SU588778A1 - Gas-jet machine - Google Patents

Description

(54) GAS JET MACHINE

The invention relates to the field of maintenance and operation of hydraulic structures of land reclamation systems and is intended for use in cleaning from sediments and debris of open channels lined with impervious coatings. A gas jet machine is known, including a gas flow generator mounted on the base chassis frame with a nozzle guide connected to the boom and pivotally connected to the screen and shield 1. However, this machine cannot be used to effectively remove sediment from the bed of drainage channels representing is a profile recess located on the surface of the earth. With regard to the conditions of cleaning the channels, the machine is not known to provide excavation of sediments from the bottom to the channel edge, especially since such channels are significantly different in depth of excavation, bottom width and thickness of sediment deposited layer. The purpose of the invention is to ensure cleaning of various depth and width of channels sediments, as well as cleaning channels with different layers of drifts. For THIS, the nozzles have a telescopically articulated section with a shield shaped like a canal profile that is hingedly connected to a screen connected to the boom, which in turn is hinged to the frame. In this case, the shield is mounted on the support rollers and attached to the screen with the possibility of vertical movement relative to it, and the nozzle guide is connected to the boom via a power cylinder. The screen and the shield are made telescopic, and the said section consists of several articulated parts, the screen being connected to the boom with the aid of a pantograph and having supporting skis. FIG. 1 shows a gas jet machine, side view; in fig. 2 - the same plan view; FIG. 3 is a section A-A of FIG. 2; in fig. 4 - section bb of FIG. 2; in fig. 5 shows a section bb of FIG. one; in fig. b - wiep I for fig. 3: in FIG. 7 a cross-section of FIG. b. The proposed machine contains a base chassis I mounted on the frame 2 of the base chassis I a gas flow generator 3 with a guide nozzle 4 pivotally connected to the screen 5 and a shield 6. The guide nozzle 4 is made telescopic and joins with it a section 7 that measures the shape of the profile a channel that is connected to the screen 5. The screen is directly connected to the shield 6, which is mounted on the support rollers 8 and has the ability to vertically move relative to the screen 5.

The screen 5 is mounted on the base assi 1 by means of the arrow 9, hinged on the frame, to which the guide nozzle 4 is movably attached. The boom 9, the screen 5 and the shield b are made telescopic, and the screen 5 is connected to the boom 9 by means of pantograph 10 and has supporting skis 11., Section 7 consists of several articulated parts,

The machine works as follows. Before starting the work, the machine assumes the working position, i.e. the base chassis 1 becomes on the rim along the channel, the boom 9 is lowered to the horizontal position by means of the hydraulic cylinder 12 and, due to the telescopicity, is moved apart using the hydraulic guide of the cylinder 13. Then, the guide nozzle 4 is set obliquely downward by means of the hinge 14, the gas pipeline 15 and by means of the hydraulic cylinder 16, corresponding to the actual laying of the channel slope.

Thereafter, the section 7 shaped channel profile, due to its telescopicity relative to the guide nozzle 4, extends along the channel slope by means of hydraulic cylinders 17 immediately prior to contact with the sediment layer. At the same time, the screen 5 connected to section 7 by a horizontal ball, niro {18 (for example, looped) shield with a shield, by means of hanging it up to a rigid boom 9 on the pantograph 10, is in a position in which the support skis 11 lie on the surface sediment. Moreover, such a position will be ensured at any thickness of the sediment layer and at any depth of the channel, since the pantograph 10 is a spring-loaded suspension system with respect to the rigid position of the boom 9, With this screen 5 with shield b, it is telescoped by means of a hydraulic cylinder 19 to move to the position corresponding to channel bottom

Downstream of the channel’s slope from the nozzle-4, a stream of gases, covered by the articulated channel sections, comes to the sediment layer and begins to blow them from the bottom of the channel from under the screen. on the opposite edge of the channel. As the initial flank 6 layer is formed in the sediment layer due to

the possibility of its vertical movement relative to the screen 5 is lowered under its own weight or with the help of, for example, a release spring 20 in a position in which its supporting rollers B will come into contact with the surface of the channel bottom coating.

During operation, when the machine is moving along the canal, with the canal depth changing (since everywhere there are longitudinal slopes of the bottom) and the thickness of the sediment layer, the supporting skis 11 and rollers 8 will independently track the surface of the sediment layer and the surface of the canal floor, respectively.

Thus, when the machine clears the channels, different in depth, width of the bottom and thickness of the sediment layer, the gas stream is completely concentrated (compressed) to act directly on the sediment layer lying on the bottom of the channel, which ensures effective cleaning of the bed of reclamation canals.

Claims (3)

1. Gas jetting machine, mainly for cleaning the bed of drainage channels from sediments, including a gas flow generator mounted on the base chassis frame with a guide nozzle connected to the boom and hinged to screen, and a shield, characterized in that, in order to ensure the cleaning of channels with different sediment depths and widths, the nozzles have a telescopically articulated section having a channel profile shape that is hingedly connected to a screen connected to the boom turn, hinged to the frame, with the shield mounted on the support rollers and attached to the screen with the possibility of vertical movement relative to it, and the nozzle guide is connected to the boom by means of a power cylinder. 2. A machine in accordance with claim 1, wherein the boom, the screen and the shield are made telescopic, and the said section consists of several articulated parts, 3. The machine according to claims 1 and 2, that is, so that, in order to clean the channels with different sediment thickness, the screen is connected to the boom using a pantograph and has supporting skis. Sources of information taken into account when examining 1. USSR author's certificate No. 224545, cl. E 01 H 5/10, 1967. , , t) ftjcffL-., /// / f y / f ff / M # f Aa ; y. v5; .-. ei .. ... i -; -;, -) V /// s // /// / /// / Fig5 Bb /five Fy I20 Lrnrvli P g I I U 1 FIG. 6