RU207423U1 - Device for preventing the formation of ice formation in drainage paths of roofs of buildings - Google Patents

Abstract

The utility model relates to the field of ground construction, in particular, to devices structurally connected to the roof, to prevent the formation of icing on the edges and drainage channels of roofs of buildings, any profile of building structures. The technical result is to expand operational capabilities. The essence of the utility model is a device for preventing formation of icing of drainage paths of roofs of buildings, including a pipeline with a heat carrier connected by the inlet end to a heat-insulating body, including a heating source, a device for moving the heat carrier and a thermal sensor, the pipeline is made of flexible material, air is used as a heat carrier, the pipeline is made through passage containing horizontal and vertical sections , the vertical section is located along the inner part of the drainpipe, the horizontal section is located on both sides of the drainpipe water intake with rigid fixing ends, the horizontal sections are connected to the other d with another and with a vertical section in the drainpipe water intake with a T-shaped rigid connecting and distribution pipeline, with the possibility of air flow distribution in opposite horizontal directions, the heat-insulating body is located in the lower inner part of the drainpipe in the form of an injection-heating device, in the body of which the device is located movement of the coolant in the form of an electric motor with a propeller.

Description

The utility model relates to the field of ground construction, in particular, to devices structurally connected to the roof, to prevent the formation of ice on the edges and drainage channels of roofs of buildings, of any profile of building structures.

Known technical solution - a device for removing snow and ice from the roof, including a pipeline with a coolant, which is used as a frost-resistant substance, connected by the inlet and outlet ends with a distribution tank, a heating source and a thermal sensor connected to it and to a circulation pump (Description to the RF patent No. 28882 for the utility model "A device for melting the icing of roofs", IPC E04D 13/00; E04D 13/076).

A known technical solution is a device for removing snow and ice from the roof, described in RF Patent No. 127394, published on 04/27/2013 IPC E04D 13/076. The device for removing snow and ice from the roof consists of a pipeline with a coolant, which is used as a liquid frost-resistant substance, a heating source and a temperature sensor connected to it and a circulation pump. The pipeline is made, at least, in two rows of autonomous pipelines, forming different heating circuits, each of which is connected by the inlet and outlet ends with a distribution tank. The pipelines are made of flexible material and are located along a bevel or contour, or over the entire surface of the roof. The disadvantages of the prototype include the loss of fluid during operation, which implies annual maintenance.

It is known "A device for removing snow and ice from the eaves of the roof" (RF Patent for PM No. 30373, published on June 27, 2003, IPC E04D 13/00 taken as a prototype). A device for preventing the formation of ice in the drainage paths of roofs of buildings, including a pipeline with a heat carrier equipped with thermal insulation, including a heating source, a device for moving the heat carrier, a stationary heat generator, which is a heat-insulated container (we have a heat-insulated body of a pressure-heating device), air is used as a heat carrier, the pipeline is made through passage, containing a horizontal section with rigid fastening ends (we have exhaust pipes) and a vertical section, the device for the movement of the coolant is made in the form of an electric motor with a propeller.

The task of the utility model is to create a design of a device to prevent the formation of ice in the drainage paths of the roofs of buildings.

The technical result consists in increasing the heating temperature of the coolant pipeline.

The essence of the utility model is a device for preventing the formation of ice formation in drainage paths of buildings' roofs, including a pipeline with a coolant connected by the inlet end to a thermally insulated casing with an injection-heating device, with a coolant movement device placed in it, made in the form of an electric motor with a propeller and an electric heater, as air is used for the coolant, the pipeline is made as a pass-through containing a horizontal section and a vertical section, characterized in that the vertical section of the pipeline is located along the inner part of the drainpipe, in the lower part of which there is an injection-heating device with a device for the movement of the coolant in it in the form of an electric motor with a propeller ...

The essence of the utility model is illustrated by a drawing, where:

in fig. 1 is a general view of a device for preventing the formation of ice on the drainage channels of the roofs of buildings.

