting of the grass. The canopy has a drive to automatically move the device over the lawn.

Because the device on a given invention is moving automatically, during its motion requires a smaller number of manual operations. Thus, staff costs are reduced, and the device can handle the entire lawn offline.

Moreover, thanks to the process of automatic movement, lawn is treated exactly in accordance with pre-defined parameters, so that is more effective and uniform treatment.

Damage from the storm can be avoided by adding or removing a device. Also reduced the risk of damage to people from flying away or falling devices.

The invention is illustrated on the basis of the drawing.

Figure 1 shows the device according to the present invention and shelter in compliance with him in the three-dimensional image components.

Figure 2 shows the device according to the present invention, depicted in figure 1, including components.

Figure 3 shows another exemplary embodiment of the device according to the present invention in a three-dimensional image,

Figure 4 shows another exemplary embodiment of the device according to the present invention in a three-dimensional image,

Figure 5 shows the following tentative embodiment of the device according to the present invention in a three-dimensional image,

Figure 6 shows another exemplary embodiment of the device according to the present invention in a three-dimensional image,

7 shows another the exemplary embodiment of the device according to the present invention in a three-dimensional image,

On Fig shows another exemplary embodiment of the device according to the present invention in a three-dimensional image,

Figure 9 shows another exemplary embodiment of the device according to the present invention in a three-dimensional image in the unfolded state

Figure 10 shows another exemplary embodiment of the device according to the present invention in a three-dimensional image in a disassembled state, and

Figure 11 shows another exemplary embodiment of the device according to the present invention in a three-dimensional image.

Device 1 according to the present invention is designed to accelerate the growth of the lawn 2, consist of mobile canopy 3, open at the bottom, and are used for covering part of the lawn 2.

Figure 1 shows the first exemplary embodiment device 1 according to the present invention, while figure 1 shows framework 7 shed 3 without components, as figure 2 shows framework 7 shed 3, including the components. Canopy 3 covers the space of 6 over the section of the lawn 4. Framework 7 has beams on the edges of the roof 3 in the form of a parallelepiped. Two of the far wall, located opposite each other in the longitudinal direction of the shed, form the front wall 8 and the back wall 9. The front wall 8 and the back wall 9 form a rectangular frame 10, created by two vertical and two horizontal located beams 11, 12, in each case, which are part of the framework design 7 shed 3.

The corresponding opposite the upper and lower corners 13, 14 rectangular frames of the front and rear walls are related to each other in the longitudinal direction by longitudinal beams 15. Longitudinal beams 15 and vertical beams formed by lateral wall of 22.

In addition to the front and rear walls 8, 9, canopy 3 framework 7 have a roof 21 and side walls 22.

The roof 21 generated in the form of pitched roofs. On the ridge of the roof is a longitudinal beam 15, which is located in the longitudinal direction and is connected to the upper corners 13 using four span beams 5.

Wall preferably made of film. Framework 7 and film form the tent.

The film can be transparent. This transparent film material creates a greenhouse effect within the device, by analogy with the glass in traditional greenhouses.

Longitudinal beams 15 made so that they can be adjusted in length. They connect the front and back panels 8, 9 with each other in the longitudinal direction so that the distance between the front and rear walls 8, 9 may vary, for example, from 0.5 m to 7 m

Longitudinal beams made the type of harmonica.

Connecting beams 15 can be designed so that their length can be adjusted telescopically (pneumatically).

Each of adjustable longitudinal beams 15 has a tab (not shown) to lock beams or for their extension and folding in the unlocked state. The clamps are connected to the controller. In extended and retracted connecting beams are fixed with clamps, which are driven by the controller 20. Because of this canopy 3 is durable and sturdy design, making it extremely resistant.

The drive can be driven.

Framework 7 and beams 11, 12, 15 shed 3 is made of lightweight and durable material, e.g. plastic, reinforced with fibreglass or aluminium hollow section.

On the underside of the bottom corners 13 the front and rear walls 8, 9 are equipped with wheels 16.

