RU187077U1 - Sprinkler - Google Patents

Abstract

The utility model relates to test equipment by sprinkling, in particular, to check the tightness of two-link tracked vehicles after their final assembly. The technical result of the utility model is to expand the functionality associated with the regulation of the pressure and angles of expansion of water droplets to simulate rain. the fact that in a sprinkler installation containing racks and a device for controlled water supply to simulate rain, according to a utility model, one hundred The yokes are made in the form of arches from a tubular profile, the arches are installed in increments for uniformly sprinkling the test item and interconnected by pipelines for supplying water from the adjustable water supply device, fittings are mounted on the tubular profiles of the arches, on which removable irrigation elements are fixed. As irrigation elements, deluge irrigators were used.

Description

The claimed technical solution relates to test equipment by sprinkling, in particular, to check for leaks of two-link tracked vehicles after their final assembly.

Known sprinkler for testing products for atmospheric precipitation, containing a distribution manifold with pressure gauges and shut-off valves, to which are connected four flexible hoses with water sprinklers on nozzles attached to telescopic racks-holders (patent RU 145862, published September 27, 2014).

A disadvantage of the known sprinkler is the impossibility of uniform sprinkling for products whose longitudinal dimensions are several times greater than the transverse dimensions.

Closest to the claimed technical solution is the sprinkler installation, which is part of the test bench for research and development work to assess the impact of the external effects of rain on the car's vibroacoustics (patent RU 2557630, published July 27, 2015). The known sprinkler installation (installation to simulate rain) contains four height-adjustable telescopic racks on which an open housing with a bottom perforated through holes is installed, and a device for controlled water supply to the open housing.

A disadvantage of the known technical solution is the inability to control over a wide range of pressure and scattering angles of water droplets that simulate rain. There is also the difficulty of using the known solution for testing the tightness of long products.

The technical result of the claimed technical solution is to expand the functionality associated with the regulation of the pressure and angles of expansion of water drops to simulate rain.

The specified result is achieved by the fact that in a sprinkler installation containing racks and an adjustable water supply device to simulate rain, according to a utility model, the racks are made in the form of arches from a tubular profile, arches are installed in increments to evenly irrigate the test product and are interconnected by pipelines for supplying water from a controlled water supply device; fittings are mounted on tubular profiles of arches on which removable irrigation elements are fixed.

In addition, deluge sprinklers were used as irrigation elements.

The utility model is illustrated by drawings.

In FIG. 1 shows a general view of the sprinkler; in FIG. 2 is a view A in FIG. one.

The sprinkler installation contains racks 1 in the form of arches mounted on supports 2. Racks 1 are made of a cylindrical pipe and installed in increments of a relative to the longitudinal size of the test product. Racks 1 are interconnected by a pipe 3, which provides water supply to the pipes from which the racks are made 1. The pipe 3 is connected to a controlled water supply device (not shown conditionally). To ensure the stability of the design of the sprinkler installation, the racks 1 are interconnected by means of stiffening beams 4. In the racks 1 in the upper and lateral parts are mounted fittings 5 on which removable irrigation elements 6 are installed, for which, for example, deluge sprinklers used in fire extinguishing systems. The dimensions of the arches from the uprights 1, the size of the step of their installation, as well as the attachment points of the fittings 5 are selected constructively, based on the dimensions of the tested product. To prevent water splashing outside the sprinkler, it can be equipped with a waterproof tent (not shown conditionally).

Sprinkler installation works as follows.

A product is installed in the arch space, which is tested for leaks by sprinkling with water. From the controlled water supply device (not shown), water is supplied under pressure 3 to the pipe 3, which enters the cavity of the pipes from which the racks 1 are made, on which the fittings 5 with irrigation elements 6 are fixed. When water expires from the irrigation elements 6, it is crushed into drops , thus forming droplet expansion cones, due to which a simulated rain effect is provided on a large surface of the test product. Such a simulated effect on the test product is carried out within 30-120 minutes, depending on the type of product tested for leaks. The water pressure and, therefore, the angle of expansion of its droplets in the proposed irrigation system are regulated by a controlled water supply device.

Claims (2)

1. A sprinkler installation comprising racks and an adjustable water supply device to simulate rain, characterized in that the racks are made in the form of arches from a tubular profile, the arches are installed in increments to evenly irrigate the test item and are interconnected by pipelines for supplying water from the adjustable supply device water, tubular profiles of arches are equipped with fittings on which removable irrigation elements are fixed. 2. Sprinkler plant according to claim 1, characterized in that deluge irrigators are used as irrigation elements.

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