RU80462U1 - WATER DRAINAGE - Google Patents

Abstract

A device is proposed to prevent ice clogging of drainpipes used to receive water from the roofs of buildings. For this purpose, the body of the drain is equipped with a pneumatic sleeve made with the possibility of pulsation of its surface. The device is equipped with elements of automation of its operation modes. In addition, the device can be performed in an embodiment that performs the function of downspouts. For this, the outer layer of the sleeves is made of hard material for the purpose of bearing the function of fastenings to the walls of buildings.

Description

The utility model relates to the field of operation of building structures and is intended for the destruction of ice in the gutters.

Known anti-ice device comprising pneumatic hoses made with the possibility of alternately connecting each sleeve to the suction and discharge of the compressor in order to organize the pulsation of their surfaces. (US Pat. of the Russian Federation for utility model No. 67102) Sleeves are made in the form of a tape serving as pavement and fixed to the road. When ice forms on it, a pulsation of its surface is organized in the tubular tape, leading to rupture of the ice layer.

However, the tape execution of the known device has a significant drawback when it is used to crack the ice inside structures, in particular in vertical gutters. When placing the tape inside the latter, between them and the edges of the tape there always remains a space where melt water will flow. This water, when frozen, forms a section of ice, on which the known device can act only through the mechanism of compression deformation, and not tension. The latter mechanism of ice destruction is more economical than the first.

This drawback is eliminated by the fact that the sleeves are made in the form of through pipes or funnels and are fixed either inside the gutters or on the roof or walls of buildings to perform the function of gutters.

The claimed implementation of the shape of the sleeves will reduce the uncontrolled amount of ice in the gutters.

Figure 1 shows the proposed utility model, figure 2 is a block diagram of the operation control of the inventive model.

The model includes a drain 1, a sleeve 2 containing, protrusions 3 on the inner surface and pneumatic conduits with branching 4. The compressor 5 includes suction nozzles “B” and discharge “H” connected to the corresponding containers of the pneumatic flow regulator 6. The latter contains controllable valves 7 and 8, the overlapping inlets of the compressor nozzles 5, the controlled valves 9 and 10 at the vents of the tanks of the regulator 6, as well as the controlled valves 11 and 12

overlapping entrances to the branches of the pneumatic line 4, leaving a consolidated end in the cavity of the sleeves 2.

The device operates as follows. When there is ice inside the sleeve 2, the compressor 5 pumps air into it, while the valves 7, 8, 9 and 12 are open. Then, after breaking the ice, the valves 9 and 12 are closed and the valves 10 and 11 open, as a result of which air is discharged from the sleeve into the atmosphere, the cracked ice is then poured down. The next cycle is carried out in a similar way.

The signal for starting the compressor 5 can be obtained, for example, from a sensor for controlling the thickness of the ice.

The inner surface of the sleeve is equipped with protrusions 3. which divide the freezing layer into separate pieces, to facilitate the process of breaking the ice.

The proposed sleeve may contain one or more sections. Control of the operation of the device with three sections is shown in figure 2, where each section is equipped with the same pneumatic regulators 6, in which the branch pipes "B" and "H" of the compressor 5, operating in constant mode, branched into three outputs, are closed by valves of type 7 and 8. B at the beginning of operation of the device, the latter are opened only in one pneumatic regulator 6 and the sequence of their opening is controlled by, for example, a timer device that sequentially opens the valves of the next section and closes the valves of type 7 and 8 of the previous section. The operation of other valves, such as: atmospheric 9 and 10 and valves of the branches of the pneumatic pipe 11 and 12 is carried out as described above.

Sleeves are made of flexible and elastic-elastic material such as rubber or plastics. To carry out the direct function of the gutters, the outer layer of the sleeves is made of hard material that can bear the load experienced by the gutters.

The use of the proposed utility model will prevent the ice from blocking the flow of melt water in the drainpipes.

Claims (1)

A gutter device, including inflatable sleeves for ice breaking, compressors containing suction and discharge nozzles made with the possibility of alternating connection with each sleeve, characterized in that the sleeves are made in the form of passage pipes or funnels fixed either inside the gutters or on the roof and walls buildings, and in the latter case, the outer layer of the sleeves is made of hard material.