Both wheel 16 front wall 8 are connected with the engine 17, which rotates every one of them. Together with wheels 16 engine 17 is running the unit.

Both wheel 16 back is arranged in such a way that they could rotate around a vertical axis through the bearings 18. Wheels 16 equipped with a brake 19, to prevent any undesirable rotational movements of the wheels 16 back wall.

The engine 17 and brake 19 connected to the controller 20. Driven wheels 16 can be conducted at different speeds for turning the unit 1.

Thus, device 1 is very maneuverable and can accurately navigate within the smallest space.

In addition, the unit 1 can be collected, if the wheels 16 back wall 9 blocked brake 19, and the front wall 8 moves to the back 9 through 17 engines.

On the lower horizontal beams 12 front and rear walls 8, 9, and on the bottom of the connecting beams 15 sensors 23, distributed on or around the perimeter of a canopy with the aim of identifying the obstacles and/or tags. The device has one or more sensors (23). Perhaps, for example, to install two sensors 23 on each side of unit 1.

On the lawn 2 as tags may be placed wire or can be used, for example, light signals (laser). This allows you to designate a site intended for processing, and also to simplify device management 1.

Instead sensors 23 or in addition to these sensors can also be installed proximity sensor (distance meters) to prevent the collision of the two devices 1, which individually move on to the grass, 2, or to prevent collision with an obstacle.

The lower part of the walls 8, 9, 21, 22 contain aprons 24 to seal the space 6, limited device 1, in relation to the environment and lawn 2.

In addition, at the top of the unit 1 or rooftop 21 have instrument for measuring wind speed with the aim of measuring the wind speed near the device.

The controller 20 evaluates the data received by the instrument for measuring wind speed 25.

The controller 20 is designed so that the device 1 is moved over the lawn 2 through engine 17 with a preset speed or left in place for some time to ensure optimal processing period for each section of the lawn.

When the storm or gusty wind controller 20 may collapse device 1 to more compact or smaller format to reduce the surface exposed to the wind. Blocking of wheels of the rear wall and the displacement of the front wall 8 to the rear 9 reduces the overall length of unit 1.

Can also be provided for transporting the unit 1 of the shelter, where it is protected from damage caused by the wind. The shelter is designed so that it can accommodate several such devices 1, at least in the assembled state.

In the upper part under the roof of 21 are the means of entering 26 for gas; means of input 26 are tubular design 27 stretched the entire length of the space of 6 or in part. Pipe or truncate design contains 27 holes 28 through which the gas is supplied WITH 2 . Entry tool (26) can be installed at the top or at the highest point of the roof (3).

Gas CO2 comes from a container for storage of gas (not shown), which is connected to a tubular design 27 through appropriate power line 29.

The purpose of tracking the gas content 2 in the closed space of 6 or in the tent, the measured level of CO 2 or sensor WITH 2 30 preferably connected to the container for storage of gas through the pipeline 31, and the controller 20 monitors/adjusts the gas content.

Limited or closed space (6) may have a size from 5 m x 6 m to 20 m x 40 m or area from 30 m2 up to 400 m2 .

At the height h, measured from the ground or grass, in the shed 3 or tent is provided lighting device 32, which consists of fluorescent lamps, incandescent lamps or gas discharge lamps, for example. It is preferable to use light for photosynthesis, for example, lamps of manufacture of company General Electric Comp., which are sold under the brand Lucalox PSL. As the light fixture 32 you can use light-emitting diodes (LED), emitting light in the range of wavelengths suitable for photosynthesis.

If the ground under the lawn 2 has a heating device of lawn 33, confined space 6 circulate gas CO 2 , which is leaving the tubular design 27, then spreads or down to the bottom, convection will move gas FROM 2 up in marginal areas, if introduced at the center. The gas content WITH 2 set at the level of 500 to 1500 hrs/million-Size canopy (3) is chosen so that the temperature in the shed (3) climbed till at least 6 degrees C for four to 123 hours.

