DE598280C - Automatic measuring device for liquid quantities to be set on a graduated disk - Google Patents

Description

Automatic measuring device for the amount of liquid to be set on a graduated disk The invention relates to an automatic measuring apparatus for a graduated disk Liquid quantities to be set, for which a spring-loaded rotatable switching element that causes the filling and emptying of measuring vessels and Locking devices of the organ are provided in its limit positions. she consists in the fact that the switching element is a cylindrical, gradually always in the same Direction of rotating and axially displaceable four-way valve is on its axis all to lock its end positions and to limit the adjustment range serving organs are arranged and at the end of the chick the fluid pressure of the The supply line always has access for the purpose of locking the tap when not in use Loosen the coupling due to the dynamic pressure that occurs after each filling of a measuring vessel to be able to.

The known measuring devices of this type lacked a simple, Training that takes up little space. Conical diverter cocks were partly connected Proposed with controlled slides, lever arrangements partly controlled by pistons or derailleurs with anchor escapement, so that because of the multitude of parts used the apparatus in question is not only bulky, but also costly in terms of size their manufacture. The switching device according to the present invention is combined now all improvements in as compact a form as possible and with few individual parts on such apparatus in itself. This is made possible by the fact that the switching element has a cylindrical shape, so that it is through the at the end of the filling period of the measuring vessels occurring YYoverpressure can be shifted axially.

The drawing shows an exemplary embodiment of the invention shown. Fig. I shows a longitudinal section of the measuring apparatus.

Fig. 2 shows a view of the measuring apparatus from the front.

3 shows a cross section through the switching element.

Fig. Q. Figure 3 shows a view of the plate on which the drive levers are mounted to the register.

The measuring apparatus consists mainly of a main housing i, in which a cylindrical four-way valve is installed as a switching element 2. - On the The main housing i is the measuring cylinder 3 with the cover q. and fastened the screws 5. In the measuring cylinder 3, the piston 6 is arranged to be freely movable and divides the measuring cylinder 3 in two measuring chambers 7 and B. The connecting pipe g connects the upper measuring chamber 7th with the main body i. The purpose of the adjusting screw 4.ü is to increase the stroke of the piston 6 and thereby regulate the exact content of a measurement. The switching device 2 carries a locking piece io at its rear end, which is inserted into the counterpart i i intervenes. The same is firmly pressed into the flange 12, which in turn with your Main housing i is firmly screwed. A locking piston 13 is located in the switchover element 2 Slidably arranged and is turned by wedges 1 ¢ to the switching element 2 secured.

The spring 15 presses the locking piston 13 against the locking teeth 21 of the winding axle 22 and at the same time presses the switching element 2 or the locking piece io into the counterpart i i. The ratchet wheel 16 is firmly connected to your switching element. The lug 17 of the lever 18 engages the ratchet wheel 16 and operates the counter i 9 of the counter 2o. The locking piston 13 engages in the locking teeth 21 of the spring winding axle 22, which can be rotated by means of the handle 23. The spring housing 26 is pressed in between the plates 24 and 25 by means of the screws 28. In the spring housing 26, the file 27 is installed, which is firmly connected on the outside to the housing and is drawn on the inside by the winding axis 22. - The two plates 24 and 25 are firmly screwed to the main housing i by means of screws 29. On the spring lift acbse 22 there are two locking disks 30 and 31 in which the pawls 32 and 33 engage. The pawl 32 rotates around the pin 34 and is pressed against the locking disk 30 by the spring 35. The spring 35 is suspended in the bolt 36, which is firmly connected to the plate 25. The pawl 33 is rotatably mounted on the pin 37; the spring 38 tries to press the pawl 33 against the locking disk 31. The spring 30 is hooked into the bolt 39, which is connected to the lever i8, and thus pulls the nose 17 onto the ratchet wheel 16. The liquid is discharged through the outlet piece 4.o, which is screwed into the main housing i. The valve guide 4.1 is screwed to the outlet piece 40. The valve 42 runs in the valve guide and is pressed against the valve seat 44 by the spring 4.3.

