RU105646U1 - WALL LOG ELEMENT - Google Patents

Abstract

 1. A wall log element having a wall log element having a profiled longitudinal connection on both diametrically opposite sides of the log under adjacent crowns forming the log walls, the supporting surfaces of the profiled connection on one side of the log responding to the supporting surfaces of the connection on the other side of the log, characterized in that the profiled connection on one side of the log has a longitudinally oriented arcuate located at the end sections of the log element groove, between the end sections of the log on its diametrically opposite sides there are longitudinally oriented trapezoidal grooves and protrusions, while the upper surfaces of the protrusions are formed by the outer surface of the log element, and the depth of the grooves corresponds to the height of the segment of the arcuate groove of the end sections of the log element! 2. The wall log element according to claim 1, characterized in that at least one end portion of the log element has an angular connection located between the longitudinally oriented arcuate groove and the surface of the log element adjacent to it, profiled by the grooves and protrusions, the angular connection is made in the form of an arc-shaped bowl transversely oriented towards the longitudinal axis of the log, while the bottom of the arc-shaped bowl has grooves and protrusions corresponding to the grooves and protrusions of the profiled sides of the log lement. ! 3. Wall log element according to claim 1, characterized in that the bottom of the grooves has heat-insulating elements in the form of bundles.

Description

The utility model relates to wooden housing construction, namely, to a wall log element used in the construction of a wooden log house.

Buildings whose walls are made by laying logs are widespread in the form of log houses and log houses. The trend of "approaching nature", increasing in recent years, has led to an increase in demand for log cabins. Despite their appearance, which is determined by the natural structure of the surface of the tree, these types of log houses have the advantage that humidity can be maintained in the interior because the logs used to make the walls have the ability to “breathe”. Original log cabins are very difficult for individual construction: it is difficult to obtain logs of the same shape, therefore their machining is required.

When constructing a wooden log house from logs, logs are traditionally used with a mechanically executed semicircular longitudinal groove on one side of the log, through which the log is connected to the adjacent crown of the log house. With an orderly arrangement of logs, various heat-insulating materials are laid in a longitudinal groove. To form the corner joints of the walls in the log, it is envisaged to make through nests transversely oriented to the longitudinal groove (see, for example, RF patent 2236519).

However, with such a design of the logs in the area of the longitudinal connection of adjacent crowns during the construction of the log house, cracks are formed, air penetrates into the log house, moisture flows inside the joint. The formation of a semicircular groove along the log is accompanied by a significant consumption of wood, which is ineffective in the industrial production of final logs intended for the construction of log cabins. With this type of longitudinal connection of logs, the tightness and stability of the connection of adjacent crowns with natural drying of the logs deteriorate, which affects the thermal insulation properties of the walls.

As the closest analogue of this utility model, the technical solution according to patent No. 72994, publ. 05/10/2008

This technical solution proposes a wall log element having a profiled longitudinal connection on both diametrically opposite sides of the log under adjacent crowns forming the log walls, while the supporting surfaces of the profiled connection on one side of the log correspond to the supporting surfaces of the joint on the other side of the log.

In this technical solution, the profiled connection of the log element is made on the one hand in the form of a longitudinally oriented groove, and on the other hand, in the form of a longitudinally oriented protrusion. The longitudinally oriented protrusion is symmetrical with respect to the diametrical plane of the log, in the upper part the protrusion is formed by two flat surfaces located at an obtuse angle to each other, and in the lower part of the protrusion has inclined surfaces on each side on the outer surface of the log. A longitudinally oriented groove is made along the entire length of the log, while the outer surfaces of the log adjacent to the groove are made inclined under the mating inclined surfaces of the protrusion on the opposite side of the log. During the construction of the log house, a longitudinal connection of the log elements is provided along the mating surfaces of the protrusion and groove and the inclined surfaces adjacent to them.

However, with this structural design of the wall log element, the opposite surfaces of the log are mechanically calibrated to form a protrusion, grooves and inclined surfaces, which is accompanied by loss of wood and deterioration of its quality. Deterioration in the quality of the wood of the log element is associated with the machining of the outer surface of the log. As a result, the tightness and stability of the connection of adjacent crowns with natural shrinkage of the logs deteriorate, which affects the thermal insulation properties of the walls. Under adverse external conditions, moisture cannot be excluded into the space between the adjacent crowns of the log house.

The objective of the utility model was to create a wall element of a wooden log house, providing a technical result for improving the sealing and stability of the connection of logs of neighboring crowns and preserving the qualitative characteristics of the wood of the log element during the formation of a profiled longitudinal joint in it.

To solve the technical problem, a wall log element has been proposed that has a profiled longitudinal connection on both diametrically opposite sides of the log under adjacent crowns forming the log walls, while the supporting surfaces of the profiled connection on one side of the log correspond to the supporting surfaces of the joint on the other side of the log, according to a utility model , the profiled connection on one side of the log has a longitudinally-oriented orientation at the end sections of the log element anny arcuate recess between the end portions of the log on diametrically opposite sides thereof are arranged longitudinally oriented trapezoidal grooves and ridges, the upper surfaces of the projections are formed by the outer surface of the log element, and the depth of the grooves corresponds to the height of the arcuate groove segment end portions of the log element.