Closed space (6) is a tent or antopogenic design, made of essentially gas-tight walls. The wall of the tent may contain gas-tight film that may be transparent.

The wall of the tent can also include textile, particularly wear-resistant layer.

The wall of the tent may also be insulated and must contain a layer of a sheet of foam and/or air chamber between the two film walls.

Also the wall of the tent may be made of bubble film.

It was found that the flow of heat from the light fixture 32 is absolutely sufficient for the development of such convection, which is enough even for stadiums, neobrazovannyj heating system of the lawn.

In the example implementation, described above, for gas supply WITH 2 pipe is used 27. It was found, however, that in the context of the present invention is possible to use a separate point the nozzle instead of this pipe, as convection, prevailing in a closed space provides a uniform distribution of gas FROM 2 .

Lighting device 32 is situated at a height h, which varies from 1.40 m to 3 m, preferably from 2.20 m and 2.50 m, the supply line 2 is located at a height of approximately 20 cm to 80 cm above the lighting device.

Other exemplary embodiment of the device according to the present invention may possess features of the first sample of the incarnation, unless otherwise specified.

You can also exclude the input device 26 and install lighting device 32 at the height h above the lawn 4 from 10 cm to about 0.5 m to 1 m This creates a rather small height of the device 1, and a very small surface exposed to the wind.

In the second sample incarnation of the device (Figure 3) horizontal and vertical beams front and rear walls are made so that their length can be adjusted. Thus, the device can sudyatsya not only in length but also in width and height, to reduce the surface area exposed to the wind.

In this incarnation the roof 21 has the appropriate hinges 34 span beams 5 and in the upper corners of the front and rear walls 8, 9, to enable folding top 21 (Figure 4).

In another embodiment provided by the drive motors (not shown) for extension and fold of the horizontal and vertical beams 11, 12 and longitudinal beams 15; these drive motors are controlled by the controller 20.

With this design of the device motors 17 only serve to control or rotate and move the device 1.

In another exemplary embodiment of the device in accordance with the present invention (Figure 5) wheels 16 front wall 8 are driven by one engine 17, United with both wheels drive shaft 50. In addition, the wheels of the front wall is connected to the servo 51 for traffic control devices.

Wheels 16 back wall is connected with brake 19 to lock the rear wall 9.

In another example incarnation (6), in front of the front wall 8 mounted mower and/or device for opening lawn (Ripper) 35.

The mower and/or the Ripper 35 also managed by the controller 20 and produce additional processing of the surface of the lawn 4 (mowing and/or loosening) in particular, if you move the device 1.

Several devices 1, described above, can be chained together. Each device forms one link of the chain. With this chain can be used to handle large plot when using relatively small units. Thus, it provides the ability to handle even the relief of landscapes, such as courts, Golf course, because with different inclinations of the individual links in the chain can adapt to different reliefs. Individual links can connect to each other articulated in such a way that cover area over the lawn.

This can be achieved by removing, for example, the corresponding front and back walls. Individual segments (or side walls and roofs) are connected to each other tightly flexible hoses.

In another embodiment of the unit 1 according to the present invention (7) this device is executed in the form of a tent, the walls of which you can fill with air like an inflatable mattress. They can be cheated, for example, pump 36. When the wind is too strong walls can blow. Thus, the device is placed on the ground, and its surface is not exposed to the wind.

A separate wall can be specific camera, for example, which are connected with each other so that they form a connected volumes, to increase stability of the device; these cameras can be inflated with a pump 36 connected to the controller 20.

The air from the walls can be produced through the valve 37, which can operate controller 20.

In other incarnations device 1 according to the present invention allowed the construction of walls of the device made of glass or plastic, as, for example, polymethylmethacrylate (PMMA), acrylic glass, Perspex®, Limacryl®, picryl or O-glass. When using lamps is no extreme necessity, that the walls were transparent.

The controller 20 can be connected to a satellite navigation system and/or ground-based navigation system.

