DE813603C - Device for measuring an arbitrary number of equal volumes of bulk material - Google Patents

Description

Device for measuring an arbitrary number of the same size Volume of bulk material never invention relates to a device for automatic Measuring an arbitrary number of equal volumes of bulk material, consisting of from a measuring container with upper and lower closure organs, means for alternating Opening and closing of these organs and organs for adjusting the movement and this Middle.

It is known to l) provide adjusting devices in such devices, which make it possible to use the devices in advance to automatically measure a set any number of volumes. l3ei the previously known devices these organs are releasably coupled to the movement mechanism of the arrangement. One Such a releasable coupling does not prevent any manual intervention during of the operation of the device.

The l) el'Ii0iiteii devices are also such that the measuring begins before the setting is completely finished. This disadvantage has the consequence that it is difficult or impossible to correct incorrect settings. at the known devices are the closure organs by means of a system moved by rods, and this entails that it is difficult to operate the device a compact construction that takes up little space and is encapsulated can give.

According to the present invention, these disadvantages are overcome by that the means for moving the closure members inextricably linked to an adjustable switch or clutch mechanism for the drive motor of the mentioned moving means of Closure organs are coupled. This measure prevents any manual intervention, after the device only starts to measure a certain number of volumes is set.

It is also possible to pre-set the setting. gain weight, before the device is put into operation. If every occluder with a Lever is provided, which is moved by means of a control, can further according to the Invention, the free end of the lever of the two locking organs in a common rotating control are guided by means of a translation to the switch or clutch mechanism is coupled. This common rotating control enables a close assembly of the individual components of the device and at the same time causes that the movement of one closure member inextricably follows the movement of the other, as well as the two closure members in a simple manner to the adjustment members of the Device are coupled. The compact form without systems of moving bars is important for devices of this type, as the space available under silos or containers where the devices are attached, usually proportionate are limited. In addition, there is often a certain amount of dust formation at such locations instead, which is why it is important to encapsulate the bearings, etc. of the device to protect.

According to the invention, the switch or clutch mechanism can be made consist of an organ which is inextricably coupled to the drive means of the closure organs is, and from another organ that is coupled together with the first-mentioned organ and in relation to this it can be set which other organ is responsible for the Action on a switch of the drive motor is set up. This will achieved that the adjustment can be made without the device is started, and it is therefore very easy to correct any incorrect settings to correct. It is also possible for the operator to step forward to monitor the measurement and the necessary events in connection with the To remove the measured volumes, etc. The adjustable organ of the Switch can be set up according to the invention so that it is manual in relation can be rotated to the permanently coupled organ. The attitude therefore demands very little effort, and the parts to be adjusted do not need for simultaneous Coupling the movement of the device to be dimensioned.

Are the closure organs of the device as segment-shaped plates formed, it is advantageous according to the invention, these plates with projections to provide that in the outer position of the panels on movable flaps of the lower Part of the walls of the material hopper act. It is thereby achieved that bridging or other blockages in the outlet of the material supply container be avoided.

To explain the invention in more detail, reference is made to the drawing.

Fig. I shows a schematic section through an apparatus according to the invention; Fig. 2 shows the corresponding control device and the coupling between this device and the apparatus shown in Fig. I; Fig. 3 shows the control device according to Fig. 2 seen from the front in the direction of the arrow III-III.

In Fig. I, I is a measuring container that is open at the top and bottom. 2 are gaps in the walls of the measuring container, whereby segment-shaped plates 3, 4, 5 and 6 are performed. Each of these segment-shaped plates is on one End of a lever 7 attached. At the other end, each lever 7 is rotatable on one Journal 8 supported and firmly connected to a gear g. The lever 7 each segment-shaped Plate 3 and 6 is also firmly connected to a lever IO, its free At the end of a roller 11 which is driven by a controller 12. This control is attached to a gear I3, which is from a gear 14 on a rotatable Shaft 15 is driven. The gear I3 is attached so that it is a Pin I6 rotates. On the shaft 15, a worm wheel 17 is attached, which of a Worm I8 is driven on a rotatable shaft 19, which shaft 19 is a V-belt pulley 20 wears.

The latter is by means of a V-belt drive 21 with another V-belt pulley 22 connected to the shaft of an electric motor 23. Above A material supply container 24 is attached to the container I. The walls of this container are designed as flaps 25 at the bottom, which are rotatably attached to pins 26. Each flap rests against springs 27. Each of the segment-shaped plates 3 and 4 is provided with hooks 28. When these panels open up, every hook becomes against that out the lower end of a flap 25, which is thereby moved outward against the Pressure of the springs 27. This movement creates a possible material bridge that is formed in the outlet of the container 24, collapse.

