DE1431767C3 - Method for the requirement of cylindri cal objects with the help of a compressed air delivery line - Google Patents

Description

35

The invention relates to a method for conveying cylindrical objects with the aid of a Compressed air delivery line, at the end of which the objects are braked and then up to Form a queue at the end of the line, with the objects emerging from the end of the line from a transverse conveying device can be moved further with constant orientation and with control means are provided, which are used to switch the supply and discharge on and off as well as the drive the cross conveyor as long as the queue exceeds a certain minimum length.

A well-known process of this type (German patent specification 1 160 793) is used to supply compressed air to cylindrical carbon film resistors.

The object of the present invention is an application of the known method to the promotion of filter plugs for cigarettes therein, that the supply of the filter plugs to a buffer store connected upstream of a processing machine should be controlled by the fill level of this buffer tank, whereby the filler plug when interrupted the supply in the line should be slowed down in such a way that, on the one hand, damage to the filaments and on the other hand, a delay in restarting the production is avoided.

In a method of the type mentioned at the outset, this object is achieved according to the invention in the manner solved that to apply the method to Filerpl'ropfen the filler plugs are braked pneumatically before the end of the compressed air supply line, that the filter plugs from the cross conveyor into one of a cigarette making machine upstream buffer storage are pushed that the line per unit of time more filters are supplied than are consumed from the buffer memory that the supply to the line at a predetermined low level of the buffer memory and at a predetermined high level Level is switched off and that the cross conveyor device more filter plugs per unit of time promotes than are fed to the line.

The delivery of filter plugs from the queue is interrupted and resumed, while the supply to the compressed air delivery line continues. The release of filter plugs continues Interruption of the supply to the conveying line until the queue falls below a specified minimum length.

The pneumatic brake advantageously ensures that the filter plugs do not run at full speed hit static filter plugs, i.e. do not get damaged.

Another advantage of the invention is that (, the supply to the compressed air delivery line is controlled by the level of the buffer tank.

Another advantage is that the transverse conveyor device has more filter plugs per unit of time promotes than are fed to the line. As a result, in contrast to the previously known Procedure special precautions superfluous to the promotion at the input end of the line if necessary to interrupt. In particular, there is no need to reverse the direction of flow of the compressed air, as a result of which Delays are avoided.

In the South African patent application 64/2210, laid out on December 30, 1964, a pneumatic conveying method is proposed in which objects are continuously dispatched, conveyed, brought to rest and dispensed from a rested line, whereupon the dispensed objects are stored and the stored objects are consumed are, dispatch is periodically interrupted when the stored amount ER- a predetermined higher level C is sufficient, the sending is resumed when the stored amount reaches a predetermined low level, and placed either per unit of time or quantity controlled ausgebene is that the amount sent per unit of time is greater than the amount output per unit of time and this again is greater than the known amount consumed per unit of time.

In contrast to this, according to the invention, the amount sent or dispensed per unit of time is controlled in such a way that the amount sent is greater than the amount consumed and the amount issued Quantity greater than the quantity sent.

Furthermore, after the. Invention (in accordance with the first mentioned prior publication) the items are only handed over if the queue exceeds a certain minimum length.

An embodiment of the invention is on Hand of the drawings further described. In it shows

1 schematically shows the arrangement of a system according to the invention.

f "\ g. 2 partially in section the end of the pipe line <> in an assumption according to FIG. 1.

3 4

Fig. 3 shows a section along the line 3-3 in Fig. 2 of the light barrier 17 causes an adjustment and

and a signal from the light barrier 16 to turn off.

