RU211970U1 - CLAMP ASSEMBLY OF THE WATER ATTRACTION HYDRAULIC NOZZLE - Google Patents

Abstract

The utility model relates to water attractions, namely to those elements of their design that provide regulation of the flow at the outlet of the hydroelectric complex, used to create an artificial wave for surfing, operating on the principle of a river rapid. The technical result of the utility model is the expansion of the arsenal of technical means in terms of the proposal of a new design of the pressure unit of the fender of the nozzle of the water attraction hydraulic system. In addition, the technical result is the elimination of curvature of the adjustable surface of the bump stop under water pressure. The specified technical result is achieved due to the fact that the pressure assembly of the bump stop of the nozzle of the water attraction hydraulic system is claimed, which is a pressure metal plate and hydraulic cylinders fixed on its upper side, and a hinge is fixed on one of its ends, characterized in that the pressure plate on the outer side contains parallel mounted stiffening ribs located longitudinally to the direction of water flow, moreover, on top of several stiffening ribs in the middle part of the pressure plate, a support bar is fixed to them transversely to the water flow, and the ends of the hydraulic cylinders are hinged to it.

Description

The utility model relates to water attractions, namely to those elements of their design that provide regulation of the flow at the outlet of the hydroelectric complex, used to create an artificial wave for surfing, operating on the principle of a river rapid.

In water attractions, which are known for their wide variety of designs, the main goal is to ride the surfer on the waves. At the same time, attractions differ in the types of creation of a particular wave.

The present technical solution proposes a clamping unit of the fender of the nozzle of the water attraction hydroelectric complex, the function of which is the formation of an artificial wave for surfing, operating on the principle of a river rapid.

Among similar structures known in the art and providing the creation of an artificial wave for surfing, operating on the principle of a river rapid, the following are known.

So, the solution is known according to the patent RU166040U, published: 11/10/2016, which describes a water attraction containing a water tank made in the form of an L-shaped three-dimensional figure formed by two hollow elements of the same rectangular cross section, the axes of which are mutually perpendicular, height of the vertical element of the container is greater than the height of the horizontal element, and the upper parts of the container are connected by an elastic working surface, gratings for draining water installed above the water container, a device for pumping water located inside the container and connected to a device for transporting water, the outlet of which is located above the bottom part of an elastic working surface, characterized in that, as a device for pumping water, the attraction contains a vertically located hydraulic turbine, the pumping part of which is connected to an L-shaped nozzle, inside which, in front of its outlet, there is an adjusting plate, pivotally connected to the inner upper wall of the L-shaped nozzle, and after the outlet of the L-shaped nozzle there is a pressure plate pivotally connected to the upper outer part of the nozzle.

The flow of water to the exit from the outlet of the L-shaped nozzle is regulated by means of an adjusting plate and clamping bolts. When leaving the L-shaped nozzle, the water flow with its force (pressure) raises the pressure plate to the required level. Due to this, the flow of water becomes laminar (“smooth”), which improves the performance of the attraction.

The technical problem of the analog is the non-adjustability of the pressure plate, which falls down under its own weight.

The closest analogue is a device for generating an artificial wave (patent RU190454U, published: 07/01/2019), containing the first and second channels of constant cross-section and a water turbopump connecting the first and second channels through adapters that match the input of the first channel and the output of the second channel with the output and the inlet of the turbopump, respectively, wherein the first channel is made with a curved outlet part, and the outlet of the first channel is associated with the inlet of the convergent nozzle, located at a slope away from the outlet of the first channel, the internal space of the nozzle is limited by the upper adjustable plane and the lower plane, conjugated at a curved angle with the first edge of the first bottom plane, located with a slope away from the nozzle, the second edge of which is smoothly connected with the first edge of the concave bottom surface of the fender, the second edge of which is hinged with the first edge of the fender and passes into the bottom plane at a right angle, and the lower plane of the fender go over t into the niche under the fender, in which the hydraulic cylinder is located, configured to control the change in the angle of inclination of the fender plane, the second side of the niche under the fender is mated with the first side of the second bottom plane, the second edge of which is cut off by the water collector, the output of which is associated with the inlet of the second channel, while the space of the collector is limited by the lower flat wall, the lower edge of which is smoothly connected with the lower edge of the second channel, while the device is made with an open space, limited on one side by the upper plane of the nozzle, on the other hand - by the second edge of the horizontal wall of the collector, and the first, second channels, the nozzle, the water collector, as well as the open space are limited from the sides by two vertical walls, made mainly parallel, the device is also equipped with a protective perforated bottom, located at a slope from the water collector to the fender and attached to the second bottom plane, the vertical wall of the catchment area rnik, as well as to vertical walls.

The surface regulated by a hydraulic cylinder, connected by a hinge to the upper surface of the pool, ensures the retention of a water flow from 6100 to 12000 m ³ / h.

With such a water flow, the metal adjustable surface of the fender is subject to distortion by water pressure so that the surface remains stable at the location of the hydraulic cylinders, and between them and at a distance from them, especially at the edges of the fender, it will be curved. To prevent this from happening, the thickness of the adjustable surface must be significant, which increases the mass of the structure and requires the installation of more powerful hydraulic cylinders.

