SU1073752A1 - Flow governor - Google Patents

Abstract

1. A FLOW CONTROLLER, comprising a housing, between the inlet and outlet channels of which there is a sleeve with a window formed above it, on which an elastic plate is installed, one end of which is fixed to the sleeve, and an element of adjustment of the elastic plate that is accuracy and simplification of the regulator. The adjustment element of the elastic plate is made in the form of a flat spring, the end of which is fixed relative to the body, and the second is connected to the other end of the elastic plate.

Description

2. The regulator according to claim 1, which is tl and often that, in order to reconfigure the regulator, the flat spring is installed with the possibility of adjusting the position of its second end, for example, with a microscrew.

3. Regulator tor on. 1 and 2, indicated by the fact that the flow adjuster is installed in the housing, made in the form of a pusher connected to the second end of the flat spring.

The invention relates to controlling the flow rate of liquid and gas at various pressure drops, can change the flow rate from an external signal while maintaining the law of regulation, and can be used to move internal combustion engines. The flow regulator is known, which has a housing with a receiver of working medium with coaxially located in it with windows, over which are installed - regulating elements in the form of elastic plates, one ends of which are fixed on the receiver of working medium ll. The disadvantage of the device is the complexity of the design. The closest in technical essence to the invention is to regulate the flow rates of liquid and gas, in which the drive of elastic plates contains levers connected through a rail with a drive screw and equipped with a number of bearings, some of which are connected to elastic plates, and others with profiled cams mounted on the receiver of the working environment. The controller also contains an input rectangular window, which is covered by an elastic plate 2. The disadvantages of this regulator are the complexity and bulkiness of the structure; the presence of kinematic complicates the operation of the regulator in vibration and in aggressive environments, as well as the difficulty of fitting the conditions with which the regulator stabilizes the flow, because all geometrical dimensions and their interrelation are carried out by selection without the possibility of their adjustment. The consumption characteristic and the input window of the rectangular shape, which is not accurately consistent with the law of regulation, i.e. with a change in the flow cross section due to pressure drop. The disadvantages also include the non-technological nature of the individual regulator units, the fabrication of the input straight & ample windows, especially the preservation of their exact dimensions and the selection of the cam profile. , The purpose of the invention is to improve the accuracy, simplification, and reconfiguration of the controller. This goal is achieved by the fact that in the flow controller, which includes a housing, between the inlet and outlet channels of which there is a sleeve with a window made in it, over which an elastic plate is installed, one end of which is fixed to the sleeve, and the adjustment of the elastic plate The adjustment element of the elastic plate is made in the form of a flat spring, the first end of which is fixed relative to the body, and the second end is connected with the other end of the elastic plate. Moreover, the flat spring is installed with the possibility of adjusting the position of its second end, for example, with a microscrew, and the flow meter is installed in the housing in the form of. a pusher connected to the second end of the flat spring. The drawing shows the regulator. The flow regulator includes a housing 1, between the input channel 2 and the output channel 3 of which is located a sleeve 4 with 1 made therein by a window 5, above which an elastic plate 6 is installed, one end 7 of which is fixed to the sleeve 4 by a screw 8 configured as a flat spring 9, the first end 10 of which is fixed by a screw 11 relative to the body, and the second 12 is connected to the other end 13 of the elastic plate b. The flat spring 9 has the ability to adjust its first end with a 10 micro screw (not shown). The regulator is equipped with a flow adjuster, made in the form of a pusher 14 connected to the second end 12 of the flat spring 9. The flow regulator works as follows. When the pressure difference changes, the sensing element is an elastic plate 6, thus changing the area of the through-hole - window 5, so that the flow rate remains constant. To achieve such a condition, it is necessary to precisely adjust the regulator to stabilize the flow rate. This is done by moving the spring drive.

(flat spring 9) forward or backward with respect to window 5 and a comparison of the flow rate at two points, i.e. with more and less pressure drop.

If the flow rate at a higher differential is less, then the drive shifts to window 5, and if the flow rate is higher, it moves back from window 5.

The adjustment for flow stabilization is done with a microscrew, for which it is provided for in the regulator housing. a threaded hole, and a flat spring 9 has one end bent at 90 °.

When the flow rate becomes constant at different pressure drops, the movement of the flat spring 9 provides for a change in the flow rate of the working medium without disturbing its stabilization.

This is achieved by the fact that the working part of the spring drive, while moving up and down, retains the condition of regulation, i.e. sets the required stiffness of the working part of the elastic plate and provides the drive movement simultaneously both vertically and horizontally according to a given condition.

The flow regulator allows you to expand the scope and increase

accuracy and reliability of work.

In addition, the regulator device allows you to smoothly change the magnitude of the stabilized flow rate, which is very important when using the regulator in the carburetors of the LAN.

Claims (3)

1. FLOW REGULATOR, comprising a housing, between the input and output channels of which there is a sleeve with a window made in it, over which there is an elastic plate, one end of which is fixed to the sleeve, and an element for adjusting the elastic plate, which is cleaned that, in order to improve the accuracy and simplify the regulator, the element of adjustment of the elastic plate is made in the form of a flat spring, the first end of which is fixed relative to the housing, and the second is connected with the other end of the elastic plate. 2. The regulator according to π. 1, characterized in that, in order to reconfigure the regulator, a flat spring is installed with the possibility of regulating the position of its second end, for example, with a microscrew. 3. The regulator according to paragraphs. 1 and 2, characterized in that in the housing there is a flow adjuster made in the form of a pusher connected with the second end of the flat spring.