RU146232U1 - DEVICE FOR PRESSING TALK WASHER - Google Patents

Abstract

A device for inserting claw washers containing support elements interconnected with the possibility of reciprocating movement of one element relative to another, a hollow mechanism for pumping a load, supported by a sleeve associated with one of the supporting elements, and a central rod coaxially mounted through the specified mechanism and supporting elements and fixed on both sides, characterized in that each supporting element is made in the form of telescopic rods of a rectangular profile, installed around a circle relative to the central rod with the possibility of their rotation and subsequent rigid fixation, and the hollow mechanism for pumping the load is made in the form of a hydraulic jack, with each telescopic rod of one supporting element connected to a symmetrical telescopic rod of another element.

Description

The utility model relates to the field of production of building structures, namely to the production of wooden structures, and can be used in the woodworking industry to connect wooden structures using claw washers.

Known clamp clip for connecting a pack of boards using gear brackets (keys), containing support elements interconnected with the possibility of reciprocating movement of one element relative to another, a mechanism for pumping the load, and a Central rod mounted through the supporting elements. Moreover, the mechanism for pumping the load is made in the form of coupling bolts with clamping nuts, equipped with teeth, interconnected by a Gall chain. The known device can be used to press the claw washers (see ed. St. USSR No. 45060, B27M 3/36, B25B 5/00, B27F 7/17).

A disadvantage of the known device is the low reliability of the connection of wooden structures (pack of boards). This is due to the impossibility of pressing wooden structures simultaneously with several pairs of claw washers when transferring forces outside their center due to uneven transfer of pressing forces and their uneven distribution over the surface of rallying wooden structures, which leads to bending of boards and distortions in joints.

The closest analogue to the claimed utility model is a screw clamp for connecting a pack of boards using toothed brackets (keys), containing supporting elements interconnected with the possibility of reciprocating movement of one element relative to another, a hollow mechanism for pumping a load, based on the sleeve, associated with one of the supporting elements, and a Central rod coaxially mounted through the specified mechanism and supporting elements and fixed on both sides. Moreover, one of the supporting elements is made in the form of a skeleton, and the other in the form of a washer-lining, and the hollow mechanism for pumping the load is made in the form of a screw equipped with a nut made integrally with the body. This device can be used to press claw washers (see ed. St. USSR No. 45059, B27M 3/36, B25C 5/00, B27F 7/17).

The disadvantage of this device is the low reliability of the connection of wooden building structures (packs of boards). This is due to the fact that this device does not allow to press-in the wooden structures simultaneously with several pairs of claw washers in view of the uneven transfer of the pressing forces and their uneven distribution over the surface of the wooden structures being joined. In addition, under the compressive forces of the press-in, the wood elastically deforms and during unloading, gaps are formed between the rallying boards, which leads to gaps between the rallying wooden structures. The above is due to the fact that the device does not ensure the preservation of the pressing forces until the completion of the work of rallying wooden structures.

The problem solved by the utility model is to increase the reliability of the connection of wooden building structures.

The technical result provided by the utility model consists in uniform transmission of the pressing forces and their uniform distribution on the surface of the wooden structures to be joined, which allows for the mounting of several pairs of claw washers simultaneously. In addition, the inventive device ensures the preservation of the pressing forces until the completion of the work on rallying structural elements, which eliminates the formation of gaps between the rallying wooden structures.

The problem is solved in that in the known device for pressing claw washers, containing support elements interconnected with the possibility of reciprocating movement of one element relative to another, a hollow mechanism for pumping a load, based on a sleeve associated with one of the supporting elements, and a central rod coaxially mounted through the specified mechanism and support elements and fixed on both sides, according to the change, each support element is made in the form of telescopic rods of a rectangular profile, mounted around a circle relative to the central rod with the possibility of rotation and subsequent rigid fixation, and the hollow mechanism for pumping the load is made in the form of a hydraulic jack, with each telescopic rod of one supporting element connected to a symmetrical telescopic rod of another element.

The essence of the utility model is illustrated by drawings, where:

- in FIG. 1 schematically shows a device for mounting claw washers;

- in FIG. 2 and FIG. 3 schematically shows the inventive device in the process of its assembly at the intermediate and final stages, respectively;

- in FIG. 4 schematically depicts the claimed device in the process of pressing wooden structures by means of claw washers.

