RU2032800C1 - Wall - Google Patents

Abstract

FIELD: construction. SUBSTANCE: wall has wall panel, at least two vertical supporting members, in respect to which wall is mounted moveably; reaction member and at least one load-bearing supporting member, located between upper plane of wall panel and lower plane of reaction member. Reaction member is mounted with capability to create or to receive outside loading. Supporting member is mounted with capability to create constant effort to support outside loading or its reception and it is located on constant height in respect to upper edge of panel. There are versions of the wall and its members production. EFFECT: wall is used in construction. 13 cl, 4 dwg

Description

 Known wall made of logs. The logs from which the wall is made are usually not stable in shape; they shrink even if they were dried before use. Shrinkage or subsidence of logs is usually accompanied by a double effect. Firstly, gaps are formed between the logs in the wall, which must be constantly closed to avoid water leakage through the wall, and secondly, as a result of shrinkage, the height of the wall decreases, which, in turn, leads to a change in the position of the elements resting on this wall . This is accompanied by a loss of stability of the entire structure, as well as the fact that it is impossible to completely close the doors and windows.

 The closest technical solution to the invention is a wall comprising a wall panel, at least two vertical support elements, relative to which the wall panel is mounted movably, a reaction element and at least one power support device located between the upper face of the wall panel and the lower face of the reaction element .

 Figure 1 presents the proposed wall in a perspective view; figure 2 is the same section; figure 3 schematically shows one embodiment of a support device; figure 4 schematically shows a second variant of the supporting device.

 Wall 1 consists of a base 2, several logs 3, a pair of racks 4 and 5, at least one power support device 6 mounted on the upper edge of each wall 1, a reaction element in the form of a beam 7, laid on the support device 6.

 In the wooden base 2 there is a central protrusion 8, which is included in the corresponding recess 9 in the lower log of the wall. The base is mounted on a foundation, which can be standard concrete or wood.

 You can use racks of various types. The type of rack depends on the position occupied by the structure. Racks 5 are installed in the corners, they have a sickle-shaped cross-section with a rounded outer surface. Racks 4 occupy intermediate positions between the corners, they have an H-shaped cross section with a flat inner and rounded outer surface.

 Opposite grooves are made in the uprights 4 and 5 10. The dimensions of the grooves 10 correspond to the spikes 11 made at the ends of each log 3. The logs 3, which have a smooth inner surface 12 and a rounded outer surface 13, also have spikes 14 and recesses 15, respectively made in upper and lower surfaces of the log. Logs 3 correspond to each other, and they are not fastened together, so each log 3 can move separately relative to the racks 4 and 5.

 A sealant (not shown) is laid out in each recess, creating a seal of each joint between the logs 3. The sealant can be made, for example, of foam rubber.

 One or more window frames (not shown) can be located in certain places in the wall 1. Door frames (not shown) can be placed between racks 4 or racks 5 and 4. The door and window frames must have edges that can fit into the grooves of 10 racks 4 and 5 with the possibility of vertical movement inside the grooves 10.

 In the process of erecting a structure including a wall 1, an annular beam made of several elements 7 is fixed to the upper ends of the uprights 4 and 5 using nailed plates (not shown), etc. obtaining a relatively solid frame throughout the structure. An appropriate number of self-compensating support devices is used to secure the closed beam. Support devices are installed under this beam on the upper log of each wall. When the load is applied to the supporting devices, then all the resulting load is transferred to the log in the panel.

 Figures 3 and 4 show a pair of such self-compensating support devices 6 located at equal intervals on the upper edge of each wall 1, and a beam 7 is supported on them with a load laid on it, creating a constant force regardless of the movement of the logs 3 due to shrinkage or rainfall.

 Self-supporting support devices 6 automatically maintain the height of the beam 7 at the same level, thereby preventing deformation that may occur in a wall or building as a result of a change in height.

