DE419784C - Fluid meter with measuring chamber, storage chamber and float - Google Patents

Description

Liquid meter with measuring chamber, storage chamber and float. the The invention relates to a liquid meter which z. B. used in motor vehicles should be the total fuel consumption during a certain period of time or for a certain distance.

The invention particularly relates to the type of liquid meter in which a float contained in a measuring chamber when lifting and lowering as a result the filling and emptying of the chamber actuates a suitable display device. A lower storage chamber is also provided, which removes the liquid the measuring chamber (z. B. by a siphon or a valve) and a Contains float that controls the inflow valve.

So far, the inflow or inlet valve through the Floats in the lower storage chamber opened and closed, with the result that that the liquid continues into the measuring chamber during the emptying of the same can enter, until the float in the lower chamber rises sufficiently, to close the inlet valve. This eliminates inaccuracies in the. declarations caused by the liquid meter.

According to the invention are in the upper measuring chamber by a float actuated means. provided, through which the inlet valve closed automatically when the liquid admitted into this measuring chamber reaches a certain height achieved.

Fig. I of the drawing shows a liquid knife in a vertical section according to the invention with the inlet valve closed; Fig.2 is a similar one Representation with the inlet valve open; Fig.3 shows an arrangement with two floats in the upper chamber; Fig. 4 shows another embodiment of the invention at which inlet and outlet valves are used, where @ at the inlet valve closed and the exhaust valve is open; Fig. 5 is a similar illustration, only is the inlet valve is open and the outlet valve is closed.

In Fig. 1 and 2 the measuring container is divided by a horizontal wall into two chambers 3 and 4, of which the lower one is connected to the carburetor and the upper one to the fuel container through a valve 5. The float 6 in the lower chamber 3 lowers when the fuel escapes to the carburetor and lifts out of the upper measuring chamber 4 when this chamber is filled. This lifting and lowering is used to regulate the inlet for the fuel into the upper chamber 4. To this Purposes, the float 6 is articulated on one arm of a horizontal lever 7, which is pivotably mounted on a holder 8 and the other arm of which is articulated to the lower end of a vertical connecting rod t '9 , which is connected by one of the upper measuring chamber 4 chamber separated by a vertical wall is guided upwards. The upper end of this rod is connected to one end of a link 27, the other end of which is articulated on the lid of the measuring container. This link has a stop pin 28 which acts on a spring-action pawl 29 which is attached to a two-armed lever ii, the nose 13 of which acts on the lug 14 to open the valve 5. Before the filling of the measuring chamber begins, the lever i i has the position shown in Fig. I, directed through the stop 30 , and the pawl 29 is arranged so that, when it is hit from below by the pin 28, the right arm of the lever ii is raised, whereby the valve 5 opens (Fig.2). When the float 6 descends further, the pin 28 is released from the pawl 29 and the lever ii is held in the position of Fig. 2 with the valve 5 open. The upper chamber 4 is thus filled and the float 18 in the measuring chamber rises. This swimmer hits the left tail end of the lever ii and lifts it. The nose 13 swings below the lever 14 so that the latter can swing downwards and the valve 5 can be closed by a spring (Fig. I). The valve 5 closes at the same instant when the siphoning action of the lever 17 begins when the liquid level in the measuring chamber which determines the measuring unit is reached, so that after emptying the measuring chamber no more liquid enters the measuring chamber, regardless of whether it rises again of the lower float 6. When the float 6 is lifted, the connecting rod 9 is pulled downwards, and. the pin 28 meets the pawl 29, so that this swing and the pin behind it can snap, whereupon it can. Emptying the pantry repeats the game.

The float 18 has a central opening with a pin 2o, which leads in a steep screw slot of a vertical shaft 21, which is rotatably mounted above and below, so that it is when lifting and lowering the float is set in rotation. The top of this shaft carries outside the chamber 4 a gear 22, which drives a pointer, which is in a housing 23 housed dial moves. A switching mechanism is arranged such that the pointer is only switched forward when the float is lowered, but when Lifting the float is not affected. The dial shows the consumption in liters or some other unit of measure.

In Fig. 3, instead of the float 18 or apart from this float, which acts on the lever i i to close the inlet valve, a special one Float 31 is provided in the upper chamber for this purpose. This swimmer works on the tail end of the lever i i .ein.

In Fig. 4 and 5, instead of the siphon pipes for draining the liquid from the top. a valve is provided in the lower chamber. The top of the connecting rod 9 is connected to one end of a link 27 with its other end is articulated on a holder. A pin 28 of this link 27 acts on a swingable pawl 29 on an arm 32, the uni with its other end a horizontal pin can swing around which another arm 33 swings, its forked end acts on a collar 34 on a vertical rod 35 which is at the top of the Inlet valve 5 and at the lower end an outlet valve 36 carries. The latter regulates the passage of the liquid to the lower storage chamber. That is a valve open when the other valve is closed. The two arms 32 and 33 are connected by a helical tension spring37 which, when the inlet valve and occurs when the float 6 is raised under the pivot of the arms 32 and 33 and thereby keep the inlet valve closed and the outlet valve open (Fig.4). When lowering of the float 6, the pin 28 hits the pawl 29 and lifts the arm 32 until the spring 37 is moved beyond the center, whereupon it moves onto the other arm 33 acts to raise it and quickly open the inlet valve and the outlet valve to close (Fig.5). The upper chamber 4 is thus filled, and the float 18 or a separate float rises until he is on the one arm of a lever 38 hits and this lifts while the other is depressed, one up this attached pin 39 presses down on the arm 32 until the spring 37 goes down over the middle, whereupon it acts on the arm 33, this moves down and the inlet valve closes and the outlet valve opens (Fig.4), so that the upper chamber 4 releases its contents into the lower chamber 3. The swimmer 6 then rises so that the pin 28 goes down and snaps behind the pawl 29. When the liquid is withdrawn from the lower chamber, the float descends 6 and lifts the pin 28, which in turn lifts the arm carrying the pawl and that The inlet valve opens and the outlet valve closes.

The float in the upper chamber can control the registration either when lifting or when lowering.

Claims (6)

PATrt-x, T-CLAIMR: i. Liquid meter with an upper measuring chamber and a lower storage chamber, in which the flow to the measuring chamber when sinking mediating inlet valve opening float, characterized in that one in the measuring chamber (4) which switches the counter in a manner known per se Float (18) also - is used to reach the inlet valve (5) independent of the liquid level in the measuring chamber (4) which determines the measuring unit to close from the rising of the float (6) of the storage chamber (3). 2. Device according to claim i, characterized in that the outflow from the measuring chamber (4.) into the storage chamber (3) in a known manner by means of a lifter (17). 3. Apparatus according to claim i, characterized in that the drain through a together with the inlet valve (5) and the outlet valve controlled by the same means (36) takes place. ¢. Device according to claim i, characterized in that the control of the inlet valve (5) by means of a lever (i i), which is activated when the float sinks (6) in a certain lowest position through this in the position that opens the valve (5) set and by the float (18) regardless of the position of the float (6) is returned to the closed position. 5. Apparatus according to claim 4, characterized by a resilient pawl (29) arranged on the lever (i i) which cooperates with a stop pin (28) on a handlebar (27) moved by the float (6). 6. Apparatus according to claim 3, characterized in that the control of the in otherwise known manner on a common spindle attached valves for supply and drain (5 and 36) by means of tilting clamping mechanisms (32, 33, 35) in conjunction with a resilient blinker (29) according to claim 5 when opening the Inlet valve (5) through a handlebar (27) and connected to the float (6) when closing the valve (5) by a lever raised by the float (18) (38) takes place.