The device for mounting the claw washers contains support elements 1 (Fig. 1, 3, 4) and 2 (Fig. 1-4), interconnected with the possibility of reciprocating movement of the support element 1 relative to the support element 2, a mechanism for pumping the load 3 (Fig. 1, 3, 4) and the central rod 4 (Fig. 1, 3, 4), coaxially mounted through the specified mechanism 3 and the supporting elements 1 and 2 and fixed on both sides by means of cap nuts 5 (Fig. 1, 3, 4) and 6 (Fig. 3, 4). The mechanism for pumping the load 3 is made in the form of a hollow hydraulic jack resting on the sleeve 7 (Fig. 1, 3, 4) connected with the support element 1. Each support element 1 and 2 is made in the form of telescopic rods of a rectangular profile, mounted around a circle relative to the Central rod 4 on the bushings 7 and 8 (Fig. 1-4), respectively, with the possibility of rotation and subsequent rigid fixation by means of the clamping elements 9 (Fig. 1-4). Moreover, each telescopic rod of the support element 1 is connected to a symmetrical telescopic rod of the support element 2 by means of cylindrical rods 10 (Fig. 1-4). Cylindrical rods 10 are rigidly fixed to each telescopic rod of the support element 2 and freely placed through pre-drilled holes in each telescopic rod of the support element 1. Coupling elements 9 and cylindrical rods 10 are located at opposite ends of each telescopic rod. Telescopic rods of a rectangular profile are interconnected larger nozzles with smaller nozzles, which allows you to change the total length of the telescopic rods. Such a constructive implementation of the inventive device allows for uniform transmission of pressing forces and their uniform distribution on the surface of the connected wooden building structures, which allows for pressing wooden structures simultaneously with several pairs of claw washers. Also, the inventive device ensures the preservation of the pressing forces until the completion of the fusion of wooden structures, which eliminates the occurrence of gaps between them. The above leads to increased reliability of the connection of wooden building structures. In addition, the rectangular profile of telescopic rods allows you to reduce the weight of the structure with the same bearing capacity of structural elements.

The assembly of the claimed device is as follows. The telescopic rods of the supporting elements 2 (Fig. 1-4) are installed around the circumference of the sleeve 8 (Fig. 1-4), providing the required length and angle of rotation of each rod, and are rigidly fixed by means of the clamping elements 9 (Fig. 1-4) . Then, in the pre-drilled holes of each telescopic rod of the support element 2, cylindrical rods 10 are installed (Figs. 1-4) and they are rigidly fixed. Moreover, the coupling elements 9 and the cylindrical rods 10 are located at opposite ends of each telescopic rod. Next, the assembled part of the inventive device is installed by means of cylindrical rods 10 into pre-prepared holes in the rallying wooden structures 11 (Fig. 2, 3, 4), between which the claw washers 12 (Fig. 2, 3) are located. Similar to the above, connect the telescopic rods of the support element 1 (Fig. 1, 3, 4) with the sleeve 7 (Fig. 1, 3, 4). Then, each telescopic rod of the support element 2 is connected by means of cylindrical rods 10 with a symmetrical telescopic rod of the support element 1. Then, through the indicated support elements 1 and 2, a central rod 4 is mounted coaxially with it (Fig. 1, 3, 4) and fixed from the side of the sleeve 8 nut-cap 6 (Fig. 3, 4). Then, at a stop to the sleeve 7, a mechanism is installed for pumping the load 3, made in the form of a hollow hydraulic jack, which is placed coaxially with the central rod 4, installed through the cavity of the hydraulic jack 3 and fixed on its side by means of the nut-cover 5 (Fig. 1, 3, four).

A device for mounting claw washers works as follows.

In the mechanism for pumping the load 3 (Fig. 1, 3, 4), made in the form of a hollow hydraulic jack, a pressure is applied that drives the stem of the jack 3. When the rod of the hydraulic jack 3 is pulled out, it abuts on one side the nut-cover 5 ( Fig. 1, 3, 4), and on the other into the sleeve 7 (Fig. 1, 3, 4) with telescopic rods mounted on it around the circumference of the support element 1 (Fig. 1, 3, 4). Under the action of the efforts, the support element 1 is translationally moving towards the support element 2 (Fig. 1-4), pressing several pairs of claw washers 12 simultaneously (Fig. 2, 3) due to the uniform transmission of the pressing forces and their uniform distribution on the surface of the wooden elements to be rallied structures 11 (Fig. 2-4) through telescopic rods of a rectangular profile of the supporting elements 1 and 2. Moreover, the centering of the supporting element 2 is provided by moving along the central rod 4 (Fig. 1, 3, 4) and a cylindrical their rods 10 (Fig. 1-4). After the claw washers 12 are pressed in, the clamping elements 9 are loosened (Fig. 1-4) and one cylindrical rod 10 is removed. The symmetrical telescopic rods of the supporting elements 1 and 2 connected by the indicated rod 10 are rotated in such a way as to replace the disassembled rod 10 with a working bolt ( in Fig. not shown). Similarly to the above, all working bolts are installed in place of the dismantled cylindrical rods 10, which ensures the preservation of the pressing forces until the completion of the work on uniting the structural elements.

Thus, the claimed utility model allows to increase the reliability of the joining of wooden building structures by ensuring uniform transmission of the pressing forces and their uniform distribution on the surface of the joined wooden structures, which makes it possible to mount wooden structures simultaneously with several pairs of claw washers. Moreover, the claimed device ensures the preservation of the pressing forces until the completion of the work on rallying the elements of wooden structures. In addition, the claimed device has less weight with the same bearing capacity of structural elements.

Claims (1)

A device for inserting claw washers containing support elements interconnected with the possibility of reciprocating movement of one element relative to another, a hollow mechanism for pumping a load, supported by a sleeve associated with one of the supporting elements, and a central rod coaxially mounted through the specified mechanism and supporting elements and fixed on both sides, characterized in that each supporting element is made in the form of telescopic rods of a rectangular profile, installed around a circle relative to the central rod with the possibility of their rotation and subsequent rigid fixation, and the hollow mechanism for pumping the load is made in the form of a hydraulic jack, with each telescopic rod of one supporting element connected to a symmetrical telescopic rod of another element.

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