SU620823A2 - Liquid level automatic regulator - Google Patents

Description

The invention relates to the incorporation of water, related to the technique of automatic reupirovanie water level or another can be used on hydraulic structures of hydropower and water management systems, channels, and tanks in various industries.

According to the main author. St. МБ 354275, an automatic level and liquid regulator is known, which contains a working capacitance and a float enclosed in it with a contact system, the float enclosed in a container connected with an adjustable level by a pneumatichydraulic system, is made with a capillary hole in the bottom, and the tank is equipped with setpoint adjustment, made in the form of a vessel covered by a flexible diaphragm.

In order to increase the regulator's accuracy, the lower part of the float is made in the form of a pipe with a regular tail piece, an additional pipe is inserted into the internal cavity of the float, connected through an adjustable container

volume with bellows dispersed in the cavity associated with the atmosphere.

The drawing shows the proposed controller.

Claims (1)

An automatic fluid level regulator, operating on a hydrostatic principle and co-entroping the change of liquid level by pressure change in the working tank, has a selective pressure device 1, made like a bell and connected pneumatically by a tube 2 with a sealed working chamber 3, partially filled with antifreeze in which floats sensitive to The flue element is a float 4, made in the form of a hollow cylinder, the lower part of which is made in the form of a nozzle with an expanding tail part. On the top cover of the float a leash is fixed with a control of a magnet 5 magnet, which includes the magnetically controlled contacts 6 of the regulator, which are converters of float movements into an electrical signal. The regulator contains a strap nut 7, a shaft 8 setting knob Capacity 9 with a volume adjustable by means of the 1O actuator and a nut 11, pneumatically connected via an additional nipple 12 with an internal cavity of the float 4, serves to change the regulator setpoint. The bellows 13, the volume of which is connected to the internal cavity of the float, is designed to compensate for fluctuations in atmospheric pressure. The guides 14 are made to install the controller in the pool in the vertical, position, and the tube 15 is used to connect the strip in which the bellows is placed with the atmosphere. The automatic controller works as follows. At the level H in the selection device 1 pressure, the level rises to the mark. H, and the pressure of compressed air, respectively, to HH. The same pressure will be in the working chamber 3. Suppose that in this case, the amp & The hydraulic system is in equilibrium, and the float is in a neutral position, in which the contacts 6 located on the slats-nuts 7 are not included. A change in the level of liquid H will lead to a change in pressure in the sampling device 1 and the working chamber 3. In this case, the balance between the air enclosed in the internal cavity of the float 4 and the air filling the working chamber 3 is disturbed. As a result, through the opening in the tail of the float 4 will start the flow of antifreeze, in which the float floats. With an increase in H and pressure in the working chamber, the volume of gas inside the float will decrease, and antifreeze will flow into it, increasing the volume weight of the float. Thanks to this, the float is lowered, and the control magnet 5 associated with it closes the first of contacts 6 located on the bottom bar-nut 7. A command impulse to close the gates is given, and the mark H will start to decrease. until magnet 5 enters the insensitivity zone, which occurs when the level H reaches its original value. The duration or intensity of the working impulse applied to the auto regulator is proportional to the deviation of the float 4 and the magnet 5 from its neutral position. When H is reduced, a similar process occurs, but the pressure in the working chamber drops, antifreeze flows out of the float 4, its volumetric weight decreases, and the float pops up, pressing magnet 5 on the other 5, acting on the opening of the closures determining water flow to the controlled autoregulator torus zone. The change of the regulator's insensitivity zone is made by changing the distance between the plankdmi-nuts 7, on which the contacts 6 are placed, when the shaft 8 having the right and left threads is rotated. The change in the setpoint of the regulator is made by forced movement of the float 4 in the right direction 1 by changing the volume of gas enclosed in it, which occurs when the drive 10 is turned on, moving the nut 11 that specifies the volume of the capacitor and 9, connected by the float 12c. In this case, the float is moved, the adjustment process begins, which lasts until the pressure, co3aaBae vfoe water column at the new H, moves the float to its original position, the control magnet to the dead zone. The formula of the invention Automatic liquid level controller according to the author. St. No. 354275, characterized in that, in order to improve the accuracy of the regulator, the lower part of the float is designed as a pipe with an expanding tail, an additional pipe is inserted into the internal cavity of the float, connected through an adjustable volume container with a bellows placed in the cavity, associated with the atmosphere. H GR W 12/4  //: U // // / // U Have /BUT