In another embodiment of the unit 1 in accordance with the present invention, instead of engines used two winches 38, 39 to move the device 1. First winch 38 connected with the lower cross-beam 12 rear wall 9 through the cable 40. The second cable 41 fastened to the lower beam of 12 front wall 8 and moved with the help of a pulley 52 attached to the bottom beam of 12 rear wall 9 to exit out of the device in the front end of the device 1, and is connected with the second winch 38. Powering winch 38, 39, device, you can move on to the grass. In addition, the unit may be formed and/or decomposed when connecting beams are not fixed. The device can be moved to the shelter by winches, to protect it from wind damage.

To move the unit 1 is enough and only one winch, if the hoist is fixed, for instance, on one side of the lawn, and equipped with a loop-like endless wire, which passed through the pulley on the other side of the lawn. The cable connected to a device 1.

The device works as follows.

One or more devices in accordance with the present invention are placed on the lawn to be processed.

After the expiration of the processing time controller includes engines, so that your device automatically moved, for example, the length of the device, for processing of the next section of the lawn.

Coordinates, according to which the device moves, can be installed control program, which determines the movement of the wheels or encoder signals, such as wire, laid on the lawn or light signals, or even global navigation system.

Lawn care provides processing gas CO 2 and/or light.

In case of a storm or lightning storms, strong enough to degrade the device operation or damage it, the device is up to the more compact size.

The controller receives directions to turn the device, for example, through the assessment of data provided by the unit of measurement of wind speed. Instrument for measuring wind speed gives information about wind speed at the moment, in the immediate vicinity of the device, and therefore particularly suitable for the message parameters to ensure the smooth functioning of the device. In the assessment also takes into account the degree gusting wind.

Information for the controller may also be provided by the meteorological service.

Moreover, to control the device manually, e.g. by using the remote control, and in accordance with the weather conditions at the moment.

To put the device in accordance with the approximate incarnations, outlined above, for example, fixing the wheels of the front wall with brakes, and moving back to the front with the help of leading wheels of the rear wall. Thus, connecting beams are combined, reducing the overall length of the device.

Thus, the surface exposed to the wind becomes smaller and the device can remain on the lawn in most cases.

You can also shorten the width and/or height of the device, which also reduces the surface exposed to external influence.

The device can be automatically moved to the appropriate shelter that protects the device from the storm.

As the additional care you can type the function of cutting and breaking lawn during the movement of the device, which runs mower and a device for loosening of the lawn.

In other approximate incarnations, if the first and second winch fixed on opposite sides of a football field, for example, the device can be collected in this way. With this design, the second rope hoist is fixed and traction is applied to the first rope winches. The first rope winch attached to the bottom beam of the front wall and out using the freely rotating pulley mounted on the lower cross-beam rear wall. Resulting in the front wall is shifted to the rear until then, until the device is fully assembled.

In another exemplary embodiment of the present invention (Figures 9, 10), device 1 consists of canopy with 3 framework 7, in which several specialized frames shed 48 respectively, joined with the longitudinal beams 15, who can gather and stretched, as accordion. Each profile frame canopy has two vertical beams 11 and beamed roof 49 located between two lower ends of vertical bars. Each beamed roof construction has 49 horizontal beam 13 and two-span beams. The areas between the two profile canopy frames are 48 section canopy 42 in each case.

The length of each section of the shed 42 is about 5 m and the width is about 6 m From two to five of these sections of the shed 42 can form a tunnel, covering an area of approximately 150 m 2 . The lawn of the stadium (approximately 7000 m 2 ) may be recovered sections by using, for example, four of these tunnels.

A separate profile frame canopy 48 of this tunnel at the lower ends are equipped with wheels 16, so you can move on to the grass, 2 for recovery.

When folded, the length of the sections of the shed 42 is approximately 80 cm, and the roof can be moved using the normal lifting mechanism - for example, a forklift truck. The device can be equipped engine to bring the wheels in motion, in accordance with an approximate incarnations described above.

