RU55404U1 - METHOD FOR HEATING TENT STRUCTURE AND TENT STRUCTURE - Google Patents

Abstract

The invention relates to the field of construction, namely, to temporary quickly erected tent structures, adapted for use in any climatic zones.

The tasks to which the proposed inventions are directed are to create a simple and reliable design of the tent structure, suitable for operation in any climatic conditions, to improve micr. The method of heating the tent structure by using the air cavity between the outer and inner shells of the roof differs in that said cavity directs a stream of hot air under pressure and forms at least one common inlet volume of hot air along the edge of the roof, which then Dividing by not less than one, the upward flow and distribute it to the air cavity between the outer and inner shells of the roof, is then collected and cooled air is returned to the generator or the atmosphere.

The tent structure contains a frame on which the inner and outer shells are located, and is characterized in that it is further provided with a hot air circulation device made in the form of a hot air generator connected through inlet pipelines to an air cavity formed by the inner and outer shells, wherein the cavity is formed, at least one common entrance cavity located along the edge of the roof, and at least one channel located on the roof extending from it, with the channel exit and connected with the outlet cavity, which in turn is connected with the outlet pipe.

Description

The invention relates to the field of construction, namely, to temporary quickly erected tent structures, adapted for use in any climatic zones.

Known folding canopy (RU 2140513, E 04 H 15/48, 1995.07.12). The folding canopy includes a truss frame and an awning that allows the flexible folding awning to be moved between the raised position and the lowered position. A folding canopy contains at least three racks. Supporting flexible supports installed with the possibility of removal on the upper ends of the racks and forming a frame for the awning. X-shaped pairs of trusses from the connecting elements are connected to each rack on each side of the canopy between adjacent racks.

The disadvantages of the known design include the limited possibilities of its use in cold climatic conditions, due to the fact that in the presence of snowfall, snow will accumulate on the roof and make it heavier, which can lead to a violation of the integrity of the canopy structure.

Known structures designed for operation in any climatic zones. The frame of structures is made in the form of rigid arch reinforcement, on which an awning is pulled. This design in snow conditions contributes to the rolling of snow to the base.

The following constructions can be attributed to them.

Known pneumatic frame prefabricated structure (RU 2145375, E 04 H 15/20, 1998.06.22). It contains a unit of equipment installed independently of it, made in the form of a container room with a base and walls, with a lockable entrance, with working and backup heaters, electrical units, an electric panel and other devices of the microclimate maintenance and vitality system mounted inside the container premises on the basis of it. Inside the structure, a volume has been allocated for the placement and transportation of all stacks and a set of stacks of related accessories. Outside the structure, horizontal towing devices are attached in the lower part, and in the upper part -

device for lifting. The walls are made of the necessary technological holes.

Known collapsible tent structure (RU 2037016, E 04 B 1/32, 1991.08.28). It contains a transformable frame of arches with an awning covering and panel sections of the base having hinged supports and guides for moving the frame from the arches when it is installed. In order to facilitate transportation and simplify the installation of the structure, it can be placed in a shipping container.

Known pneumatic frame prefabricated structure (RU 2134761, E 04 H 7/20, 1997.07.21). It contains a set of modules, which, in turn, consist of working modules detachably connected to each other through an adapter module, and from the front side, with gateway modules forming a structure with mutually perpendicular sides. The construction consists of pneumatic frame modules, including pneumatic arches interconnected by pneumatic beams and supported by supporting cylinders, which have an external tight tight-fitting and an internal breathable tight-fitting, the entrance to the working and transitional modules being made of pneumatic cylinders forming a doorway with an inflatable door .

The disadvantages of the known solutions include the complexity of the design due to the presence of a large number of elements that ensure rigidity and reliability of the structure, limitations on the usable area due to the shape of the frame (arched frames). The microclimate and life support in such structures are maintained by installing indoor electric heating elements, which also creates certain inconveniences during operation.

The tasks to which the proposed inventions are directed are to create a simple and reliable design of the tent structure, suitable for operation in any climatic conditions, and to improve the microclimatic conditions inside the structure.

The tasks are solved as follows. The method of heating the tent structure by using an air cavity between the outer and inner shells of the roof is characterized in that a stream of hot air is directed into the said cavity under pressure and at least one common inlet volume of hot air is formed along the edge of the roof, which is then divided into , not less than one, upward flow and

distribute it through the air cavity between the outer and inner shells of the roof, then the cooled air is collected and returned to the generator or atmosphere.

The tent structure contains a frame on which the inner and outer shells are located, and is characterized in that it is further provided with a hot air circulation device made in the form of a hot air generator connected through inlet pipelines to an air cavity formed by the inner and outer shells, wherein the cavity is formed, at least one common entrance cavity located along the edge of the roof, and at least one channel located on the roof extending from it, with the channel exit and connected with the outlet cavity, which in turn is connected with the outlet pipe.

In autumn-winter conditions, when snow falls, weather conditions are created under which roof icing and accumulation of a layer of snow on the roof are possible. The operation of tent structures (for example, stalls) in such conditions over a long period of time becomes difficult and can lead to structural failure. In addition, people inside the building experience discomfort associated with low ambient temperatures and are forced to use heating appliances, which requires special precautions. The proposed design of the tent structure with additional heating of the roof allows to solve these problems.

The invention is illustrated by drawings. Figure 1 shows a General view of the tent structure in the context, figure 2 is a section along aa of figure 1.

Awning structure consists of a frame made of interconnected main elements of the supporting structure: racks 1, crossbeams 2, rafters 3. On the frame of the structure, an external airtight shell made of airtight soft fabric material is formed in the form of side walls 4 and roof 5. Under the roof 5 on the rafters 3 is an inner shell 6, which can be made of breathable or airtight material.

The outer and inner shells are connected around the perimeter and located so that between them an air cavity 7 is formed, into which hot air generated by the hot air generator 8 is supplied under pressure. The air is supplied through pipelines 9.

To create uniform heating over the entire roof area, the air cavity is divided into channels 10, through which the ascending air currents of hot air circulate under pressure. The number of channels, sizes and their configuration vary and are selected depending on the characteristics of the roof geometry (flat, with small or large slope angles, etc.). The channel inputs 10 of each slope are combined into one common input cavity 11, which is located along the edge of the roof and connected by means of a pipeline 9 with a generator 8. The outputs of all channels 10 are brought into one common output cavity 12, which is connected to an exhaust pipe 13 that returns the exhausted cooled air to the generator (it can be vented to the atmosphere).

During operation of the tent structure, when the ambient temperature drops and snow falls, the generator 8 is turned on. The hot air stream created by the generator enters through the distribution pipelines 9 into the common inlet cavity 11 of each ramp and under pressure enters the channels 10. When passing through the channels, hot air gives off heat and reduced to the outlet cavity 12, from where it enters the generator or into the atmosphere through a pipe 13.

When recirculating hot air, both shells are heated and a double heating effect is created: heating the outer shell contributes to the melting of snow, prevents the formation of icing on the edge of the roof; heating the inner shell improves the thermal conditions inside the structure. The inner shell may be made of breathable material, and then part of the heat will be directly removed to the inside.

The proposed invention will find application in the operation of tent structures in winter conditions.

Claims (1)

Awning structure containing a frame on which the inner and outer shells are located, characterized in that it is additionally equipped with a hot air circulation device made in the form of a hot air generator connected through inlet pipelines to an air cavity formed by the inner and outer shells, while said cavity is formed at least one common inlet cavity located along the edge of the roof, and at least one channel located on the roof extending from it, with the exit the channel is connected to the outlet cavity, which in turn is connected to the outlet pipe.