RU2477774C1 - Device to remove icicles from building roof - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: device to remove icicles from a building roof comprises one steel wire rope arranged under a building roof ledge, being connected with a drive and a spring mechanism for return of the rope into the initial position and with levers arranged in the horizontal plane at sharp angles to normal lines to the building wall with the possibility of their hinged rotation relative to the building roof. At the same time each lever is made as single-arm and of angular profile in plan with alignment of their protruding part in parallel to the rope hingedly fixed on its end to the side, which is opposite to direction of its displacement when removing icicles. Levers are hingedly fixed on the building wall with the value of sharp angles, and between the levers in their initial position and normal lines to the building wall equal to not more than 15 degrees, and the ratio of the length b of the protruding part of the lever to the length, and its main part is accepted as at least b/a=0.3.

EFFECT: reduced operational expenses for cleaning of a roof ledge from icicles.

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Description

The invention relates to the arrangement of urban buildings, ensuring their safe and convenient operation, and in particular to devices for removing icicles from roofs of buildings, including multi-storey buildings.

A known device adopted for the prototype for removing icicles from the roof of a building, containing a system of cables stretched along the roof under the cornice, with two-arm levers pivotally mounted on the building, one of the shoulders of which is connected by an additional cable to a vibration source, while the two-arm levers and connect them the cables are made in the form of a spring-loaded four-link mounted on the brackets, and the last or shoulders of the levers are made of different sizes (SU No. 1307043, 1987, A1E 04D 13/06).

However, the known technical solution has the following disadvantages:

1. The complexity of the design and its increased cost due to the use of two steel wire ropes parallel to the roof eaves, hinged levers not to the wall of the building, but to additional brackets cantilevered on the wall of the building with a complicated bearing design, which should ensure stable placement in them two shoulders leverage.

2. The need to place the specified system of two edges and levers with brackets in a limited width space under the eaves of the roof of the building.

3. To drive two ropes, it is necessary to use either a friction pulley with the corresponding deflecting pulleys, or two drives, which additionally complicates and increases the cost of construction.

4. To ensure the necessary displacement of the outer rope that destroys icicles of ice, it is necessary to increase the axial displacement of both ropes caused by the reduced shoulder size of the two-arm levers, which should be placed within the width of the protruding part of the cornice at increased angles relative to the normal to the building wall, which, in accordance with the given scheme should be at least 40 degrees, and even taking into account the gap between the inner rope and the wall of the building, which additionally reduces the length of the arm levers.

5. The increased required value of the axial displacement of the rope noted above significantly complicates the spring mechanisms for returning the ropes to their original position after dropping icicles from the eaves of the roof and the drive itself, and also requires an increased time spent on removing icicles from the roof of the building.

The technical result of the invention is to simplify and reduce the cost of the design of the device for removing icicles with a decrease in capital and operating costs and increase the reliability of the device.

The technical result is achieved by the fact that in the device for removing icicles from the roof of the building, containing a steel wire rope placed under the eaves of the roof of the building, connected to the drive and the spring mechanism to return the rope to its original position and with levers placed in a horizontal plane at acute angles to normal to the wall of the building with the possibility of pivoting them relative to the wall of the building, under the ledge there is one rope connected to the levers, and each lever is made with a single arm and a corner profile in plan e with the orientation of their protruding part parallel to the rope pivotally mounted on its end to the side opposite to the direction of its movement when removing icicles, the levers are pivotally mounted on the wall of the building with sharp angles α between the levers in their initial position and the normals to the wall of the building, not more than 15 degrees, and the ratio of the length b of the protruding part of the lever to the length a of its main part is taken to be at least b / a = 0.3.

The device is presented in the drawing, where in Fig. 1 is a top view of the device in the initial position of the levers, in Fig. 2 is the same, when removing icicles, a vertical section along the roof eaves is shown, in Fig. 3 is a section A-A along figure 1. A device for removing icicles from the roof of a building, including a multi-story building, comprises a section of a steel wire rope 4 of a closed type located under the roof eaves 1 with minimal displacements relative to its edge 2 towards the wall 3 of the building and down. The rope 4 is oriented in the horizontal plane and, using clamps 5, is pivotally (6) fixed at the ends of the single-arm levers 7 of the angle profile in plan with the orientation of their protruding part 8 parallel to the rope 4 in the direction opposite to the direction 9 of its movement when removing icicles 10. The levers 7 are pivotally 11 are fixed on the wall 3 of the building with a value of sharp angles α between the levers 7 in their initial position and the normals to the wall 3 of the building equal to no more than 15 degrees. The ratio of the length b of the protruding portion 8 of the lever to the length a of its main part 7 is taken to be not less than the value b / a = 0.3. The levers 7 are placed with the same pitch along the wall 3 of the building with the possibility of rotation of the levers 7 in the horizontal plane. The ends 12 and 13 of the steel wire rope 4 are connected to segments of additional wire ropes 14 and 15 of a single lay (to ensure their greater flexibility). The free ends of the additional ropes 14 and 15 through a system of deflecting blocks 16 and 17 are connected one (14) to the actuator 18, and the other (15) to the spiral compression spring 19. The actuator 18 and the spring 19 are mounted on the attic 20 of the building.