In Fig. 2, a gear wheel is mounted on the shaft I6, which the gear I3 carries with the controller I2. The gear 30 meshes with a gear 3I on a shaft 32, the other end of which is provided with a conical gear 33 is. This gear is in engagement with a conical gear 34 on a shaft 35, which shaft is provided with a worm 36 which drives a worm wheel 37. This worm wheel is attached to a shaft 38, whereupon also a clutch disc 40 is attached. A scale 39 is attached to the housing of the worm transmission, while a pointer 41 is attached to a handle 43 that wraps around the shaft 38 can turn. The handle 43 is provided with a bore 46 in which a spring 45 is inserted, which at one end rests against a nut 44 on the shaft 38. The pointer 41 is provided with a cam 42, whereby the pointer to the clutch disc 40 can be coupled and is thereby forced to follow the shaft 38.

Furthermore, the pointer 41 is provided with a projection 47 in the Zero position of the pointer (Fig. 39 hits a contact lever 48 of a switch 49, which switches off the current to motor 23 (Fig. I) through lines 50. To the one end a counter (not shown) is coupled to shaft 35 (Fig. 2), that counts the total number of revolutions of the wave.

The apparatus works as follows: The pointer 41 is on the scale 39 set to the number of equally large volumes that mali wants to messeil.

This setting is done by pulling the handle 43 outward is, after which the pointer 41 is shown from the zero position, which is dotted in Fig. 3 is rotated to the desired point on the scale, e.g. 13. the body that is indicated in Fig. 3 by the fully extended pointer. In this position the cam 42 on the pointer is brought into engagement with the clutch disc 40 and will then rotate with shaft 38. until he has the one shown in Fig. 3 dotted Zero position reached. where the projection 47 presses on the contact lever 48, whereby the switch turns off the power to the motor 23 23 and in this way the apparatus turns off. The shutdown occurs when the number of volumes is indicated by the pointer 41 is set, is measured, since the worm gear ratio 36, 37 and tlie gear ratiosullgell 33, 34 and 30, 31 are adjusted so that this is the case. The total number the measured volume is counted by the counter driven by the shaft 35. During the Ausniessulig the desired volume, the pointer 41 is against move the zero position in the direction. tlie with the feil on the pointer Fig. 3 is indicated. As in Al> l). I, the gear 13 is from the engine 13 through the V-belt drive 20 l, is 22 and the worm gear units 17, IS and the toothed gear 14 moves.

If the controller 12 is with the gear 13 in the with the i> feil In the direction shown in Fig. 1, rolls 1 1 depending on the shape of the Control 12 against the vertical plane of symmetry of the apparatus o (ler away from it driven, and so the two levers 10 are firmly connected to the II levers 7 and tlen toothed belts g turn around the corresponding pins S. Consequently verden both the segment-shaped plates 3 and 6 as also the segment-shaped ones Plates 4 and 5 moved because the gear wheels 9 of the plates 3 and 6 in the Zahnriitlcr 9 of the plates 4 and 5 engage and drive them. 1) ie in \ bl). 1 shown With the 1 turning direction shown, the position corresponds to an imminent one Emptying of the filled measuring container 1, since the oil 1 11 of the lower segment-shaped Plates is moved inward, whereby these plates 5 and 6 are opened. the Roll 11 of the segment-shaped plates 3 and 4 is not moved days because of the Part of the control 12 which is rotated against this roller, like one with the shaft I6 concentric groove is designed. The segment-shaped plates 3 and 4 remained. as can be seen from the form of the control, during opening and the following Closing the plates 5 and 6 closed, d. H. during a rotation of 1800 control I2 from the position shown in fig. During the following further rotation of 180 °, the segment-shaped plates 3 and 4 open first (See the dotted position 29 of the plate 3) and then close again the filling of the container 1, while the segment-shaped plates 5 and 6 during remain closed to this operation. Then the position shown in Fig. 1 is reached again, and the working long is repeated.

Claims (5)

PATENT CLAIMS: I. Device for automatically measuring a arbitrary number of equal volumes full of bulk material, consisting of a measuring container with upper and lower locking organs, means for alternating opening and closing of these organs and from organs to cease the movement of these means, thereby characterized in that the means mentioned are inextricably linked to an adjustable switch or clutch mechanism for the drive motor of the mentioned moving means of Closure organs are coupled. 2. Apparatus according to claim I, wherein each closure member with one Lever is provided which is moved by means of a control, characterized in that that the free end of the lever of the two locking organs in a common rotating Control is performed by means of a translation to the switch or clutch mechanism is coupled. 3. Apparatus according to claim I and 2, characterized in that the switch or clutch mechanism consists of an organ that cannot be released the drive means of the closure members is coupled, and another member that coupled with the first-mentioned body and adjusted in relation to it can be what other organ for acting on a switch of the drive motor is set up. 4. Apparatus according to claim 3, characterized in that the adjustable Organ of the switch or the clutch mechanism is set up so that it is in Relation to the inseparably coupled organ of the mechanism mentioned can be rotated can. 5. Apparatus according to claim I to 4, wherein the closure members from segment-shaped plates, characterized in that the upper plates are provided with projections that are movable in the outer position of the plates Flaps the lower part of the walls of the material hopper act.