SU1170434A1 - Regulator of lever in after bay - Google Patents

Abstract

1. A LOWER BIAF LEVEL REGULATOR containing a water outlet, a shut-off element placed in it from an elastic shell, the cavity of which is connected to the pools by channels, one of which has a float level sensor, characterized in that, in order to increase the reliability of the regulator, the shut-off organ is made in the form of a conical torus, installed partially outside the outlet and fixed on the conical element placed in the outlet, coaxial to the conical element, and the channel for communication of the shell cavity with the pool is located inside the conical element, moreover, the inner diameter of the conical torus is less than the circumferential diameter of the conical element 1ta, the outer diameter of the conical torus is larger than the diameter of the outlet, and the conical element faces its top towards the current. , cl 2. Regulator tor according to claim 1. This is due to the fact that the conicity of the inner conical surface of the conic torus is equal to the conicity of the conical element. 4 co 4

Description

The invention relates to hydraulic structures and can be used on irrigation systems for the automation of tubular hydraulic structures. 5

The aim of the invention is to increase the reliability of the regulator.

Figure 1 shows a diagram of the proposed controller, closed position; figure 2 - controller in the mode of .10 skipping costs in the downstream.

The downstream level controller contains a shut-off element 1 made of an elastic shell and located in the outlet 2. The cavity of the elastic shell f5 is in communication with the channels 3 and 4. The level 5 float sensor is installed on channel 4. The locking element 1 of elastic material is made in the form of a conical torus mounted partially outside the outlet

2. The conical element 6 is installed in the latter. The locking element 1 is fixed to the conical element 6 and aligned with it. Channels 3 and 4 are located inside 25 of the conical element 6. The inner diameter of the conical torus of the shut-off element 1 is smaller than the covered diameter of the conical element 6, the outer diameter of the conical torus is larger than the diameter of the outlet 2, and the conical • element 6 faces its apex towards the flow. The conical element 6 is fixed to the water outlet bracket

7. In addition, the taper of the inner conical surface of the conical

When the specified water level is reached in the downstream, the valve of the float level sensor 5 stops the flow of water from the cavity of the shutoff body 1. Through channel 3, water from the upstream flow enters the cavity1 of the shutoff body 1, the conical torus increases in volume and closes the cross section of the outlet 2, water flows in the downstream stops. In addition, with. increasing pressure in the conical torus, it moves in the direction of the top of the conical element, i.e. it rolls into the outlet 2, thereby additionally sealing the outlet 2. When the level in the lower pool decreases, the float sensor 5 lowers, communicating the cavity of the conical torus with the lower concave. The pressure in the conical torus delivers, and due to pressure from the side end of water outlet 2. Depressurization of water outlet 2 occurs, water begins to flow into the downstream. The position of the obturator is determined by the difference between the pressure of the inner conical torus and the external pressure, therefore, when the float sensor 5 valve is opened personally, the cone torus occupies an intermediate position between the fully closed and fully open valves.

When the valve is fully open, the outflow of water ·.! from the conical torus is amplified and the flow of water from the storot is equal to the taper of the conical element 6.

The downstream level control works as follows.

In the upper pool, the conical torus shell is pressed against the conical guide element 6. Water enters the lower pool.

Claims (2)

1. LOWER BEFUFF LEVEL CONTROLLER, containing a water outlet, a locking element made of an elastic shell placed in it, the cavity of which is connected to the downstream channels, one of which has a float level sensor, characterized in that, in order to increase the reliability of the regulator, the locking the organ is made in the form of a conical torus, partially installed outside the outlet and fixed on the conical element located in the water outlet, and the channel of communication of the shell cavity with the concave is located inside the conical element, conical torus inner diameter smaller than the diameter of the male cone member, the outer diameter greater than the diameter of the conical torus overflow and the conical body faces towards its apex at ^- § current. '. 2. The controller according to claim 1, wherein the taper of the inner conical surface of the conical torus is equal to the conicity of the conical element. SU „„ 1170434 Fi g. 1