F i g. 4 on a larger scale part of the In operation is the amount of filter plugs, Fig.3. what the facility? The system is only shown schematically per unit of time in the line, which is larger than the amount in which the various parts of the system can take on the most varied of filter-like shapes delivered by the memory 10. plug are consumed. Therefore, if the memory is The system shown has been loaded for the case of a cigarette production machine, the device sends 7 filter plugs per time production machine from a room in which the filter is larger in quantity than the amount that is produced or stored and that, for example, in which the filter plug is 150 m away from the machine per unit of time from the machine, are consumed with the tape-making machine. The plug is to be charged. . The speed of the motor 13 is selected in such a way that the filter plugs are removed individually one after the other into the feed container holder 5 one after the other and pushed into the one that is larger than the amount in which the fiI inlet of a pneumatic pipeline 6 is sent in plugged in per unit of time leads. The facility? The removal device only works with the fluted side valve or an engaged clutch 14, ie when the tube is provided with the fluted drum or a fluted air barrier .15 up to the point be the vane air lock. The dispatch is filled by, on which the light barrier 15 is arranged, a suitable switch-on and switch-off device 8 is controlled. is. Now you can see the reason for the delay. The pipe 6 can extend over any suitable length of 100 ms: The coupling 14 should not extend through length and pass in a manner known per se, but only through being at rest along its length Pressure increasing stations verse- 25 borrowed objects are operated. hen be. . If at the start of operation the storage height in the near the end of the pipeline is a feed container 10 is low, the light-braking device 9 is provided, for example, the barrier 17 an activation signal ah the device 8 can have the form described below. The off. Therefore, the sending device7 is employed device !? is at a distance of about 3 m 3 ° and filter plugs migrate along the line 6. The filter plugs from a feed container 10, which is present in the present filter plugs are slowed down at 9 and the system with filter plugs for cigarettes come to rest in the pipe 11 . The clutch 14 is sent. The pipe section 11 can, however, remain disengaged and no objects will be of any suitable length depending on the circumstances. Introduced into the feed container 10 until the tube The tube 11 leads into a box 12 in which a 35 11 is filled up to the point where the light device is provided, which ensures that the barrier '15 is located . As soon as the coupling 14 inserted object located in the tube 11 is moved axially, objects are moved into the Aufgabebehälin a removal device that is pushed by the 10. ■:. a motor 13 via a magnetic clutch, since the amount consumed per unit of time is smaller ment 14. actuated. The removal device is calculated as the amount sent per unit of time, fills, pushes a filter plug sideways into the feed, the feed container gradually, but not the container 10, and can do the following continuously. The removal device removes the bene form. But there are also other Mecha- tube 11 per unit of time more.Filterpfropfen: than. in mechanisms to carry out this sideways transport the pipe 11 come to rest, so that the Kiipp known. 45 lung 14 is disengaged from time to time. On the other hand, at a suitable point on the tube 11, the transmission takes place continuously until the level of the light barrier 15, which is reached from a light barrier 16, is located. Then there is the source and a photocell. At least on device 8 actuated so that the sending below this point, the tube 11 is broken from transparent. If there is too little GeMaterial in the pipe II. The light barrier 15 is used to detect 5 ° objects are present, the removal process stops, whether at this point filter plugs are present direction also to work.

are. The output of the light barrier 15 controls the meanwhile of the feed container 10 Coupling. 14. Without an exit the light-emitted objects are consumed. If the barrier 15, the clutch is disengaged. With a storage height in the feed container below the When the light barrier 15 is output, the clutch is on. 55 When the light barrier 17 drops, a signal is sent to the advanced. For the reasons described below, direction 8 is given and the dispatch again Light barrier 15 set up so that it can be taken. Shortly thereafter, the a delay of about 100 ms works. Extraction device, 'which lasts until the light in the container 10 are in different heights barrier 16 again emits a signal. Light barriers 16 and 17 arranged, each consisting of 60 in a system with the above a light source and a photocell. The length of about 150 in can be the container 10 Light barrier 16 responds when the container is full with only one light barrier, which is then in is. The light barrier 17 responds when a medium height is arranged in the container Storage height in the container is a predetermined one. Due to the natural lag in the low value reaches h; it, but still above the 65 operation of the plant occurs, isf guaranteed that the The height at which the removal device ar- predetermined low storage height is reached, shares. The outputs of the light barriers 16 and 17 before products are returned to the store control the parking device 8. Become a signal. This natural delay wiul

also ensures that the predetermined upper storage level is reached when everyone is en route Products have entered the store.

