RU124712U1 - ROOF TREATMENT PLANT FOR BUILDINGS AND FACILITIES WITH LIQUID REAGENTS - Google Patents

Abstract

1. Installation for treating the roof of buildings and structures with liquid reagents, containing a container for storing reagent, a filter connected to it, a pump for feeding, a metering unit or reagent flow unit, a pressure equalization system for protecting actuators, a pump control panel, automated or manual control of the operation of the installation and the level of the reagent in the tank, shutoff valves and manometers, the main pipeline for supplying the reagent to the actuator located on the roof, characterized the fact that anti-icing and anti-icing liquid reagents that do not require any additional heating elements are used as an agent for preventing the formation of snow cover and for removing snow, ice and icicles from the roof of buildings and structures, the snow melts due to their properties, they quickly cover the entire surface roofs, create a protective layer on the surface that prevents the formation of ice, and also that as actuators you can use perforated tubes, or tapes, silt Perforated hoses to create a drip irrigation entire roof surface with holes or tubes to create cascading reagenta.2 application. Installation according to claim 1, characterized in that, as a preventive measure for the formation of snow cover and ice, cyclic or periodic deposition of a reagent over the roof surface is realized. Installation according to claim 1, characterized in that the actuators are located horizontally along the length of the roof. Installation according to claim 1, characterized in that multi-circuit react supply lines can be implemented

Description

This utility model relates to the public utilities system and to the field of construction and, in particular, can be used both to prevent the formation of snow cover and to remove snow, ice and icicles from the roof of buildings and structures.

A device is known for removing snow and ice from roofs of buildings and structures, characterized in that at least one pipe having side holes of the required size is installed and fixed on the roof, and these holes are located at an appropriate distance from each other, and since at the right time this pipe (pipes) for the necessary time begins to be supplied with water of the appropriate temperature, then water through these side holes begins to pour out over the entire roof of the building and, spreading through it, comes into contact with snow (and ice), finding existing on the roof, it begins to melt, turning it into water and then flushing it through the drain pipes to the ground, completely freeing the roof from snow (and ice) and thereby making the process of ice formation and icicles on this roof until the next snowfall completely impossible (RF application No. 2004137335/03, E04D 13/00 dated 12/21/2004).

The disadvantage of this technical solution is the use of water coolant from the boiler, which is susceptible to freezing both at low atmospheric temperatures and when the heating system of the boiler fails, which will require additional costs for maintaining the circulating coolant during operation of the device. In addition, the presence of expensive electrical equipment as part of a control device, which also includes sensors that require heating elements, such as a fan, electric lamps, etc., increases the cost of the device.

A device for removing snow and ice from the eaves of the roof, containing mounted on the outer edge of the roof closed in cross section, made in the form of a sheet of soft metal with a heater located on it, covered with an insulating layer, the heater is equipped with down conductors for connection to a power source (RF P.M. No. 23634, M. C. E04D 13/00, publ. 2002).

The disadvantages of this device are the increased danger due to the use of an electric power source, low operational reliability and significant operating costs when melting ice and snow.

The prior art method and device for deicing processing according to US patent No. 4557420 from 12/10/1985, proposed as the closest analogues. The specified device consists of a pumping station, the hydraulic system of the road section and an automatic weather station. The pumping station is a container installed in the immediate vicinity of the road section being processed, inside which there are tanks for storing reagent, a pumping hydraulic system and control equipment. The equipment of the road section consists of spray heads located along the road section and connected by a hydraulic system. The automatic weather station is equipped with sensors for measuring air temperature, atmospheric pressure, relative humidity, rainfall (such as a "bucket") and wind speed and direction. A method for performing anti-icing treatment includes the normalized distribution of the liquid reagent on the surface of the road section by automatically or remotely turning on the spraying operation, due to which the reagent is uniformly applied over the entire length of the road section.

The disadvantages of the known method and device include the lack of a pressure stabilization system in the hydraulic system and the ability to address control of head spray intervals, which in turn does not allow applying the reagent with a given accuracy to the road surface - spray control is performed by the only command "start spraying", after which sequential automatic switching on of spray heads for a single time interval set for all heads is performed. In addition, the composition of the known device includes such an expensive and requiring constant monitoring and maintenance element as accumulators, which reduces the overall reliability of the system, and to fill the entire hydraulic system with a reagent, including accumulators, it takes a long pump operation, which increases the cost of operating the device.

Also known is a method of automatic processing of road deicing reagents and a stationary system for its implementation (RF patent No. 2287635 E01H 10/00 op. 20.11.2005). In this method, on a controlled section of the road, environmental parameters and / or the condition of the road surface are measured by meteorological sensors and / or road surface sensors installed along the road, the data obtained is sent to the control terminal, the parameters are processed and analyzed with the subsequent increase in the probability of occurrence ice in a controlled area and, in the case of an increase in this probability, a given reagent density distribution is calculated, for example vlyaya via control terminal address signal to actuators spray heads to ensure their incorporation into any sequence for applying the deicing agent with a given density. The system of automatic processing of the pavement with anti-icing reagent includes interconnected control terminal located along certain sections of the road meteorological sensors and / or sensors of the state of the pavement and spray heads mounted on hydraulic lines laid along the road.

The disadvantage of this method is that it is implemented only for the roadway.

The objective of the utility model is to create a device for treating the roof of buildings and structures with anti-icing and anti-icing liquid reagents in order to prevent the formation of snow cover and the removal of snow, ice and icicles.