However, the prototype does not describe how to solve this technical problem. The author of the prototype reflects in his decision only the general principle of the regulation of the angle of inclination of the bump stop.

The objective of the utility model is to propose a new technical solution that eliminates the curvature of the adjustable surface of the fender under water pressure.

The technical result of the utility model is the expansion of the arsenal of technical means in terms of the proposal of a new design of the pressure unit of the fender of the nozzle of the water attraction hydraulic system. In addition, the technical result is the elimination of curvature of the adjustable surface of the bump stop under water pressure.

The specified technical result is achieved due to the fact that the pressure assembly of the bump stop of the nozzle of the water attraction hydraulic system is claimed, which is a pressure metal plate and hydraulic cylinders fixed on its upper side, and a hinge is fixed on one of its ends, characterized in that the pressure plate on the outer side contains parallel mounted stiffening ribs located longitudinally to the direction of water flow, moreover, on top of several stiffening ribs in the middle part of the pressure plate, a support bar is fixed to them transversely to the water flow, and the ends of the hydraulic cylinders are hinged to it.

Preferably, the ends of the hydraulic cylinders are fixed to the support bar through lugs.

Preferably, the stiffening ribs at the edge of the pressure plate are made with a bevel, and an additional support bar is fixed on top to the bevels of the stiffening ribs transversely to the water flow.

Preferably, the support bar is made in the form of a U-shaped profile.

It is possible that each stiffening rib is made in the form of a pair of plates fixed by a welded joint on top of the pressure plate and placed perpendicular to the plane of the pressure plate.

It is possible that additional stiffeners are installed perpendicular to the stiffening ribs, forming together with the first cells.

It is acceptable that the hinge is made in the form of a long cylindrical rod passed through the holes in the stiffeners, and the rod itself is simultaneously passed through the lugs of the hinge fastening unit, located on the edge of the pressure plate and coaxial with the through fastening holes of the stiffeners, and the hinge fastening unit is made with the possibility of fixing on the breaker.

Preferably, the pressure plate, stiffening ribs, support bar are made of metal.

Preferably, the stiffening ribs to the pressure plate are secured by a welded joint.

Brief description of the drawings

Figure 1 shows the device of the clamping unit of the chipper utility model.

Figure 2 shows an example of a modular configuration of the clamping unit of the fender.

In Fig.3 - Fig.6 shows examples of a prototype of the nozzle of the hydraulic unit in different angles, made using the clamping unit of the fender according to the utility model.

In Fig.7, Fig.8 shows photographs of the process of operation of a prototype of the nozzle of the hydraulic system, manufactured using the clamping unit of the fender according to the utility model (water flow 6100 m ³ /h).

In Fig.9, Fig.10 shows photographs of the process of operation of a prototype of the nozzle of the hydraulic system, manufactured using the clamping unit of the fender according to the utility model (water flow 12000 m ³ /h).

On the drawings: 1 - pressure plate, 2 - hinge, 3 - hydraulic cylinder, 4 - support bar, 5.1, 5.2 - stiffeners, 6 - eyelets for attaching the hydraulic cylinder to the support bar, 7 - hydraulic cylinder mounting eye, 8 - additional support bar, 9 - bevel of the stiffener, 10 - additional stiffeners, 11 - lugs for attaching the hydraulic cylinder to the fender support bar, 12 - hinge attachment point, 13 - fender support bar.

Implementation of the utility model

The clamping unit of the fender of the nozzle of the water attraction hydraulic system (see Fig.1) is made in the form of a clamping metal plate 1 with hydraulic cylinders 3 fixed on its upper side, and a hinge 2 is fixed on one of the ends of the plate 1.

What is new is that (see figure 1) the pressure plate 1 on the outer side contains parallel mounted stiffeners 5.1, 5.2, located longitudinally to the direction of the water flow, and on top of several stiffeners 5.2 in the middle part of the pressure plate 1 transversely to the water flow is fixed to the support bar 4 and the ends of the hydraulic cylinders 3 are hinged to it. The attachment of the ends of the hydraulic cylinders 3 is carried out pivotally, for example, through the eyes 6, fixed by a welded joint to the support bar 4.

The clamping unit of the fender as in figure 1 is a modular element. Elements of the same type can be connected in series from the end to the required length, corresponding to the width of the working part of the water attraction. An example of a model connection of several clamping units of the bumper is shown in Fig.2.

Ribs 5.2 stiffness to the pressure plate 1 can be attached, for example, by welding. A welded joint, unlike any alternative joint, provides increased strength to the stiffeners themselves and increased bending strength of the pressure plate as a whole.

The stiffening ribs 5.2 at the edge of the pressure plate 1 can be made with a bevel 9, which allows to fix an additional support bar 8 transversely to the water flow to these bevels 9 of the stiffeners 5.2 transversely to the water flow, which gives additional strength to the structure at the edge of the plate 1.

The support bar 4 itself can be made, for example, in the form of a U-shaped profile. The material of all fasteners and stiffeners, such as pressure plate, stiffeners, support bar is preferably metal, but it can also be high-strength hard plastic.

