CS215748B1 - Poured liquid layer thickness regulator - Google Patents

Abstract

The subject of the invention is to solve the problem of a regulator of the thickness of the flowing layer of the substance from easily accessible elements and devices. It consists of a container placed between the reservoir of the flowing substance and the moving belt on which the desired layer is formed, the container is provided with an inlet pipe with a control valve controlled by a sensor with a level regulator and an outlet nozzle with a throttle valve.

Description

(54)

Regulator of the thickness of the flowing fabric layer

It is an object of the present invention to provide a regulator of the thickness of the flowing layer of fabric from readily available elements and devices.

It consists of a canister located between the fluid supply container and the conveyor belt on which the desired layer is formed, the canister being provided with an inlet pipe with a control valve controlled by a level regulator sensor and an outlet throat with a throttle valve.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a layer thickness regulator composed of simple elements and devices available.

In industrial practice, it is a very common requirement to measure and control the thickness of the layer formed by the inflow of an endless moving belt or drum. The flow profile may be trough-shaped or only surface-shaped. In the case of a simple surface, a constant thickness is not achieved throughout the profile, which is not a problem in some technological productions, since the cutting of the edges is carried out. For this purpose, expensive imported instruments or prototypes operating without or with the touch principle are used as sensors. Non-contact devices are equipped with sensors working with auxiliary energy pneumatic or electric, utilizing the various physical or physico-chemical properties of the substances forming the desired layer. Touch sensors work mostly on a mechanical principle.

These requirements are addressed by the thickness control layer of the fabric on the principle of providing a constant flow of fabric to the endless belt object of the present invention, which consists of a container positioned between the container and the conveyor belt provided with one or more outlet holes with throttling holes. The inlet pipe terminates in the vessel, terminated with an outlet elbow and provided with a control valve connected to the level regulator sensor in the vessel.

The outlet port with the throttle valve may thus be one or a plurality of juxtaposed or, alternatively, only one or several simple outlet cross-sections with a fixed cross-section.

The thickness regulator of the flowing fabric layer is based on a container positioned between the container and a moving belt or drum moving at a constant speed. The fixed outlet, which is achieved by maintaining a constant level in the container, forms a constant layer of fabric on the conveyor belt. The accuracy of the layer formed is determined by the self-regulating properties of the container in addition to the physical properties of the effluent. The self-regulation of the system is maximum, as it is provided by a refilter working with auxiliary energy.

The effect of the invention is manifested in the simplicity of the thickness regulator of the flowing layer of the fabric, its easy feasibility by means of the available elements and instruments and the low maintenance requirements. The level sensor operates in comparison with the fabric layer thickness of the order of 10 and 100 times the amplification, so that it is possible to use float, immersion probes, etc., which are common automation elements. The function of the thickness regulator is particularly advantageous in the processing of suspending agents in the automation of various filters.

The drawing shows schematically the thickness controller of the flowing substance layer.

The thickness regulator of the flowing substance layer according to the invention is formed by a container 6 positioned between the flowing substance container 11 and the moving belt 1 on which the flowing layer is formed. The beginning of the layer occurs at the stop 2. The container 6 is provided with an outlet orifice 6, on which the throttle valve ^{8 is} positioned as indicated, a breather opening 2 and an inlet pipe 7 provided with an outlet elbow 8 with the outlet direction towards the bottom of the container.

Between the supply line 10 and the inlet line J there is a control valve 9, which is controlled by a sensor 12 with a level regulator.

When the level sensor 12 is actuated, the control valve 9 is opened and the liquid level is stabilized at the desired level in the container. By manually adjusting the position of the throttle valve 2 ® by the indicated position, the flow of liquid flows to the moving belt 1 moving at a constant speed, which stops unilaterally by the stop 2. The level 12 in the container 4 starts to actuate the sensor 12 with the level regulator. The control valve 2 maintains a constant height of the fluid flow from the reservoir 11 in the vessel 4. If the fluid level in the vessel 4 remains constant, the fluid flow from the throttle valve 2 is constant as well and the layer of fabric on the conveyor belt is automatically adjusted to a constant thickness. because its speed is also constant.

Claims (1)

subjectvynAlezu Thickness regulator of the flowing fabric layer on the principle of providing a constant flow of fabric onto the endless belt, characterized in that it consists of a container (4) located between the container (11) and the moving belt (1), provided with at least one outlet opening (6) the inlet pipe (7) from the reservoir (11) terminated in the outlet elbow (8) and provided with a control valve (9), which is connected to the sensor (12) of the level regulator in a container (4).