Figure 11 illustrates several devices approximate realization, illustrated in figures 9 and 10 in the shape of a cube 1. The unit 1 are linked to each other so that they can be moved as a unit. This connection can be carried out using beams 43, for example. Timber 43 associated with a winch 38 through cable 40. The device can move on to the grass, 2 force of the winch 38.

Each section of the shed 42 equipped with lighting device 32 in the form of six lamps, for example, at a height h, measured from the lawn 2. Lamps are assimilation lamps from Phillips, designed specifically for photosynthesis, with a capacity for example, 600 Watts, and photon density of the flow in the range from 100 to 200 mol/m 2 C.

Lamps installed on the height h in the range of 1.6 m to 2.0 m, preferably by 1.8 m

Lamp increase the ambient temperature is about 10 C. In most cases this is enough to achieve a temperature of 3 C to 5 C in winter; this temperature is necessary to ensure fast growth of the lawn.

If the entire film is transparent, sunlight reaches the lawn, so in the daytime lighting 32 can be disabled, which saves energy. Film preferably is chosen in such a way as to allow light from outside and inside reflect, for example, the formation of reflecting inner surface and matte finishes external.

Special separation and/or open vents 47 prevent additional heating partition recovery 45.

The incarnation, shown in figures 9, 10 and 11 also can be implemented without additional space division 6 on the lighting section 44 and section recovery.

Preferred concentration of CO 2 - from 800 ppm CO 2 and 2000 h/2 million .

Because a sealed enclosure in an enclosed space or under the awning, the heat from lighting and, if available, the heat generated by equipment for heating lawn, greatly increases the temperature sufficient for the growth of grass, which forms the lawn.

Uniform concentration due to convection distribution is achieved due to the heat produced lighting fixtures, on the one hand, and equipment for heating lawn (if any), on the other hand.

The device creates optimal conditions for the lawn even during the cold winter months and under high load on the lawn; this is achieved by the simple means: higher intensity light than a day, and a high concentration of CO 2 with high temperatures.

Even in the winter months inventors could observe the growth of grass, about 0.5 mm in casemurate the environment was approximately from 5 C to 6 C. the Temperature measured on the lawn, was noticeably higher. On the one hand, through the use of a system of soil heating. Also, the temperature increase was facilitated generation of heat lamps, the effect of heat retaining the tent, and the concentration of CO 2 . Thus, the temperature of the lawn reached 21 degrees.

The square, a tent or a closed space is approximately 10 x 30 m to 15 x 30 m, or the value of the area varies from 30 m2 up to 400 m2 . Smaller tents are used to treat areas which are amenable to a very high pressure, for example, the site near the gate.

This includes the installation and operation of the system or device on a specific location over a four to twelve hours, as well as their further moving to continue elsewhere.

The device according to the present invention has the advantage that it provides a very simple, effective and economical processing of large areas of the pitch.

The list of item numbers

1 device 2 lawn 3 canopy 4

plot of lawn

span beam

6 space 7

frame construction

the front wall

the back wall

rectangular frame

vertical beam

horizontal beam

13 corner 14

the bottom corner

longitudinal beams

16 wheels 17 engine 18 bearing 19 brake 20

controller

21 roof 22

side wall

23 sensors 24 apron 25

the unit of measurement of wind speed

the means of gas

the tubular design

holes input

the pipeline

sensor 2

31 line 32

lighting device

equipment for heating lawn

34 hinges 35

the mower and a device for loosening the lawn

36 pump 37 valve 38

first winch

second winch

the first rope

the second cable

section awning

43 timber 44

lighting section

partition recovery

the second ceiling

47 vents 48

profile frame canopy

beamed roof construction

drive shaft

51 servo 52 pulley

1. A device for accelerating growth and recovery sections of the lawn, containing outdoor down a shed (3), which can be placed over the site of the lawn (2) and restricting the space (6) over the area of the lawn (2)with canopy (3) transmit light and/or has a lighting device (32) for lighting section of the lawn (2), means of input 2 (26) is set for the filing of CO 2 under the canopy (3), wherein the canopy (3) are made with the drive to automatically move all shed (3) over plot of lawn (2) to accelerate growth and restore the lawn on sites with the ability to move freely in the area of the lawn.