The device operates as follows. To remove formed icicles 10 from the roof eaves 1 of the building, they include a drive 18, which, overcoming the force of the spring 19, biases the additional rope 14 and the associated rope 4 in the direction 9. Due to the kinematic connection of the rope 4 with the bent ends 8 of the levers 7, they rotate relative to their hinges 11 in the horizontal plane in the direction 9 of the displacement of the rope 4 by an angle α. When you turn the levers 7 with bent ends 8, the rope 4 is shifted away from the wall 3 of the building and acts on the icicles 10 simultaneously along its entire length and destroys the icicles 10 due to the combination of static and dynamic components of the working force. In this case, the dynamic component of the working force is sufficiently large due to the fact that when the levers 7 are turned, their bent parts 8 act on the rope 4 with a direction of the working force vector close to normal. This is ensured by the appropriate orientation of the bent portion 8 of the lever 7. With the quick actuation of the actuator 18, the additional dynamic effect of the rope 4 on the icicles 10 is further increased, which increases the efficiency of their fracture fracture.

With the displacement of the rope 4 and its simultaneous departure from the wall 3 of the building, the destruction of all icicles 10 located on the eaves 1 of the roof along the entire length of the building is ensured. Due to the significant magnitude of the dynamic component of the working force generated by the rope 4, the drive 18 can be switched on only once. After turning off the drive 18, the system under the action of the working force of the spiral compression spring 19 each time returns to its original position and is ready to carry out the next cycle of cleaning the cornice 1 of the roof of the building from icicles 10. The drive 18 can be made stationary or removable, with its seasonal installation in the attic 20 building.

The proposed technical solution allows us to solve the problem not only when using a simplified and cheaper design of the device, but also with a minimum axial displacement of the rope 4, which simplifies the design of the drive 18 and the spring 19, and also reduces the energy consumption of the cleaning operation of the cornice 1 of the building from icicles 10.

Comparative axial displacements of the rope 4 when using the proposed device and the prototype device can be determined as follows. For the proposed device, the position of the rope 4 relative to the wall of the building 3 after completion of the discharge of icicles 10 from the cornice 1 is determined by the equation (figure 2): h = a + b sin α, where h is the removal of the rope 4 from the wall 3 of the building after turning the lever 7. Similar the equation for the prototype device is: h = c cos β + (1 + k) Δ, where c is the length of the two shoulders lever, β is the angle between the two shoulders lever and the normal to the wall of the building, Δ is the lateral displacement of both ropes from the wall of the building and to the side walls, k - coefficient taking into account the gap between the wall of the building and the inner rope when turning double of which leverage. Moreover, c = h- (k-1) Δ. Solving three equations together, we find: P = arc cos {c [ a + b sin α - (1 + k) A] ^-1 }. At α = 15 deg, b / a = 0.3, h = 0.5 m, k = 1.2, Δ = 0.05 m, the angle β = 41.33 degrees. Thus, the axial displacement of the rope 4 of the proposed device is 2.76 times less than that of the prototype device. With lower values of the parameter α and large values of the parameter b, the difference in the axial displacements of the rope 4 of the proposed device and the prototype device will be even greater, and the technical and economic indicators of the proposed device will be further improved compared to the prototype device.

Distinctive features of the invention allows the cleaning of the eaves of the roof of the building from icicles with a simplified design, minimizing its material consumption, reducing operating costs with reduced energy consumption and time costs with a corresponding increase in the reliability of the device.

Claims (1)

A device for removing icicles from a building roof, comprising a steel wire rope placed under the roof eaves of the building, connected to a drive and a spring mechanism to return the rope to its original position and with levers placed in a horizontal plane at sharp angles to the normals to the wall of the building with the possibility of their articulation turning relative to the wall of the building, characterized in that under the ledge there is one rope connected to the levers, and each lever is made of a single-arm and corner profile in plan with the orientation of their protrusions of the falling part parallel to the rope pivotally fixed at its end to the side opposite to the direction of its movement when removing icicles, the levers are pivotally mounted on the wall of the building with sharp angles α between the levers in their initial position and the normals to the building wall equal to not more than 15 °, and the ratio of the length b of the protruding part of the lever to the length a of its main part is taken to be not less than b / a = 0.3.

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