The only light barrier provided therefore emits an activation signal when the beam path is free, d. i.e. when the storage height in the container falls below the light barrier, and a shutdown signal when the storage height in the container rises to the height of the light barrier and the beam path is interrupted is.

In short systems or in long systems in which the natural delay in the capacity of the The container is not properly adapted, the use of two light barriers in the illustrated Way may be necessary.

Fig. 2 shows more precisely the arrangements at the end the pipeline 6. This opens into a box 9 in which the continuation of the pipeline with slots 20, which allow the conveying air to exit into the box 9. Moving along the line 6 Filter plugs enter the pipe 11 as a result of their inertia.

From the box 9, the air passes in a pipe 23 into another box 12, which is designed similarly is like the box 9 and in which the air enters and travels through the slots 20, in the tube 112 move objects to the right. Small drainage holes may be present in the tube 112 through which the air can escape if the objects cannot move. In any case, the escaping air sweeps around the objects.

A given object, such as a filter plug, comes in the axial direction on an end wall 22 to rest.

The same effect as with the pipe 23 can also be achieved with a pipe 11 which is a larger one Has diameter than the tubes 6 and 112. It is essential that there is a path for the air which it has a lower flow resistance than when conveying filter plugs.

A filter plug lying on the wall 22 is pushed sideways by means of the removal device, which are also shown in FIGS. 3 and 4 is shown.

The removal device consists of a rotor which has radial arms 25. The rotor is from a pulley rotated. This is driven by a shaft similar to the one mentioned above Clutch is connected. . .

The arms are cylindrical at their ends

ίο blades 26 provided, whose tracks the axis Cut a filter plug resting against the stop 22 (see FIGS. 3 and 4). One to be postponed The filter plug reaches a surface 28 which is located on one side of a slot 27, which leads into the feed container 10. The upper side wall of the slot has a recess so the blades 26 can pass.

As shown in FIG. 3 can be seen, the slot 27 goes steadily into the gently curved side walls of the Feed container 10 over. The curved portion 28 is designed so that the filter plugs into the feed container roll while maintaining their axial orientation. In practice it turns out that Λ this maintenance of the axial orientation is not easily achievable. However, when the mouth of the slot 27 is located below the storage height of the filter plug in the feed container 10 or the filter plug is located above the mouth of the slot, for example above the dash-dotted line Line 29 are located, the filter plugs dispensed into the feed container 10 keep the correct orientation at. For this reason, the storage height of the plug in the container 10 should preferably never fall below a predetermined value. This can usually be achieved by observation. If necessary the signal of the light barrier 17 can be applied to a suitable delay circuit operating a warning device or shutting down the cigarette making machine if the Signal is not deleted within a predetermined time by a signal from the light barrier 15. .->

1 sheet of drawings

Claims (1)

Claim: Method for conveying cylindrical objects with the aid of a compressed air delivery line, at the end of which the objects are braked and then to the end of the line form a queue, with the objects emerging from the end of the line from one Cross conveyor can be moved further with constant orientation and wherein Control means are provided which serve to switch the supply and discharge on and off as well to drive the cross conveyor as long as the queue exceeds a certain minimum length, characterized in that the filter plug before the application of the method to the filter plug. end of Compressed air delivery line (6) pneumatically braked (20, 9, 23, 12) that the filter plug from the transverse conveying device (25, 26) into a cigarette manufacturing machine upstream Buffer memory (28) are pushed so that more filters are fed to the line per unit of time are considered to be consumed from the buffer memory that the feed to the line at a predetermined low level (17) of the buffer memory and at a predetermined high level (16) is switched off, and that the cross conveyor device more filter plugs per unit of time promotes than the line (6) are supplied.