DE3318120A1 - Flow meter for liquids - Google Patents

Abstract

The flow meter consists of two vertical dosing cylinders (1, 2), of which each has a float (3, 4) which is suspended on a cable (5, 6) which is deflected downwards, in the upper region over a roller (9, 10), to a further roller (17, 18) and has a counterweight (15, 16) on its lower end in order to maintain a tension. Two interconnected three-way valves (30, 31) alternatively establish a connection between an inlet tube (32) for the liquid (25) whose throughput is to be determined and one of the two dosing cylinders (1) or between an outlet tube (33) and the other dosing cylinder (2). A pump for evacuating the liquid is provided downstream of the outlet tube (33). Each of the two rollers (9, 10) is mounted on the shaft of a pulse generator (13, 14) which is connected to a counter for continuous determination of the liquid throughput. The throughput can be varied by adjusting the pump; intensified suction causes more rapid sinking of the liquid level in the circuit, which is in the evacuating phase, so that there is an increase in the rate of sinking of the associated float, in the rotational speed of the corresponding roller (9 or 10) and thus in the number of pulses per time unit. <IMAGE>

Description

description

The invention relates to a flow measuring device for liquids, d. H. a device with which an amount of liquid can be determined which is delivered during a unit of time, in particular to determine the flow rate of urea adhesives for the manufacture of chipboard and fibreboard.

The prior art includes quantity meters for adhesives with which Wood chips and wood fibers are bound to produce the panels mentioned. These volume meters consist of liter counters based on the principle of Faraday's law based on electromagnetic induction and where the glue is weak is conductive, runs through a hollow shaft to which two electrodes are attached, which form the ends of a winding. Depending on the electrical conductivity of the adhesive results in an induced electromotive force at the ends mentioned Force, the value of which depends on the flow rate of the adhesive. This prior art however, it is disadvantageous in that the two electrodes are not used during breaks in operation the contacting adhesive hardens, so that the conductivity of the adhesive is changed, what the measurement result of the flow rate, which depends on the value of the conductivity, falsified. In addition, the induced current heats the winding, causing the formation is favored by adhesive crusts on the walls of the hollow axis, resulting in a Failure of the device leads.

Hence the need to solve the technical problem to provide an accurate flow meter that is continuously available stands and works uniformly without requiring any special maintenance to require to determine the throughput even of liquids that are not or are only weakly conductive.

In the generic flow measuring device for liquids this object is achieved by a pair of vertical metering cylinders, each one take up sliding float and alternately a filling phase with feed of the liquid according to the principle of communicating tubes and an emptying phase are subjected, the latter being through adjustable suction from a downstream arranged pump is made. Switching is done by two together connected three-way valves that are operated by an actuating cylinder, or by only a four-way valve, which is also operated by an actuating cylinder. the The sinking speed of the swimmer acts on a pulse generator that has a counter actuated. Continuous dosing can be achieved by changing the suction speed of the pump can be changed based on the meter reading.

The advantages of the invention consist in particular in the continuous possible reading of the flow rate with the exception of the brief moment when switching, in the accuracy and uniformity of the reading and in the saving of liquid due to the high accuracy.

Advantageous further developments of the invention emerge from the patent claims and from the description of two exemplary embodiments shown in the drawing are.

They show: FIG. 1 a partially sectioned front view of a Flow measuring device according to the invention, in which the left metering cylinder 1 in the emptying phase and the right metering cylinder 2 in the filling phase are, Figure 2 is a partially sectioned side view of the flow measuring device according to Figure 1, Figure 3 is a sectional view in the plane 111-111 of Figure 1, in which the valves for distributing the liquid to the two dosing cylinders FIG. 4 shows a plan view of the flow measuring device and FIG. 5 a schematic view of a second embodiment in which instead of two Three-way valves a single four-way valve is installed.

As the figures show, there are two vertical metering cylinders 1 and 2 equipped with a float 3 or 4 on the inside, which is centered on a rope 5 or 6 is suspended. The rope runs through an opening in the cover 7 or 8 of the dosing cylinder to a roller 9 or 10, which is mounted at the upper end of a column 11 or 12 and the rope 5 or 6 deflects obliquely downwards. Each roller 9, 10 is on the shaft a pulse generator 13 or 14 attached, which in turn is attached to the associated Column 11 or 12 is supported. At the bottom of each rope 5, 6 is a Counterweight 15 or 16 attached, which keeps the rope taut and the weight of the swimmer partially offsets.

The lower part of each rope 5, 6 is via a pulley 17 or 18 led.

In their highest position, the counterweights 15, 16 each actuate one associated limit switch 19 or 20.

The bottom 21 and 22 of each metering cylinder 1, 2 is supported on one Base housing 23, which receives a distributor device 24 for the liquid 25, whose flow is to be measured.

As Figure 2 shows, connect two vertical pipes 26, 27, which at two holes 28, 29 in the bottom 21 or

Connect 22 of the two dosing cylinders 1, 2, these dosing cylinders via two three-way valves 30, 31 alternating with an inlet pipe 32 for the liquid 25 and with an outlet pipe 33 for this liquid.

The two counterweights 15, 16 each move in a receiving housing 34, 35, in which the two limit switches 19, 20 are also attached.

