HU196651B - Device for feeding carried water into open channel or reservoir or similar depending on tail water - Google Patents

Abstract

The present invention relates to a structure for the supply of water delivered in a pipeline to a free surface channel or a reservoir, or a similar sub-water level, in which a control body coupled to a floating arm with a floating body is used, and wherein there is a closing coil cooperating with the control body μ and a water outlet head. The structure of the present invention is that the at least one guide bar (19, 20) of the controller body (9) is guided by a guide cylinder (13, 14) extending at least one portion of the guide shaft (19, 20), the guide shaft (19, 20), a support element (15, 16) fixed to the section of the guide roller (13, 14) and a locking member (10) of elastic material. β. V., -f · 15 dhi% Γ Lf Λ f · Ί · ”· .--« A 5 7 3 «V 2 - iW 2θ B 1 -J 17 _________________ 6 ■ -1-

Description

FIELD OF THE INVENTION The present invention relates to devices for dosing water supplied by pipeline to a free surface channel or reservoir or the like, depending on the level of the water.

Water for irrigation or other purposes is regularly stored in reservoirs, pools or tanks. In many cases, these reservoirs are higher than the actual place of use of the water. Water abstraction from reservoirs - reservoirs for the sake of simplicity in the following - will always be mentioned according to a variety of needs and ways. If there are many alternate water outlets and may operate with alternate water extractions, such as open water irrigation canals, overflow or water shortage will not occur if the same amount of water is consumed. The task of eliminating such cases is solved by the I-controlled underwater level regulators. Known devices usually only allow for low-altitude control. This circumstance is disadvantageous for known solutions. An exemplary version of known structures can be found in the Handbook of Water Facilities, more specifically on pages 1045 - 1050 (Technical Publisher, Budapest).

Water supply proportional to the regulated water level cannot be solved with conventional simple tools at higher incoming pressures. Flow principle equipment shall be installed which, in proportion to its displacement, shall regulate the working range in intermediate positions, here it shall be vibration-free and non-cavitating, and shall close in its end position. Such are known ring-type locks, which are widely used for drainage of water in pipelines and reservoirs. An example of such a solution can be found on page 507 of the Handbook of Hydraulic and Pneumatic Machines (Technical Publisher 1974). In known solutions, as in the case of fittings used in pipelines, the closure is machined very carefully and guided precisely in the direction of closure opening. These structures are too expensive for simple water dispensing and irrigation tasks and are difficult to bear in a harsh environment. Unfavorable environmental influences and harsh operating conditions often cause structures with very fine machining requirements to be damaged and thus to operate with uncertainty.

The object of the present invention was to provide a structure which eliminates the drawbacks and disadvantages of the known structures, simple, undemanding to the environmental influences and operating conditions.

The invention was based on the discovery that the control body performing the control function, or the locking tag that forms the cllcnda thereof, can perform its function even if the control body performs a reciprocating movement during its functional movement and the closure member is made of a material. which is deformable to ensure closure. Such a solution eliminates the need for a precisely guided regulator body and also eliminates the need for a polished fastener with a sophisticated geometry and surface finish. With the sketched structure, the guide surfaces and sealing surfaces are insensitive to floating material and floating particles in the water, are easily movable, adjustable, level of controlled water, and the lifting power of the water, the buoyancy, can be increased use.

Thus, in the structure according to the invention, the regulating body is not guided in a precise manner, and its reciprocating motion is possible. This reciprocating motion is generally accomplished by providing at least one guide bar attached to the regulating body, which is secured to the guide bar and is located within the guide roll surrounding it with a sufficiently coarse fit. Generally, it is advisable to have a guide bar on each side of the regulator body, so that the regulator body is guided more firmly, but in no case is reciprocating motion excluded for the regulator body. The closure that cooperates with the regulating body is a simple ring which can be made of a flexible material. Preferably, the abovementioned support element (s) may also be made of a resilient material.

The movement of the control body can be ensured from a float body. It is advantageous to design the structure in such a way that the working areas of the underwater manhole are employed and the float body is located there. The swing arm for the float body allows a linkage to be established between the guide bar fixed to the control body and the swing arm. The swinging arm can be moved around an axis during lowering or rising of the float body.

