RU89136U1 - WOODEN SEMI-ROUND ARCH - Google Patents

Abstract

1. The wooden arch is semicircular, containing N rows of plane elements sequentially connected to each other, where N is at least 2, and the outer side of the elements is arched with a radius equal to the radius of the arch, and the end surfaces of the elements are beveled radially at an angle to each other not more than 90 °, while the elements are joined in rows in the end surfaces, and the rows of elements are fixedly fixed to each other, characterized in that the elements of each row are shifted in an arc relative to the elements of the adjacent row so that the joints of the elements The entrances in all rows do not coincide, while the extreme elements of all or (N-1) rows are cut to length to form an N-row semicircle, and the elements are made of boards or bars. ! 2. The arch according to claim 1, characterized in that the whole elements are equal in length. ! 3. The arch according to claim 2, characterized in that the elements of each row are shifted along the arc relative to the elements of the adjacent row by 1 / N of the length of the arc of the element. ! 4. The arch according to claim 1, or 2, or 3, characterized in that the arch elements are made of larch.

Description

The utility model relates to building structures, and can be used in structures of agricultural, socio-cultural, industrial purpose, namely, in greenhouses, hangars, warehouses, garages, pavilions and other structures of the pavilion type. The arch can be used to make roofs of houses, which eliminates the need for a rafter system, ensuring the full use of the attic.

Arched structures are widely used in connection with the use of flexible covering materials.

Known designs of arches of greenhouses made of metal (RF Patent No. 4434 of 03/05/1996, IPC A01G 9/16; patent EP 1981330 (A1), publication date 10/22/2008, IPC Е04В 1/32).

In these structures, the arch has an arcuate shape and consists of two or more modular arcuate elements connected to each other, forming a semicircle in the assembled state. Such arches, interconnected by girders, are convenient for covering with flexible materials, however, they have significant disadvantages:

1. For the manufacture of metal arcuate modular elements of the arch requires special equipment (molds).

2. To ensure the required strength, especially in large arch structures, it is necessary to increase the thickness of the arch profile, which increases the metal consumption, weight and cost of the arch.

Known designs of arches of greenhouses made of plastic tubes (RF Patent No. 17392 from 05.17.2000, IPC A01G 9/16).

Such designs also require special equipment for their manufacture, in addition, they do not have sufficient strength and cannot be used in large arch structures.

The known design of a wooden arch - circular arch, consisting of plank-nail elements - boards measuring 50 × 180 × 1800 mm, installed in two rows in thickness and connected by nails. The boards of one row are offset relative to the boards of the other row along the axis of the arch by half the length of the board. (Carlsen GG et al. Industrial wooden structures. Design examples. M: Publishing house of building literature, 1967, p. 105).

For the manufacture of this arch does not require sophisticated special equipment. The disadvantage of such an arch is its broken shape, which causes the outer broken joints of the covering material. Such an arch is unacceptable for frame structures intended for flexible covering materials, because as a result of point contacts with the arch, the material does not fit snugly, sags and wears out quickly.

The design of a wooden arch for greenhouses is known (RF Patent No. 2194383 of 04/10/2001, IPC A01G 9/14). The arch is made of two rigidly bonded arcuate bars.

The disadvantage of this design is the complexity of manufacturing large arched wooden elements, which limits the size of structures with similar arches.

The closest in technical essence to the claimed utility model - the prototype - is a wooden semicircular arch of a prefabricated arch structure (RF Patent No. 24215 of 02/18/2002, IPC E01B 1/32). The arch consists of several rows of arched arched elements made of wooden beams having the shape of arched segments, sequentially joined together.

The end surfaces of the bars are located at an angle of 10-90 ° to each other (i.e., they are beveled along the radius of the arch) and end spikes and grooves are made on them for joining the bars. The bars are additionally glued. Spikes and grooves are made on the lateral surfaces of the segments along circular paths for joining arched arched elements - creating a prefabricated arch structure.

The inventive utility model has the following features common with the prototype: a wooden arch is semicircular, contains N rows (N - at least 2) of flat elements sequentially connected to each other, the outer side of the elements is arched with a radius equal to the radius of the arch, the end surfaces of the elements are symmetrically beveled along radii at an angle to each other of not more than 90 °, the elements are joined in rows in the end surfaces, the rows of elements are fixedly fixed to each other.

The specified arch has the following disadvantages.

1. The complexity of manufacturing the arch, because high precision manufacturing of thorn-groove elements and joining of arched elements is required, as well as cutting of rectangular blanks along an arcuate path from two sides.

2. A significant amount of wood waste due to trimming of blanks along an arcuate path from two sides and due to cutting grooves.

The objective of the utility model is to simplify the manufacturing process of the arch and reduce wood waste during its manufacture.