The device works as follows: The liquid flows under pressure through inlet 45 of main body i and through duct: 1 .6 in the channel 47 of the switching element 2, from there into the channel 48 and through the connecting pipe 9 in the upper measuring chamber 7 and presses on the piston 6, the same in turn on the Liquid of the lower measuring chamber 8, which through the channel 49 in the channel 5o and from there flows into the outlet channel 51, then through the slots 52 of the outlet piece 40 to press the valve 4.2, which is lifted from the seat, so that liquid can flow out. As soon as the piston hits the pin 53 at the bottom, it closes Valve 42 again and on: the liquid still remaining in the channels continues to flow will be prevented. When the piston hits its lowest or in its The topmost position is caused by the involuntary pumping of liquid an overpressure which propagates through the channel 54 in the associated measuring chamber and acts on the switching element 2. As a result, the switching element 2 moves axially shifted forward, the teeth of the locking piece io disengage the teeth of the Counterpart i i, and the spring 27 can effect the switching. Do you want liquid Remove from the apparatus, so you turn the handle 23 clockwise the desired amount of liquid to be withdrawn on the dial 55. This the spring 27 is pulled up. The elevator happens independently of the switching device 2, since the locking piston 13 can recede into the switching element: 2, with the crooked Surfaces of the teeth 2i slide over the teeth 13. The wound spring 27 has now the endeavor to turn the winding axis 2ä back counter-clockwise, in order to take along the locking piston 13 and thereby the switching element 2 at the same time. That Rotation of the switching element 2 is but io and through the ratchet teeth of the locking piece of the counterpart i i prevented as long as the ratchet teeth of the piece io and i i interlock. When the piston hits its end position, as already described, the Switching element moved forward, and the teeth of the locking piece io and counterpart i i disengage as a result, and the switching element can rotate.

The turning of the switching element 2 by 90 ° connects the channel 48 through the I <a.-nal 47 with the channel 51, so that the filled vessel can now drain and the drained vessel can fill again, since the channel 46 passes through the channel 5o is connected to channel 49. At the moment when the inlet channel comes back into contact with the measuring chamber to be filled, the pressure in the inlet channel or in channel 54 drops. As a result, the switching element 2 is pushed back again by the spring 15, and the teeth of the locking piece io and the counterpart ii go into each other again, and the switching element stops again until the next piston end position. The pawl io is designed with four ratchet teeth corresponding to the angle of rotation of the switching element, so that a rotation makes 9o °. So that the spring can turn back only one turn or only 360 °, the pawl 32 is provided, which engages in the locking disk 30 so that the switching element can no longer turn to the zero position when the measuring chamber is full. However, so that the fresh setting can only be made by 360 °, the pawl 33 is provided, which acts on the locking disk 31. The registration of the measured units is done by the counter? O, in such a way that when the ratchet wheel 16 is rotated, the lever 18 swings about the pin 56 in order to actuate the counter lever ig.

Claims (2)

PATEN'1'ANSPILI, UII1 :: i. Automatic measuring device for on a graduated disk The amount of liquid to be set, for which a spring action rotatable switching element that causes the filling and emptying of measuring vessels and Locking devices of the organ are provided in its limit positions, thereby characterized in that the switching element is a cylindrical, stepwise always in the same Direction under spring action rotating and axially displaceable four-way valve is on whose axis all to lock its end positions and to limit Its adjustment range serving organs are arranged, with the when not in use locked cock after each completed measurement due to the back pressure that occurs to solve the axial displacement of the cock by one the supply line with one Chick end connecting channel is enabled. 2. Measuring apparatus according to Claimi, characterized characterized in that the four-way valve consists of three coaxially arranged parts, namely the through channels (q.7, 5o) containing the chick (2) on his the end exposed to the liquid pressure of the supply line through a branch channel (5q.) a ratchet clutch corresponding to the quarter-turn increments (io, ii) has and at its other end a ratchet wheel (16) for the counter (i9, 2o) and has a recess for the second part, the latter as a spring-loaded one (15) more displaceable, serving as a tooth coupling member with the third part (21) and pistons (13, 1q.) participating in the rotary movements of the tap body are formed is, while this third part is the adjustment handle (23) carrying and through this tensioned barrel shaft (22, 26, 27), which with the necessary fuses (30, 31, 32, 33) of the limit position and the setting range for the tap is.