The problem of the utility model is solved in such a way that in a reagent deposition installation, which includes a reagent storage tank located indoors or outdoors, a filter connected to it, a pump for supply, a metering unit or reagent consumption unit, and a pressure equalization system for protection actuators, a pump control panel, automated or manual control systems for the installation and the level of reagent in the tank, shutoff valves and manometers, a main pipeline for supplying reagent and to the actuator, actuators are sequentially installed or placed directly on the roof and as such, perforated tubes, or tapes, or perforated hoses can be used to create drip irrigation of the entire roof surface, or pipes with holes to create a cascade reagent, and as liquid reagents, anti-icing and anti-icing agents of the type SNPCH-DS-1 “Bozys yul” (TU 2149-348-05765670-2009) can be used. Since in order to prevent the formation of snow cover and remove snow, ice and icicles, a liquid reagent is used that does not require any additional heating elements to heat it, the snow melts due to the properties of the reagent, quickly covers the entire roof surface, creates a protective layer on the surface that prevents ice formation.

The device contains (see Fig. 1.) a tank for storing reagent 1 with an attached level gauge 9, for monitoring the level of liquid in the tank. A valve 10 is attached to the container by means of a flexible or rigid pipeline to cut off the flow, and a filter 2 is attached to the valve to purify suspended particles present in the reagent. The metering unit or reagent consumption 3 is connected to the filter using a pipeline, which serves to control the correct dosage and metering of the reagent. A shut-off valve 11 is attached to it, with which, if necessary, the filter can be cleaned provided that the valve 10 is closed. Then a pump for supplying reagent 4 is connected. A main pipeline is connected to it for supplying the reagent to the actuator, in the line of which a pressure stabilizer is installed 5, which serves to maintain a certain pressure and protects the actuators from overloads, and a manometer 6, to control the pressure in the line. Actuators 7 and 8 are connected to the main pipeline, which can form either a single-circuit or multi-circuit line as shown in Fig. 1, for this, shut-off valves 12 and 13 are installed in front of each circuit.

A multi-circuit line is needed to implement independent application of the reagent to different areas of the roof surface, for example, to divide into two independent lines of reagent supply to the entire roof, in case it is necessary to stop the supply to each line separately by shutting off the desired crane.

Actuators are installed horizontally along the length of the roof, and are fixed on it.

The installation also includes systems of automated or manual control of the installation, a pump control panel. If the installation is implemented with an automated control system, then for its implementation, sensors and controlled valves are installed in the installation. And manual control can be carried out both on-site and remotely, via GSM or other types of communication.

If the installation operates in the mode of preventing the formation of snow cover and ice, then cyclic or periodic application on the surface of the reagent should be carried out, depending on the type and area of the roof, ambient temperature and properties of the reagent, which will provide a constant protective layer on which the snow cover does not fall .

In this mode, the installation works as follows. Using pump 4, the reagent begins to flow from the tank 1, which is fed to the actuators 7 and 8, with the help of which the reagent is applied to the roof surface. Control of the supply of the required volume is carried out by the metering unit or reagent consumption 4. When the desired volume of reagent passes, its supply is stopped. This operation is carried out in periods or cycles.

If the installation operates in the mode of removing the formed snow cover and ice, then the reagent is applied to the surface until all snow cover has disappeared from the roof.

In the mode of removing formed snow cover and ice, the installation works as follows. Using pump 4, the reagent begins to flow from the tank 1, which is fed to the actuators 7 and 8, with the help of which the reagent is applied to the surface to be treated. The reagent is supplied until all of the cover comes off.

The installation can be used on different types of roofs, surfaces and roof shapes.

The claimed installation also reduces the load on the structural elements of the building and, as a result, helps to improve operational safety and increase the service life due to the constant elimination of snow cover.

The use of the claimed installation reduces the load on the supporting structures of the roofs and the building itself and, as a result, reduces material costs for the construction and repair of buildings and structures, as well as ensuring their safe operation.

Claims (8)

1. Installation for treating the roof of buildings and structures with liquid reagents, containing a container for storing reagent, a filter connected to it, a pump for feeding, a metering unit or reagent flow unit, a pressure equalization system for protecting actuators, a pump control panel, automated or manual control of the operation of the installation and the level of the reagent in the tank, shutoff valves and manometers, the main pipeline for supplying the reagent to the actuator located on the roof, characterized the fact that anti-icing and anti-icing liquid reagents that do not require any additional heating elements are used as an agent for preventing the formation of snow cover and for removing snow, ice and icicles from the roof of buildings and structures, the snow melts due to their properties, they quickly cover the entire surface roofs, create a protective layer on the surface that prevents the formation of ice, and also that as actuators you can use perforated tubes, or tapes, silt Perforated hoses to create a drip irrigation entire roof surface with holes or tubes to create cascading applying reagent. 2. Installation according to claim 1, characterized in that as prevention of the formation of snow cover and ice, cyclic or periodic deposition of the reagent on the roof surface is realized. 3. Installation according to claim 1, characterized in that the actuators are located horizontally along the length of the roof. 4. Installation according to claim 1, characterized in that multi-circuit reagent supply lines can be implemented. 5. Installation according to claim 1, characterized in that the container can be placed both indoors and outdoors. 6. Installation according to claim 1, characterized in that the process is implemented as a manual control, so automatic. 7. Installation according to claim 1, characterized in that the actuators are installed sequentially to cover the entire surface of the roof. 8. Installation according to claim 1, characterized in that the control can be carried out remotely via GSM or other types of communication.

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