The stiffeners can be made, for example, in the form of a pair of plates 5.2, fixed by a welded joint on top of the pressure plate 1 and placed perpendicular to the plane of the pressure plate 1.

On the plate, such stiffeners 5.1 can also be installed along the edges, which are not paired and are rigidly welded to the edges of the pressure plate.

The hinge 2 can be made, for example, in the form of a long cylindrical rod, passed through the holes in the extreme plates 5.1, as well as through the holes in the plates 5.2. In this case, the fastening of the hinge to the bump can be done through the lugs 12 located on the edge of the pressure plate 1 and coaxial through the mounting holes of the stiffeners 5.1, 5.2. Thus, the mount hinge 12 is made with the possibility of fixation on the bump.

To increase the rigidity of the structure, additional stiffeners 10 can be installed perpendicular to the stiffening ribs 5.2, forming together with the first (5.2) cells.

The other ends of the hydraulic cylinders 3, having lugs 7, are fixed to the support bar 13 of the chipper, also having lugs 11 on the bar 13 of the chipper.

During the operation of the fender, the pressure unit, according to the utility model, performs the function of forming an artificial wave for surfing, operating on the principle of a river rapid. Due to the connection of the hinge 2 with the upper surface of the pool through the baffle, it is possible to hold the water flow from 6100 to 12000 m ³ /h, by analogy with how it happens in the prototype.

But, unlike the prototype, in the claimed utility model due to the presence of stiffeners 5.1, 5.2, as well as in such versions with additional reinforcing stiffeners 10, forming together with the first (5.2) cells, as well as the support bar 8 on the bevel of the stiffeners 5.2 there is an increase in the strength of the plane of the pressure plate 1.

Thus, even with a strong flow of water, the metal adjustable surface of the plate 1 of the bump stop is not subject to distortion by water pressure in those places where the attachments of the hydraulic cylinders 3 are not located.

In the course of testing the utility model, a prototype was made according to the utility model (see Fig.3 - Fig.6), having a modular connection of four similar clamping units of the bumper.

The test of the prototype took place under the influence of a changing flow of water from 6100 (see Fig.7, Fig.8) to 12000 m ³ /h (see Fig.9, Fig.10), similar to how it happens in the prototype .

As a control sample, a design was used, according to the prototype, which also has a modular connection of four similar clamping units of the bumper, in which there was only a pressure plate with a hinge and hydraulic cylinders, but in which there were no reinforcing ribs. The control sample was exposed to the same water flows from 6100 to 12000 m ³ /h.

In the intervals between exposure to water flows, which were made every 4 hours after the pumps stopped, the studied samples of the fenders were then checked for the degree of deformation of the pressure plate plane. The deformation of the plates was examined by raising the pressure plate to the maximum opening level, and deviations from the plane of each pressure plate were recorded with a laser level.

Tests have shown that the pressure plate of the prototype did not undergo any deformation during a long period of exposure up to 15 days continuously, even with maximum water flows up to 12000 m ³ /h.

In contrast to the prototype, curvature was observed in the control sample:

- at the edges of the pressure plate after 52 hours of exposure to water flows from 6100 m ³ /h;

- at the edges of the pressure plate after 44 hours of exposure to water flows from 9000 m ³ /h;

- on the edges of the pressure plate and between the hydraulic cylinders in the center of the plate after 1 day of exposure to water flows up to 12000 m ³ /h.

Claims (9)

1. The clamping unit of the fender of the nozzle of the water attraction hydraulic system, which is a clamping metal plate and hydraulic cylinders fixed on its upper side, and a hinge is fixed at one of its ends, characterized in that the clamping plate on the outer side contains parallel stiffening ribs located longitudinally to the direction water flow, and on top of several stiffeners in the middle part of the pressure plate, a support bar is fixed to them transversely to the water flow, and the ends of the hydraulic cylinders are hinged to it. 2. The device according to claim 1, characterized in that the ends of the hydraulic cylinders are fixed to the support bar through lugs. 3. The device according to claim 1, characterized in that the stiffening ribs at the edge of the pressure plate are made with a bevel, and an additional support bar is fixed from above to the bevels of the stiffening ribs transversely to the water flow. 4. The device according to claim 1, characterized in that the support bar is made in the form of a U-shaped profile. 5. The device according to claim 1, characterized in that each stiffener is made in the form of a pair of plates fixed by a welded joint on top of the pressure plate and placed perpendicular to the plane of the pressure plate. 6. The device according to claim 1, characterized in that additional stiffeners are installed perpendicular to the stiffeners, forming together with the first cells. 7. The device according to claim 1, characterized in that the hinge is made in the form of a long cylindrical rod, passed through the holes in the stiffeners, and the rod itself is simultaneously passed through the eyes of the hinge fastening unit, located on the edge of the pressure plate and coaxial through the fastening holes of the stiffeners , and the hinge fastening unit is made with the possibility of fixation on the bump stop. 8. The device according to claim 1, characterized in that the pressure plate, stiffeners, support bar are made of metal. 9. The device according to claim 1, characterized in that the stiffeners to the pressure plate are fixed by a welded joint.

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