DE1263431B - Automatic device for actuating a valve at intervals - Google Patents

Description

Automatic device for actuating a valve in time Distances The invention relates to an automatic device for actuating a Valve at time intervals, with gears that are driven by a motor in a Mesh with the pinion.

For dispensing medication, insecticides, incense, etc. in a closed room was used manually or powered Spray devices, evaporators or the like. However, these older methods have disadvantages. Often all of the material that is to be distributed is dispensed at the same time, so that it becomes impossible to maintain a constant level since if that Once material was handed in, the level immediately began to drop. Furthermore it is in devices for continuous delivery, e.g. B. with evaporators, impossible to have one Correspondingly high content of drugs or the like. To be maintained without must be constantly refilled.

By using pressure vessels where the contents are under Gas pressure is maintained, the desired material can periodically dispensed in vapor form will. However, such a pressure vessel can only be operated by hand.

There are also known automatic devices that, however Use gears with several gear ratios and therefore have a complicated structure and are expensive.

These disadvantages are avoided according to the invention in that the pinion meshes with two gears that have different numbers of teeth and which are arranged in parallel planes and rotate about a common axis; that further a cam for actuating the valve is pivotable on one of the two Gears is attached to the side facing the interior of the two gears and that a pin is attached to the inner surface of the other gear, which at Rotation of the two gears in the same direction, but different speed, meets the pivoting cam and pushes it outwards.

An exemplary embodiment of the invention is now referred to described on the drawing, in the F i g. 1 is a front view of the invention Device represents; F i g. Figure 2 is a section on line 2-2 of Figure 1; F. i g. 3 shows the lower surface of the upper gear; F i g. 4 shows the upper one Area of the lower gear.

A power drive 19 is equipped with a drive shaft 21 which leads down through an opening in the holding plate 18 and the lowest. end is connected to a pinion 23 which is located in a parallel to the holding plate 18 Plane rotates. A fixed shaft 24 is attached to the connecting plate 80 and leads down from it and runs parallel to and at a distance from the drive shaft 21 and serves as a means of holding two horizontally lying, in vertical one Distance between bearing wheels arranged from one another. The fixed shaft 24 has a pivot bearing 25 equipped with one. upper gear wheel 26 and a lower gear wheel 27 are arranged for rotation at a small vertical distance. The top and lower gear wheels 26 and 27 are arranged with respect to the pinion 23 on the shaft 24, that by rotation of the pinion 23 simultaneously the upper gear 26 and the lower gear 27 can be rotated.

The upper and lower gears 26 and 27 are formed and arranged that with a rotation of each wheel by means of the pinion 23 a Actuation of the dispensing valve V of the pressure vessel C for a period of 2 to 3 seconds every 15 minutes. So that this desired temporal Relationship is achieved have the upper gear 26 and the lower gear 27 have the same diameter, but each wheel has a different number of teeth. This will achieved that the wheels 26 and 27 act so that a Wheel spins faster than the other, creating a speed difference between the two gears is generated. In this embodiment, the top wheel is 26 equipped with 64 teeth, while the lower gear wheel 27 has 60 teeth. There both wheels are driven by the pinion 23 of the drive shaft 21, so shifts one wheel relative to the other. This arrangement causes certain Teeth of the two gears each after 16 revolutions of the upper gear wheel 26 coincide, which has 64 teeth, the coincidence at a predetermined Digit occurs: In fact, the corresponding digits fall with each revolution together, however, this has no effect until the coincidence starts the predetermined point takes place, the valve V is then actuated, which in each case the fall is once after 16 revolutions of the upper gear wheel 26. -The number of the teeth on the gears 26 and 27 can be from the examples selected above be different from 64 and 60, since the same or corresponding temporal relationships can also be achieved with other numbers of teeth, as long as there is a numerical difference between the number of teeth on the two wheels.

So that the desired speed difference between the gear wheels 26 and 27 can be used - to -den- valve stem V in the desired time Operate relationship is a cam arrangement between the transmission differential so provided that when the corresponding teeth of two gears intervene or collapse at the predetermined location; one valve = actuator is put into action; to push against the valve stem V to open the valve to open the pressure vessel C so that steam escapes from it for a short time. To achieve this, the upper gear wheel 26 is provided with a downwardly leading, fixed pin or shaft 28 provided just before the upper surface of the lower Gear 2'7 ends. The upper surface of the lower gear 27 is provided with a Cam member 29 is provided which is pivotable on the upper surface of the lower gear 27 is attached. The cam member 29 is arranged so that it periodically in the Pin 28 of upper gear 26 engages during rotation of the gears and so is pushed outwards.

In order to utilize the cam action of the cam member 29 to open the valve of the container C, an operating lever 30 is pivotally attached to the lower surface of the holding plate 18 by means of an attachment shaft 31 so that it is rotatable relative thereto. The fastening shaft 31 is arranged at a distance from the fixed fastening shaft 24 of the gear wheels 26 and 27 and thus forms an angle of approximately 45 °. The actuating lever 30 is provided opposite its pivot point and at its free end with a recess 32 which fits around the vertically arranged valve stem V of the pressure vessel-C and which is movable in a horizontal plane which is approximately at right angles to the plane of the valve member V forms. The actuating lever 30 has an outwardly leading projection 33 which leads inward between the upper and lower gearwheels 26 and 27, respectively. In the event of an outwardly occurring cam action of the cam member 29 as a result of its engagement with the shaft 28 at the predetermined point, the cam drives the actuating lever 30 outward against the valve stem V and opens the valve of the pressure vessel so that steam can escape therefrom. When the cam member 29 moves inwardly as a result of the movement of the gears 26 and 27, the cam action is canceled, which results in actuation of the lever 30 inwardly or away from the valve stem V, whereby the valve stem returns to its normal vertical position and thereby the valve of the pressure vessel is closed.

Claims (1)

Patent claim: Automatic device for actuating a valve at time intervals, with gear wheels which mesh with a pinion driven by a motor, characterized in that the pinion (23) meshes with two gear wheels. stands, which have different numbers of teeth and which are arranged in parallel planes and rotate about a common axis; that furthermore a cam (29) for actuating the valve is pivotably attached to one of the two gears on the side facing the interior of the two gears; and that on the inner surface of the other gear, a pin (28) is attached which, when the two gearwheels rotate in the same direction but at different speeds, hits the pivotable cam and presses it outward. Documents considered: German Auslegeschrift No. 1125 225; U.S. Patent Nos. 2,613,108, 2 971382, 3018056.