The device for preventing icing contains a pipeline 1 with a heat carrier connected by the inlet end with a thermally insulated body 2, including an electric heater 3, a device for moving the heat carrier 4, a temperature sensor 5. The pipeline 1 is made of a flexible material with a rigid connecting section and is located vertically in the inner space of the downspout and horizontally along the roof gutter. Air was used as a heat carrier. The pipeline 1 is made through passage, containing horizontal 6 and vertical 7 and made of rigid material connecting distribution T-shaped 10 sections. The vertical section 7 is located along the inner part of the drainpipe 8. The horizontal section 6 is located on both sides of the inlet 9 of the drainpipe 8 and has rigid fixing ends 13. All three sections are connected by a connecting-distribution rigid T-shaped pipeline in the upper part of the inlet of the drainpipe 8. The heat-insulated body 2 is located in the lower part of the drain pipe 8 in the form of an injection-heating device 11, in the body of which there is a device for the movement of the coolant 4 in the form of an electric motor with a propeller, a heating source 3 and a thermal sensor 5, in the form of a protective thermal sensor installed as protection against overheating of the heating source 3. The device is equipped with a remote control device, including disconnecting elements (not indicated by the position), a protective thermal sensor 5, connected to a heating source 3, which in a particular case is used as an electric heater, and an electric motor with a propeller 4. Pipeline Gadfly 1 horizontal 6 and vertical 7 sections are made with a diameter of 8-25 mm. Flexible heat-resistant reinforced rubber, heat-resistant reinforced polymer or composite material can be used as a material from which pipelines of horizontal 6 and vertical 7 sections can be made. The connecting-distribution rigid T-shaped pipeline 10 is made of a structurally rigid material, since it is made with the function of distributing flows, connecting pipeline sections and fastening the structure; the material can be heat-insulated metal, polymer, composite. The heated pipeline 1 helps to drain melt water from the roof of the building. The proposed arrangement of the device and its location allow installation without additional technical means, which confirms the achievement of the technical result.

The heat-insulating body 11 is fixed with spacer fasteners 12 in the lower part of the downspout 8, the upper part of the structure holds the rigid T-shaped pipeline 10, the horizontal pipelines 6 are laid along the gutter or along the edge of the roof and have rigid fastening ends 13, which makes it possible to connect the pipelines to each other in the upper parts of the gutter. The heating source 3 is designed as an electric heater, and the temperature sensor 5 as a protective thermal sensor installed with the ability to protect against overheating of the heating source. Passing vertical 7 and horizontal 6 sections of the pipeline are made of heat-resistant reinforced rubber, or heat-resistant reinforced polymer or composite material. The connecting-distribution rigid T-shaped pipeline 10 is made of heat-insulated metal, or polymer, or composite material. Pipeline 1 is made with a diameter of 8-25 mm. The device can be remotely controlled and connected to a household power supply.

The device is powered by a household consumption network.

The device for preventing ice works in the following way. Under certain weather meteorological conditions, in which the formation of ice or solid precipitation occurs, the meteorological station gives a signal to turn on. When an electric current is supplied to the device, an electric motor with a propeller 4 begins to rotate, which supplies a coolant - air to pipeline 1, while an electric heater 3 heats the air passing through it to a temperature of more than one hundred degrees. The heated air, moving along the vertical section 7 of the pipeline 1, heats it, which contributes to an increase in the heating temperature of the pipeline. Reaching the connecting-distribution rigid T-shaped pipeline 10 in the upper part of the water intake of the drainpipe 8, it also heats up. Further, the movement of heated air through the pipeline passes into horizontal pipelines 6 located on both sides of the water intake 9 of the drain pipe 8, with the transfer of heat to the pipeline, preventing the formation of ice and ensuring the removal of melt water from the roof of the building. The coolant leaves the pipeline.

The use of air as a heat carrier allows the heating temperature to be increased.

Specification of the elements of the drawings of the device for removing snow and ice from the roof:

1 - pipeline,

2 - heat-insulated body,

3 - electric heater,

4 - electric motor with a propeller,

5 - protective thermal sensor,

6 - horizontal section of pipeline 1,

7 - vertical section of pipeline 1,

8 - drainpipe,

9 - water intake of the drainpipe,

10 - connecting and distribution rigid T-shaped pipeline,

11 - injection and heating device,

12 - spacer fasteners,

13 - rigid fixing ends.

Claims (1)

A device for preventing the formation of ice formation in drainage paths of buildings' roofs, including a pipeline with a coolant in the form of air, connected by the inlet end to the body, with a device for the movement of the coolant placed in it, made in the form of an electric motor with a propeller and an electric heater, the pipeline is made as a pass-through, containing horizontal and vertical sections, characterized in that the vertical section of the pipeline is located in the inner part of the drainpipe, and the body with the device for the movement of the coolant placed in it is made thermally insulated and placed in the lower part of the drainpipe.

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