It is advisable to attach a brake mechanism to the swinging arm, which eliminates possible vibrations due to the change in the fluid level and thus eliminates unnecessary vibrations of the structure. This brake mechanism may be a spring or hydraulic cylinder, preferably a two-acting, two-way hydraulic cylinder.

Thus, the structure of the present invention comprises at least one guide member for the regulating body, a guide cylinder surrounding at least one section of the guide shaft, a support member secured to a section of the guide member within the guide cylinder, and a resilient closure member.

In a preferred embodiment of the device according to the invention there is provided a guide rod which is fixed to the lower part of the regulating body and the guide cylinder partially surrounding it is located inside the housing of the device.

Another preferred embodiment of the device according to the invention is the use of a brake device connected to a fixed pivot arm of the caliper.

Another advantageous embodiment can be achieved by placing the float body in the working space with the underwater manhole receiving the water outlet head.

The invention is illustrated in more detail with reference to the exemplary embodiment illustrated in the accompanying drawings. In the drawing, the exemplary structure is shown in section.

The device according to the invention is housed in 2 housings. This house 2 is in the 5 underwater mines. Water can flow from the underwater shaft 5 through the outlet 4. The working space 6, which can pass through the breakthrough 12, is formed with the underwater shaft 5.

The inlet 1 is connected from below to the housing 2 of the device. At the top of the housing 2 of the device is a water outlet head 3.

In the exemplary embodiment, the upper part of the housing 2 has a guide roll 14, while it is inside the housing 2.

196 651 also includes a guide roll 13 in its lower part. Located at the neck of the 2 houses! a closure 10 made of a resilient material. The regulating body 9, which cooperates with the closure element 10, is fitted in the housing 2 with a rather large gap. The guide body 19 is fixed to the upper part of the control body 9 and the guide shaft 20 to the lower part of the control body 9. The guide shaft 19 is connected to the pivoting arm 1.1 which is pivotable about the axis 8 by means of a lowering connection 17. At the end of the pivot arm 11 extending into the working space 6, the float body 7 is fixed.

In order to eliminate the unpleasant oscillations caused by the rapid movement of the float body 7, it is advisable to attach the brake mechanism 18 to the pivot arm 11. As an example! in this case, the brake assembly 18 is essentially a spring.

The support member 15 is secured to the section 19 of the guide shaft 19 and the support member 16 is attached to the section 20 of the guide shaft 20. Preferably, the support members 15 and 16 may also be made of resilient material.

During operation of the structure, the movement of the float body 7 following the change in the level of the fluid in the working space 6 acts on the control body 9 via the swinging arm 11. During the movement of the regulating body 9, the regulating body may oscillate in the guide rolls 13 and 14 in accordance with the range between the collisions of the support members 15 and 16. As a result of the water passing through the structure, the regulating body 9 is able to perform a substantially upward movement. This bouncing motion is advantageous because it renders the structure insensitive to leaks caused by various deposits and particles. When closed, the regulating body 9 can provide good closure together with the closure member 10, considering that the conical end of the regulating body 9 facing the closure member 10 fits well into the opening of the otherwise elastic material with the movement of the abovementioned tilt.

The inventive structure also has the advantage of being exemplary in that it is reliable in operation without clogging, without clogging. It is an insensitive structure to chewing, so it can provide reliable water delivery even under very harsh conditions.

Claims (4)

Claims 15 1. Structure Piping water to a free surface sewer, reservoir or similar, is submerged! having a regulating body coupled to a swinging arm having a float barrel and a cooperating closure member and a discharge head of a water outlet, characterized in that at least one guide shaft (19, 20) for the regulating body (9), at least one guide shaft (19, 20). The guide roller (13, 14) is provided with a support element (15, 16) fixed to a section of the guide shaft (19, 20) within the guide roller (13, 14). Device according to Claim 1, characterized in that the guide body (9) is fixed to the lower part of the regulating body (9) and that it is partially surrounded by it. The 3Q guide roller (13) is located within the housing (2) of the device. Device according to Claim 1 or 2, characterized in that it has a brake structure (18) connected to the pivot arm (11) fixed to the float body (7). A device according to any one of claims 1 to 3, characterized in that the working space (6) which is connected to the underwater manhole (5) receiving the water discharge head (3) has a float body (7).