DE3507814A1 - Metering device, in particular for multi-component spray gun - Google Patents

Abstract

The invention relates to a metering device, in particular for multi-component spray gun in which a speed sensor which is provided for any stream of components detects the through-flow speed of the throughput medium and its value, which indicates the volume through-put per time unit with respect to the cross-section at the measuring point, is fed as a signal variable to a microprocessor and this actual value is compared to the set value, the determined difference signal variable constituting the control signal variable and being fed, amplified as an electrical pulse, to the through-put controller for the purpose of adjusting the through-put to the set value. <IMAGE>

Description

The invention relates to a metering device, in particular

especially for multi-component spray pistols.

In known processes, the individual components are mixed with one another related volumetrically effective displacement units allocated. Here can the quantity ratio can be adjusted. It has been shown that the volumetric Displacement units a considerable amount in terms of manufacture, maintenance and care Cause effort. The desired operational reliability could not always be guaranteed will.

The invention aims to provide a remedy here. The task of a dosing device especially for multi-component spray guns ru create, by means of the with simple operationally safe means while largely dispensing with mechanically movable components and if these parts do not come into contact with the throughput medium, an exact one Allocation of various components can be effected in the desired proportions target. For this purpose it is provided that a speed sensor is provided for each component stream the flow rate of the throughput medium detected and its value in relation indicates the volume throughput per unit of time for the cross-section at the measuring point, as Signal size to the microprocessor and the microprocessor this actual value with compares the setpoint value, with the determined differential signal size being the regulating signal size represents and amplifies R alc electrical impulse for the purpose of adjusting the throughput is fed to the setpoint to the throughput controller. To get the mix ratio quickly and unmistakable can be achieved by the program for the quantity ratio and or the throughput rate of the components can be entered into the microprocessor. Of the The electronic effective speed sensor can be achieved. A favorable design sees propose to design the flow controller as a regulating valve, whereby it is expedient design the regulating valve as a membrane or hose valve and the actuators to be arranged outside the flow stream. A sensible actuation of the regulating valve can be achieved by adjusting the opening width of the regulating valve to the flow rate setpoint is related. -7Er avoidance of mechanically moving parts for the flow controller, the throughput controller generates electromagnetic fields that affect the in the area the electromagnetic fields ionized throughput medium act and thereby whose flow rate and throughput can change per unit of time. A sensible coupling of the influencing variables for the throughput rate provides that the strength of the electromagnetic field and the degree of ionization of the flow medium is related to the throughput setpoint.

More details, advantages, features and how the Invention emerge from the following description. In the drawing is the Invention exemplified. 1 shows a schematic representation the metering device, Fig. 2 diaphragm valve shown schematically, Fig. 3 elastic Flow line effective as a valve.

In the embodiment according to FIG. 1, the components pass through Pressure from the storage tank (1) via the lines (2) to the flow controller (3) and Speed sensor (4) in line (5). At the beginning of the dosing process the throughput controller (3) to the respective one corresponding to that of the microprocessor (7) entered quantity ratios and / or throughput volume is set. With it during the throughput setpoints are adhered to exactly during the dosing process using of the speed sensor (4) the flow rate of the throughput medium and the throughput rate per unit of time is determined by the predetermined cross-section and fed to the microprocessor (7) as a signal quantity via the lines (4). These Throughput actual values are compared with the throughput setpoint values, whereby the any resulting difference values are amplified as a regulating variable by the amplifier (8), Via the lines (9) as electrical regulating pulses for the purpose of adjusting the volume throughput is fed to the setpoint to the throughput controller (3).

In Fig. 2, by moving the actuator (10) of the membrane (11) can be moved, thereby changing the passage cross-section.

Fig. 3 shows an elastic flow line (2) with the longitudinally displaceable Actuator (10) for changing the flow cross-section 5.

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Claims (8)

Claims 1. Dosing device, in particular for high-component spray guns, characterized in that a speed sensor is provided for each component stream (4) the flow rate of the throughput medium detected and its value the in relation to the cross-section at the measuring point indicates the volume throughput per unit of time, as a signal variable to the microprocessor (7) and the microprocessor (7) this Compares the actual value with the setpoint, with the determined difference signal size represents the regulating signal size and amplified as an electrical impulse for the purpose Adjustment of the throughput to the target value is fed to the throughput controller (3). 2. Dosing device according to claim 1, characterized in that the program for the proportion and / or the throughput of the components can be entered into the microprocessor (7). 3. Dosing device according to Knspruch 1 and 2, characterized in that that the speed sensor (4) is electronically effective. 4. Dosing device according to claim 1 to 3, characterized in that that the flow controller (3) is designed as a regulating valve. 5. Dosing device according to claim 1 to 4, characterized in that that the regulating valves are designed as membrane or hose valves and the actuators (ia) can be arranged outside of the flow-through flow of the throughput medium. 6. Dosing device according to claim 1 to 5, characterized in that that the opening width of the regulating valve is related to the target throughput value. 7. Dosing device according to claim 1 to 6, characterized in that that the flow regulator (3) erteughs electromagnetic fields that affect the area the electromagnetic fields ionized throughput medium act and thereby whose flow rate and throughput are changed per unit of time can. 8. Dosing device according to claim 1 to 7, characterized gekennreichnet, that the strength of the electromagnetic field and the degree of ionization of the penetrating medium is related to the throughput target value.