Each three-way valve 30, 31 has an adjusting bolt 36, 37 on which a End of an adjusting lever 38 or 39 is attached, the other end of which is articulated a connecting rod 40 is attached. From the connecting rod 40 is a Approach 41 from which the end of a piston rod 42 of a pneumatic actuating cylinder 43 is articulated, which in turn is articulated on a folder 44 of the frame 45 is hung.

Two T-shaped connecting pieces 47, 48 are used for alternate emptying and filling the dosing cylinder 1, 2. Two pairs of elbows 49, 50 and 51, 52 are used to connect the three-way valves 30, 31 with the connecting pieces 47, 48.

In the embodiment shown in Figure 5 is instead of two three-way valves a single four-way valve 53 is provided, which has an inlet opening 54, an outlet opening 55 and two allocation openings 56, 57, over which the liquid 25 to the tube 26 or 27 and from this into the metering cylinder 1 or 2 arrives. The four-way valve 53 has a rotary bulkhead 58 that has an arm 59 can be rotated by a pneumatic actuating cylinder 60.

The two metering cylinders 1, 2 are on the support surface P of the frame 45 attached.

The flow measuring device shown in Figures 1 to 4 operates in the following way: The liquid 25 enters the Elbow 52 and then rises through the vertical tube 27 into the dasier cylinder 2, in which on the principle of communicating tubes in conjunction with the upstream and not shown device for preparing and feeding the Liquid sets a certain level. At the same time, a downstream and also not shown pump liquid 25 from the dosing cylinder 1 via the vertical tube 26, the T-shaped connector 47, the elbow 49 and the three-way valve 30 sucked through the outlet pipe 33 to downstream Machining stations to be performed in the case of wood chips and wood fibers have a resinifying device.

The flow rate of the liquid 25, i. H. their dosage * s dependency The weight unit of the wood chips and wood fibers is continuously determined by the emptying speed, which depends on the adjustable pump; the The sinking speed of the swimmer 3 is transferred to the roller 9, which in turn the pulse generator 13 is actuated, on whose counter the numerical value of the throughput and thus the dose amount can be read off that goes to the resin-making or kneading machine is continuously released. As soon as the permissible minimum level is in the dosing cylinder 1 is reached, the counterweight 15 actuates the limit switch 19, which is an electromagnetic valve 46 switches, which actuates the actuating cylinder 43. This will be over the connecting rod 40 adjusts the movable valve bodies of the two three-way valves 30 and 31, so that after a very short time the dosing cylinder 1 enters the filling phase and the dosing cylinder 2 go to the emptying phase.

In the embodiment shown in Figure 5 with a single Four-way valve 53 run these processes from accordingly, and because of the simpler Construction of the distribution device for the liquid Savings in production and can be achieved in operation.

In addition to the described and illustrated exemplary embodiments changes are of course possible.

For example, the filling and emptying of the two vertical Dosing cylinder can be controlled in a different way. Anyway, about the adjustable Pump the flow rate can be changed; the liquid level drops when the suction is increased in the circuit that is in the emptying phase, faster, so that the Sink speed of the associated swimmer, the speed of rotation of the corresponding swimmer Roll 9 or 10 and thus the number of pulses per unit of time are greater. Blank page

Claims (3)

Flow measuring device for liquids claims 1-. Flow meter for liquids, marked by a pair of vertical dosing cylinders (1, 2), each of which has a movable float (3, 4) and one alternately Phase for filling up a liquid (25), the flow of which is to be measured, from below to a predetermined level, the liquid on the principle of the communicating tubes, and a phase of partial emptying subject to adjustable suction by means of a pump, each float (3, 4) on one vertical rope (5, 6) hanging over an upper Roller (9, 10) runs and is deflected by this down to another cell (17, 18) and is held taut at its end by a counterweight (15, 16), which partially balances the weight of the float and where the upper roller (9, 10) is drawn onto the shaft of a pulse generator (13, 14) which is connected to a Counter for determining the flow rate of the liquid (25) based on the rate of descent of the float (3, 4) is connected. 2. Flow measuring device according to claim 1, characterized in that g e k e n n z e i c h n e t that for alternating loading of the vertical dosing cylinder (1, 2) in the filling phase and for the subsequent emptying for both dosing cylinders (1, 2) a line arrangement is provided, the two three-way valves (30, 31) has, the adjusting bolt (36, 37) adjusting lever (38, 39) for actuation by a Have rod (40), which in turn by the piston rod (42) of an adjusting cylinder (43) can be actuated, which is suspended from a holder (44) which is attached to a frame (45) is attached, which has an upper support surface (P) on which the metering cylinder (1, 2) are attached and each of which has a hole (28, 29) in its bottom has, which via a vertical tube (26, 27) of a T-shaped connector (47, 48) and angle pieces (49, 50 or 51, 52) arranged in pairs with the three-way valves (30, 31) is connected, of which the inlet valve (31) to an inlet pipe (32) leads, while the outlet valve (30) to an outlet pipe connected to the pump (33) leads. 3. Durehrlußmeßvorrichtung according to claim 1, characterized g e k e n n z e i c h n e t that for alternating Feeding the vertical Dosing cylinder (1, 2) in the filling phase and for the subsequent emptying for Both metering cylinders (1, 2) a four-way valve (53) is provided, the bulkhead of which (58) is rotationally movable by an adjusting cylinder (60).