2. The device of claim 1, characterized in that the drive is electric.

3. The device of claim 1, characterized in that the drive contains at least one winch.

4. The device of claim 1, characterized in that it is carried out folding.

5. The device of claim 1, characterized in that shed (3) contains beams (15), stretching in the longitudinal direction.

6. The device according to claim 5, wherein the length of the beams (11, 12, 15) may change.

7. The device according to claim 5, wherein the beams have the clamps (11, 12, 15) to lock.

8. The device of claim 1, characterized in that the device contains a controller (20).

9. The device of claim 8, wherein said device has a device for measuring wind speed (25).

10. The device of claim 8, wherein said device has one or more sensors (23).

11. The device of claim 8, wherein said device includes satellite navigation system to provide data controller (20).

12. The device of claim 1, characterized in that the lower edge of the canopy provided downward aprons (24).

13. The device of claim 1, characterized in that many devices connected together, form a part.

14. The device of claim 1, characterized in that it includes the mower and/or the Ripper (35).

15. The device of claim 1, wherein the lighting device (32) installed at a height from 0.1 m to 3 m above the area of the lawn.

16. The device indicated in paragraph 15, wherein the means of input 2 (26) installed on illumination (32).

17. The device of claim 1, wherein the means of input 2 (26) installed on illumination (32).

18. The device according to article 16, wherein the means of input (26) is installed at the top or at the highest point of the roof (3).

19. The device of claim 1, wherein the means of input (26) is installed at the top or at the highest point of the roof (3).

20. The device of claim 1, characterized in that enclosed space (6) is a tent or antopogenic design, made of essentially gas-tight walls.

21. The device according to claim 20, wherein the wall of the tent contains a gas-tight film.

22. The device according to item 21, wherein the wall of the tent contains a transparent film.

23. The device according to claim 20, wherein the wall of the tent contains a transparent film.

24. The device according to item 23, wherein the wall of the tent contains textile, particularly wear-resistant layer.

25. The device according to claim 20, wherein the wall of the tent contains textile, particularly wear-resistant layer.

26. The device according to paragraph 24, wherein the wall of the tent made insulated and contains a layer of a sheet of foam and/or air chamber between the two film walls.

27. The device according to claim 20, wherein the wall of the tent made insulated and contains a layer of a sheet of foam and/or air chamber between the two film walls.

28. The device according to item 27, wherein the wall of the tent are made of bubble film.

29. The device according to claim 20, wherein the wall of the tent are made of bubble film.

30. The device of claim 1, wherein several adjacent devices (1) are connected to each other.

31. The device of claim 1, wherein the means of input (26) is a tubular design (27)stretched the entire length of the space (6) or its parts, and the pipe (26) or tubular design (27) has openings input (28), of which releasing gas FROM 2 .

32. The device of claim 1, wherein also provides a container for gas storage WITH 2 connected to a tubular design (27) using the corresponding pipeline (29), and in the closed space (6) or tent set the device for measurement of level 2 or sensor 2 (30) to oversee the CO 2 content , with the specified sensor is connected via a pipeline (31) with the container for storage of gas or individual means of controlling/regulating the gas content, and a device for controlling/regulating gas content, is designed to take gas FROM 2 of container for storage of gas with the possibility of regulation.

33. The device of claim 1, wherein the lighting device (32) consists of filament lamps and/or discharge lamps, metal vapor lamps and/or fluorescent lamps.

34. The device of claim 1, characterized in that limited or closed space (6) has an area of 5 x 6 m 20 x 40 m

35. The device p, wherein limited or closed space (6) has an area of 5 x 6 m 20 x 40 m

36. The device of claim 1, characterized in that limited or closed space (6) has an area from 30 m2 up to 400 m2 .

37. The device p, wherein limited or closed space (6) has an area from 30 m2 up to 400 m2 .