DE508883C - Automatic tap control for two-chamber suction air fluid lifters - Google Patents

Description

The invention relates to an automatic faucet control for two-chamber Saugluftflüssigkeitsheber, namely the alternate connection of each water chamber is made by a tap, which is adjusted automatically in response to the water level in the chambers with b common to the two chambers of the vacuum space. This goal is achieved in that

ίο one float in each of the water chambers twists a disc by means of a pull cord, which in a known manner by means of a pin a weight-loaded rocker arm takes with it, which falls around when crossing the vertical position and a lever swings out, which moves the control valve.

The drawing represents an embodiment of the invention .dar. Fig. 1 is a longitudinal section through a control valve which can be rotated step by step by any drive device. Fig. 2 and 3 are cross-sections along the lines yy and 8-8 in Fig. 1. Figs. 4 and 5 show an adjustment of the control valve operated by a pull cord and float.

The water chambers s and 6, partially indicated in Fig. 4, are, as is customary with suction air liquid siphons, arranged at a considerable distance above the amount of liquid to be sucked in. The containers 5 and 6 are connected to the container of the liquid to be conveyed by long suction lines, not shown, and are provided with outlet valves, also not shown. So that the liquid rises up in the suction lines and reaches the containers 5 and 6, a negative pressure must be created in the same. For this purpose, special suction pipes 93 and 94 are connected to each upper part of the water chambers 5 and 6. The lower ends of the suction lines 93 and 94 are screwed into a common tap housing 95, which contains channels 96 and 97, which are alternately brought through the tap 96 'in connection with another channel 92, which by means of a line 91 to some vacuum source, e.g. . B. a constantly working suction pump is connected. The chicks 96 'is provided with two through to 90 ⁰ staggered channels r04 and 105, of which the one,

104, with the channel 96 and the other,

105, with which channel 97 can be brought into overlap. The channel 92 extends in the longitudinal direction of the tap housing 95 and lies diametrically opposite the channels 96 and 97. This channel 92 is alternately connected to either of the two lines 93 and 94 through the plug channels 104 and 105, with the plug being rotated step-by-step by ρ ₀ 9o "each, so that a container 5 or 6 is evacuated in each case. The upper one, into the container S, 6 protruding ends of the lines 93 and 94 are provided with g _s check valves which prevent the entry of liquid into the lines when the containers are filled

can be seen particularly from Fig. 2 and 3, the plug housing is provided with two standing with the outside air in connecting channels 98 and 99 which are added at 90 ⁰ to the channels 96 and are 97th Diametrically opposite these channels 98 and 99 are located in the interior of the housing 95 recesses 100 and 101, from the bottom of which arc-shaped channels 102 and 103 lead to the channels 96 and 97 ίο. It is brought in this manner every time of rotation of the plug 96 '90 ⁰ closed off from the vacuum tank 5 or 6 with the outside air, while at the same time under atmospheric pressure vessel is connected to the vacuum line.

The control valve shown in Fig. 1 can be gradually depending rotated 90 ⁰ by any drive device. In Fig. 4 and 5 a particularly advantageous embodiment of this drive device is shown. The plug 106 rotates in a housing between two bearing blocks 107 and 108, in each of which a shaft 109 with a cord pulley 11 o is mounted. These disks 110 are each provided with two circumferential grooves 111, 112 and a driver pin 113, which comes into engagement with a loose, weight-loaded rocker arm 115 which falls over when its vertical position is exceeded and strikes against a lever 114 which moves the control valve. The plug 106 is provided at each of the two ends protruding from the housing with a washer 80 on which two diametrically opposed lugs 82 sit, which alternately come into engagement with the levers 114, whereby the plug is rotated 90 ° each time. The cord H 6 of each disk lying in the groove 112 goes up into the associated container 5 or 6, where a float arranged on it is taken upwards with the rise of the liquid level so that the cord disk rotates. In order to wind up the cord 116 safely on its pulley when the liquid level falls, a cord 118 is arranged in the other groove in each disk and engages a spring so that when the container in question is emptied, the disk moves in the opposite direction turns. The dimensions are such that each cord pulls one complete turn of the disk in one direction or the other. brings about.

To start the automatic control one of the containers 5 or 6 is first made evacuated by the riser leading to the liquid to be lifted, not shown, is shut off while the plug 96 'or 106 is adjusted so that the vacuum source with the suction line 93 or 94 in connection. The other container 6 or 5 is under atmospheric pressure. As soon as there is a sufficient negative pressure in the container to be filled, the riser of the same is opened so that the liquid flows into the container. In this case, the float 117 rises with the liquid level, and the associated hearing cord pulley is ο 11 is rotated, so that ', when the float has reached approximately the height shown in Fig. 4 in the tank 5, and the plug is rotated by 90 ^0th As a result, the container 5 comes under atmospheric pressure, whereby the outlet valve of the container is usually opened. At the same time, liquid flows into the container 6, the float 117 rises in this container, while the float in the container 5 falls as a result of the outflow of liquid. When the container 6 is almost full, the chick is automatically rotated by 90 ⁰ again, and the same game is repeated.

Claims (1)

Claim: Automatic tap control for two-chamber suction air liquid lifters, thereby characterized in that a float (117) in each of the suction chambers (5, 6) by means of a pull cord (116) a disk (no) is twisted, which in known Way by means of a pin (113) a weight-loaded rocker arm (115) takes with it, which falls over when the vertical position is exceeded and swings out a lever (114) that controls the control valve (96 ', 106). 1 sheet of drawings