According to a utility model, at least one end portion of the log element has an angular connection located between the longitudinally oriented arcuate groove and the surface of the log element adjacent to it, profiled by grooves and protrusions, the angular connection is made in the form of an arcuate bowl transverse to the longitudinal axis of the log while the bottom of the arcuate bowl has grooves and protrusions corresponding to the grooves and protrusions of the profiled sides of the log element.

According to a utility model, the bottom of the grooves has heat insulating elements in the form of bundles.

In the analysis of the prior art, no technical solutions have been identified that have a combination of design features similar to the claimed technical solution, which indicates that its criterion of the novelty utility model is consistent.

The claimed technical solution is industrially feasible and meets the criterion of the utility model "industrial applicability".

The utility model is illustrated by drawings, where:

Fig. 1 shows a general view of a wall log element;

Fig. 2 - the same as in Fig. 1, sections AA, BB, BB;

Fig. 3 - wall log element with an angular connection;

Fig. 4 - the same as in section 3 section GG;

Fig. 5 is a general view of a section of a wall formed by connecting adjacent rims of log elements.

On a photo 1 and 2 respectively a wall log element and a fragment of walls are shown at an angular connection of adjacent crowns of log elements.

The wall log element has a profiled longitudinal connection on both diametrically opposite sides of the log under the adjacent crowns that form the walls of the log house. The supporting surfaces of the profiled joint on one side of the log are responsive to the supporting surfaces of the joint on the other side of the log. The profiled connection on one side of the log has a longitudinally oriented arcuate groove 1 located at the end sections of the log element 1. Between the end sections 2 and 3 of the logs, longitudinally oriented trapezoidal protrusions 4 and grooves 5 are located on the diametrically opposite sides thereof. The upper surfaces of the protrusions 5 are formed by the outer surface log element. The depth of the grooves corresponds to the height "h" of the segment of the arcuate groove of the end sections of the log element.

The log element in the bottom of the grooves 5 on one of the profiled sides has longitudinal slots 6 that are oriented towards the central part of the log element. The longitudinal slots 6 in the bottom of each groove are arranged sequentially with a step offset between each other (not shown in Fig.).

The presence of longitudinal slots 6 in the bottom of the grooves reduces the mechanical stress of the wood during its drying, which reduces the formation of longitudinal cracks in the log.

At least one end portion of the log element has an angular connection. The angular connection is located between the longitudinally oriented arcuate groove 1 and the side of the log element profiled by the grooves and protrusions adjacent to it and made in the form of an arcuate bowl 7. The diameter of the arcuate bowl 7 is no more than ^1/2 _{of the} diameter of the log, given the parameters of the arcuate bowl provides sealing and stability of the angular connection of the logs of adjacent crowns. The bottom of the arcuate bowl has grooves and protrusions corresponding to the grooves and protrusions of the profiled sides of the log element

A profiled longitudinal joint is formed by mechanical milling of the arcuate grooves 1 at the end sections 2 and 3 of the log and milling between them the trapezoidal grooves 5 and the protrusions 4. During the machining of the log, the main part of its outer surface interacting with adjacent crowns (log elements) when forming the wall log house, not calibrated, which reduces the loss of wood and preserves its structure in the industrial production of log elements. The arcuate bowl 7 of the corner connection is cut out on a special machine, while in the bottom of the bowl are milled alternating grooves and protrusions corresponding to the grooves and protrusions of the profiled longitudinal connection.

Before assembling the walls of the log house, insulating plaits 8 are laid in the grooves 2.

The presence of bundles 8 increases the thermal insulation of the walls of the log house.

The log element on the side of the inner surface of the formed wall of the log house has a rectangular longitudinal recess 9, which is oriented in the direction perpendicular to the profiled longitudinal connection of this element. The presence of the recess 9 provides the formation of the inner surface of the wall in the form of a visually vertical plane, which improves its appearance.

When assembling the walls of the log house, the upper log element is laid on the lower log element to form the corners of the log wall. When laying the lower part of the upper log, the profile surface interacts with the profile surface of the upper part of the lower log along grooves 5 and protrusions 4 and along the arcuate groove 1 of the end sections with a non-calibrated surface of similar end sections of the next crown ..

When forming the angular connection of the walls, the adjacent log elements interact with each other when laying the non-profiled end portion of the upper log element in the arcuate bowl of the lower crown (log element). The process of assembling the walls of the log house is traditional.

Claims (3)

1. A wall log element having a wall log element having a profiled longitudinal connection on both diametrically opposite sides of the log under adjacent crowns forming the log walls, the supporting surfaces of the profiled connection on one side of the log responding to the supporting surfaces of the connection on the other side of the log, characterized in that the profiled connection on one side of the log has a longitudinally oriented arcuate located at the end sections of the log element groove, between the end sections of the log on its diametrically opposite sides there are longitudinally oriented trapezoidal grooves and protrusions, while the upper surfaces of the protrusions are formed by the outer surface of the log element, and the depth of the grooves corresponds to the height of the segment of the arcuate groove of the end sections of the log element 2. The wall log element according to claim 1, characterized in that at least one end portion of the log element has an angular connection located between the longitudinally oriented arcuate groove and the surface of the log element adjacent to it, profiled by the grooves and protrusions, the angular connection is made in the form of an arc-shaped bowl transversely oriented towards the longitudinal axis of the log, while the bottom of the arc-shaped bowl has grooves and protrusions corresponding to the grooves and protrusions of the profiled sides of the log lement. 3. Wall log element according to claim 1, characterized in that the bottom of the grooves has heat-insulating elements in the form of bundles.