SU1465711A1 - Liquid meter - Google Patents

Abstract

The invention relates to the field of instrumentation and reduces the hydraulic resistance and extends the functionality. In the dispenser, the disk locking element 12 is placed with the possibility of axial movement in the rim 11 between the seats 4, 5. The rim 11 is rigidly connected to two pistons of different diameters 7, 8 on the smaller side 8. The end cavities of the pistons communicate through channel 13 with the throttle 1 which allows for the opening of the spring-loaded locking element 10 by equalizing the pressures in the cavities above the pistons and between them the rim 11 with the locking element 12 until the locking element 10 of the saddle 9 overlaps on the larger piston 7. The inter-piston cavities are communicated through the valve 14 with the output channel 3. 1 Cp f-ly, 1 ill. with

Description

The invention relates to instrumentation and can be used in chemical and other industries.

The purpose of the invention is the reduction of hydraulic resistance and the expansion of functionality.

The drawing shows a dispenser of liquids.

The liquid dispenser contains a throttle 1 installed between the inlet 2 and outlet 3 channels, a disk valve with two seats 4 and 5 and a regulator for moving its shut-off element 15, which is made in the form of two pistons 7 and rigidly interconnected pistons 7 and 8 of different diameters, the larger (7) of which 20 is equipped with a seat 9 for an additional spring-loaded locking element 10, hermetically placed in the end wall of the housing 6. The smaller piston 8 is connected with the rim 11 located along its axis, in which With the possibility of axial movement and alternating overlapping of the input 2 and output 3 channels, a disk locking element 12 is installed. The end cavities of the pistons are communicated through the channel 13 with the throttle 1, and the piston cavity through the valve 14 - with the output channel.

The dispenser operates in the following manner.

In the initial state, the valve and the locking element 10 are closed. Pistons 7 and 8 under the influence of gravity are dd in its lowest position, the rim 11 is placed on the abutment of the housing 6, providing a guaranteed gap between the housing 6 and the large pores 7, while the disk locking element 12, ₄ d made, for example, of fluoroplastic, is installed coaxially with concentrically arranged sheds 5 and 4. With a flow, for example, in the direction of arrow A, the disk locking element 12 is pressed firmly against the seat 5 and the cavity under the smaller piston 8 is filled with liquid through the gap with the 12th seat 4, which also enters through the channel 13 with throttle 1 and leak-t ,. The pistons have a housing with a housing in the inter-piston and supra-piston cavities, therefore, the piston assembly with the rim 11 remains in equilibrium at the stop, reliably preventing flow from being exited.

By opening the valve 14, a slight flow is provided to the outlet, and the piston assembly with the rim 11 continues to be placed on the stop.

When the screw of the locking element 10 is rotated, the pressure in the cavity above the large piston 7 drops. Due to the flow out through the seat 9 to the outlet, the piston assembly, moving upward, reduces the gap between the saddle 9 and the locking element 10, restoring the new equilibrium position of the piston assembly, at which the rising Rim 11 with the locking element 12, opening the saddle 5, provides a flow to the output channel 3. Thus, with a high accuracy determined by the fractions of a millimeter of the working stroke of the locking element 10 relative to the saddle 9 _{L, the} passage is regulated a new section of the seat 3 and the flow to the outlet.

The flow rate range with a high accuracy of the dispenser is wide enough due to the fact that both small flows by the valve 14 and large flows are controlled by the screw of the shut-off element 10. A decrease in the hydraulic resistance of the dispenser is achieved by placing the input and output channels and the disk shut-off element 12 on one axis.

Claims (1)

Claim . A liquid dispenser containing a disk valve installed between the inlet and outlet channels with a seat on one side and a regulator for moving its shut-off element, characterized in that, in order to reduce hydraulic resistance and expand functionality, a choke is introduced into the dispenser, on the other hand, is a disk shut-off of the element, a second saddle is made, and the displacement regulator is made in the form of two pistons of different diameters installed in an airtight stepped housing and rigidly interconnected the first of which is equipped with a saddle for an additional spring-loaded locking element, hermetically placed in the end wall of the housing, and the smaller one is connected with a rim placed along its axis, in which with a possibility of axial movement and alternating overlapping of the input and output channels, a disk locking element is installed, the piston cavities are communicated through the channel with the throttle, and the piston cavity through the crane with the outlet channel ”