The problem is solved in that, in a wooden semicircular arch containing N rows of plane elements sequentially connected to each other, N is at least 2, moreover, the outer side of the elements is arched with a radius equal to the radius of the arch, and the end surfaces of the elements are symmetrically beveled along radii at an angle to each other of not more than 90 °, the elements are joined in rows with each other by the end surfaces, and the rows of elements are fixedly fixed to each other, the following is true: the elements of each row are shifted along an arc (along curved side) relative to the elements of the adjacent row so that the joints of the elements in all rows do not coincide, the extreme elements of all or (N-1) rows are cut lengthwise to form an N - row semicircle, the elements are made of boards or bars.

In general, an arch can be made of elements of different lengths. The simplest and most convenient to manufacture is an arch in which all whole elements (except for the extreme trimmed elements of all or (N-1) rows) have the same length. Moreover, the arch is more durable, in which the elements of each row are shifted along the arc relative to the elements of the neighboring row by 1 / N of the length of the arc of the modular element.

In general, an arch can be made from any species of wood, for example, from pine, birch, but the most durable arch is made of larch.

An example of a specific implementation of the arch is shown in figures 1-4.

Figure 1 shows the arch (front view) made of 2 rows of elements.

Figure 2 shows the 1st row of arch elements.

Figure 3 shows the 2nd row of arch elements.

4 shows an arch element.

The arch (figure 1) contains two rows of flat elements 1, 2. The first row (figure 2) contains the same identical elements 1, and in the second row (figure 3) the extreme elements 2 make up half the modular element 1 (cut to half length item 1).

Elements 1, 2 are made of flat blanks - boards. The long (outer side in the arch) side of the 3 elements 1, 2 is made arcuate with a radius r equal to the radius of the arch, and the short side 4 (the inner side in the arch) is straight.

The end surfaces of 5 elements 1, 2 are beveled along the radii of the arch of Ugly and between the end surfaces 5 are determined by the number of elements 1, 2 in a row and can be no more than 90 °.

Elements 1, 2 are joined in rows with each other with beveled end surfaces 5 so that they form a semicircle. The rows of elements 1, 2 are fixedly fixed to each other so that the elements 1 of the first row are shifted relative to the elements 1, 2 of the second row by half the length of the arcuate side 3 (arc length) of the module element 1, therefore, the joints of the elements 1, 2 in the rows do not coincide . The fastening of adjacent elements 1 and 2 of adjacent rows is ensured by metal fasteners (screws, bolts) and, if necessary, additional gluing.

For the manufacture of arcuate elements 1, 2, the board is filed around the circumference of the required radius, and the side ends are cut - mowed to the appropriate angles. The best strength characteristics are ensured if half the width of the board is cut off when sawing around a circle from the edges of the board. Compared with the prototype, the workpiece is arc-shaped not from two sides, but only from one side, which simplifies the manufacturing process and reduces the amount of wood waste. For arched structures of large size, the number of rows of elements is increased, as well as their sizes (thickness, length and width of the workpieces), bolted joints are additionally used.

For ease of manufacture of the arch, the first row of elements 1 is laid out first, then the second row of whole elements 1 is laid out with an offset of half the arc length of the modular element 1, and then the extreme elements 1 are sawn off along the edge of the first row. In the manufacture of a multilayer arch, N rows are similarly laid out with a shift of elements 1, 2 in each subsequent row by 1 / N of the arc length of the modular element 1 so that the joints of the elements 1, 2 in all rows do not coincide. Almost the number of rows of the arch can be from 2 to 5.

For the manufacture of the arch does not require special equipment, it can be made in domestic conditions. The design of the arch is self-supporting. With a variable cross-sectional shape, the arch has a constant cross-sectional area. The semicircular shape of the arch ensures even load distribution. The supporting parts perceive the load vertically. This arch has high strength and reliability, can withstand heavy snow loads.

To form a frame structure, for example, a pavilion or a greenhouse, arches are installed on the base-base and are interconnected by girders. Using the arch in accordance with the utility model, a greenhouse and a trade pavilion with a diameter of 7.54 m were made. The structures are resistant to external influences of strong wind, snow, rain.

Thus, compared with the prototype, the arch according to the claimed utility model is easier to manufacture, with less waste wood.

Claims (4)

1. The wooden arch is semicircular, containing N rows of plane elements sequentially connected to each other, where N is at least 2, and the outer side of the elements is arched with a radius equal to the radius of the arch, and the end surfaces of the elements are beveled radially at an angle to each other not more than 90 °, while the elements are joined in rows in the end surfaces, and the rows of elements are fixedly fixed to each other, characterized in that the elements of each row are shifted in an arc relative to the elements of the adjacent row so that the joints of the elements The entrances in all rows do not coincide, while the extreme elements of all or (N-1) rows are cut to length to form an N-row semicircle, and the elements are made of boards or bars. 2. The arch according to claim 1, characterized in that the whole elements are equal in length. 3. The arch according to claim 2, characterized in that the elements of each row are shifted along the arc relative to the elements of the adjacent row by 1 / N of the length of the arc of the element. 4. The arch according to claim 1, or 2, or 3, characterized in that the arch elements are made of larch.