 To a closed beam 7, as shown in FIG. 2, a truss for a roof 16 is attached, or a second floor structure can be mounted on it.

 The supporting devices 6 shown in FIG. 3 are hydraulic jacks installed between the upper edge of the wall 1 and the corresponding element of the beam 7. Each hydraulic jack 6 is connected to the hydraulic pump 17 by a pipe 18 that extends along the upper edge of the wall 1.

 The advantage of such jacks is that they can exert a substantially constant force on the beam 7, creating a constant load independent of the relative movement of the upper edge of the wall relative to the beam 7.

 The support device shown in FIG. 4 is a self-compensating support equipped with a spring. The supporting device has a pair of end plates 19 and a spring 20 located between them. The end plates 19 abut against the beam 7 and the upper edge of the wall, so the spring 20 is in a compressed state. The spring 20 automatically lengthens when the height of the upper edge of the wall 1 decreases from the upsetting or shrinkage of the logs 3, while maintaining a constant force acting on the beam 7.

 The force generated by the spring 20 varies depending on the degree of compression thereof. However, the relatively large length of the spring provides an almost constant force even with significant movement of the logs in the wall.

 An empty space 21 (see figure 2), in which the supporting devices (roof truss) 16 are located, is located between the upper edge of each wall 1 and the corresponding element of the beam 7. This cavity 21 is closed by a covering board 22, which is attached to the posts with screws, nails, etc. Outside, the cavity 21 is closed by a board 23 attached to the posts 4 and 5. The boards 22, 23 cover the cavity 21, but they do not affect the vertical movement of the wall 1 relative to the posts 4 and 5.

 The wooden elements of the wall 1 are treated with a protective substance under pressure, ensuring the penetration of the substance into each element. This leads to a decrease in wood shrinkage and its exposure to variable climatic conditions. The walls can withstand any load, for example a roof truss or upper floor, the floor of which rests on the lower floor, and the force remains practically unchanged regardless of the vertical movement of the logs in the wall due to the settling or shrinkage of the logs. Due to this, it is possible to reduce the structural instability of the structure.

Claims (13)

1. WALL, comprising a wall panel, at least two vertical support elements, relative to which the wall panel is mounted movably, a reaction element and at least one power support device located between the upper face of the wall panel and the lower face of the reaction element, characterized in that the reaction element is installed with the possibility of creating or perceiving an external load, and the supporting device
with the possibility of creating a constant effort to maintain external load or its perception with its placement at a constant height relative to the upper edge of the panel.  2. The wall according to claim 1, characterized in that the supporting device is made in the form of a hydraulic jack.  3. The wall according to claims 1 and 2, characterized in that it is equipped with additional supporting devices.  4. The wall according to claims 1 to 3, characterized in that the supporting devices are located at equal distances from each other.  5. The wall according to paragraphs. 1 to 4, characterized in that each vertical pillar is made with at least one groove in which is installed with the ability to move the edges of the wall panel.  6. The wall according to claim 5, characterized in that the wall panel is made with spikes formed on its opposite vertical edges, each of which is mounted with the possibility of movement in a groove made in the corresponding vertical support column.  7. The wall according to paragraphs. 1 to 6, characterized in that the wall panel is made up of composite elements stacked on top of each other with a length equal to the length of the wall panel.  8. The wall according to claim 7, characterized in that the elements are mounted with the possibility of movement in a vertical plane relative to each other and vertical supporting elements.  9. The wall according to claims 7 and 8, characterized in that each of the elements is made with a spike and a recess on the upper and lower surfaces.  10. The wall according to paragraphs. 1 to 9, characterized in that it is provided with a base in the form of a beam.  11. The wall according to claims 1 to 10, characterized in that the wall element is made of wood.  12. The wall according to claims 1 to 11, characterized in that at least the vertical supporting posts are made of wood.  13. The wall according to claims 1 to 12, characterized in that the distribution element is made in the form of a coating or overlap of an overlying floor.

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