DE4201322A1 - Storage for pneumatic post slugs - Google Patents

Abstract

Storage for pneumatic post slugs

Description

The invention relates to a storage device for pneumatic tube cans with at least one for storing several pneumatic tubes bushing-trained storage tube, with at least one feed Pipe for feeding pneumatic tube cans to be stored from one Pneumatic tube system to the storage tube (s) and with at least a return pipe for returning pneumatic tube cans from the (the) storage tube (s) to the pneumatic tube system.

To ensure an even distribution of shipping tubes (Pneumatic tube rifles) in a complete pneumatic tube system it is already known to have a storage facility in the pneumatic tube system installation, which is a central component of a storage tube has, in which several empty pneumatic tube cans stored can be. The individual participants at the pneumatic tube stations of the pneumatic tube system, if no pneumatic tube cans are in stock are not requesting this from other participants by telephone, but can use it directly from the storage device. In the event that a participant of a pneumatic post sta If you collect too many empty pneumatic tube cans, you can the storage device are sent and are then available to others Available to participants.

The object of the invention is to provide a storage device to create the type mentioned above, which they are used for storing Pneumatic tube rifles of different lengths are suitable, whereby it Pneumatic mail system participants should be possible to obtain a certain length from the storage device. Furthermore, the storage device should have a high storage capacity have and for subsequent installation in existing pipe postal systems.

This is achieved according to the invention in that the memories are direction includes:

• - At least two storage tubes for storing different ones long pneumatic tube rifle,
• - A length measuring device for detecting the length of the pneumatic tube rifles and  
• - at least one depending on the signals of the lengths measuring device controlled pneumatic tube switch, via which the pneumatic post rifle to be stored depending on the length measurement Direction recorded length one for storing pipe mailboxes of this length assigned storage tube can be fed is.

The basic idea of the invention is the pneumatic tube rifle automatically length-selectively in different storage tubes save, with which a targeted retrieval of a pneumatic tube can certain length from the storage device to a pneumatic tube station of the pneumatic tube system is easily possible. The breakdown of the pneumatic post rifles depending on the length of the respective length assigned storage tubes is done automatically, that is User needs his empty pneumatic tube rifle without specifying de simply send the length to the storage device. In the Length measuring device is the length of the stored Pneumatic tube and the pneumatic tube as a function of the detected length over a correspondingly controlled Pneumatic post switch to the storage tube assigned to this length fed. Sending empty pneumatic tube boxes to the Storage device therefore differs for the user practically not from sending one pneumatic tube can to another System pneumatic tube station.

To retrieve a pneumatic tube from the storage facility must the user has the desired length or enter a code provided for it, followed by a (or counter if necessary, several) pneumatic tube rifles from the length of this arranged storage pipe over the return pipe and the Rohrpostsy stem of the requesting pneumatic tube station.

A preferred embodiment of the invention Storage device consists in that the to the feed pipe connected pneumatic post switch a multiple switch with Braking position is a through the movable pipe part the feed tube pneumatic tube can optionally one of the connected storage pipes can be fed and in the  the optional brake position on the input side movable tube part of the pneumatic tube switch connected to the feed tube is hermetically sealed on the output side. At this Embodiment stands the movable tube part of the multiple switch initially in the braking position, i.e. its outlet is airtight completed. Now moves a pneumatic tube can to be saved this multiple switch, the pneumatic tube rifle sinks, braked on an air cushion, down to the end of the pipe section. At the now stationary pneumatic tube can, for example simply determine their length using a pipe switch. The Tube switches can have mechanical switch contacts, or known contactless optical tube switch be. The pipe switches indicate whether there is in the pipe area to which they are attached, a pneumatic tube can or a part such a pneumatic tube can. By two or more Pipe switches spaced apart in the longitudinal direction of the pipe can then be used simply record the length of a standing pneumatic tube can.

In the above-mentioned embodiment, which is a multiple switch applied with braking position, the pipe switch can be cheaper arranged in the movable pipe part of this multiple switch be. The movable pipe part of this switch can, for example be arranged in a rotatably mounted rotor (rotor switch). However, switches are also possible in which the movable Pipe part slidable, for example, transverse to the direction of the guide tube is stored. In any case, the movable pipe part after recording the length of the standing pneumatic tube in Ab dependence on the detected length adjusted so that the Pneumatic tube rifle falls into the storage tube assigned to its length or drives.

Are the storage tubes according to a preferred embodiment arranged vertically, so for the transportation of pneumatic tube no compressed air is required in the storage tubes. Much more gravity is sufficient for this. Such a gravity drive is in the storage tubes according to a preferred embodiment shape also possible if the storage tubes are inclined to the verti kalen are arranged. The inclination is chosen so that at  a removal of pneumatic tube cans at the lower end of the store tube an automatic re-sliding of the tube above mailboxes is always secured. The inclination to the vertical len allows longer storage pipes and there for a given room height with an increased storage capacity.

According to a preferred embodiment, the storage tubes have the invention a controllable output at its output device that optionally stores the pneumatic tube retains or outputs individually from the storage tube. With a such output device can be the stored tube mailboxes individually to the return pipe and from there over the Output pneumatic tube system to the requesting pneumatic tube station. To Realization of such an output device is advantageous provided that the output device from the outside through a Opening that reaches into the storage tube and can be driven at times Has friction wheel, the peripheral surface of the pneumatic tube rifle is non-positively. The standing friction wheel keeps them in Contact standing pneumatic tube rifle and prevents their out sluice out of the storage tube. By turning the Friction wheels can send the pneumatic tube rifles individually from the store pipe are issued without the risk of further Unintentionally follow pneumatic tube rifles.

With regard to the smallest possible number of switches and Tubing is a particularly favorable embodiment in which the The end of the output of all storage tubes is freely above one tert collecting funnel ends, at the funnel outlet the back driving tube is connected. The collection funnel is essential easier than a conventional pneumatic tube switch and fulfills that still the task of pneumatic tube rifles also from the storage tubes to feed the common return pipe. Basically there is of course the possibility of replacing the collecting funnel with one to provide real pneumatic tube switch. There is also the possibility speed, several return pipes, for example for each store pipe to provide its own return pipe, which then via a appropriate switch is integrated in the pneumatic tube system. How  already mentioned, but is the collecting funnel in a common men return pipe certainly easier.

Further advantages and details of the invention are in the following description of the figures explained in more detail.

They show: Fig. 1 is a schematic illustration of an exemplary embodiment play of the memory device according to the invention together with a transmission-tube portion of the conduit system, Fig. 2 shows a schematic longitudinal section of a plan view fixed by the in depen dependence on the signals of length-controlled pneumatic tube soft and the Fig. 2a to the lower on circuit board of this pneumatic tube switch, Fig. 3 an embodiment of the Ausga invention stunning device at the output end of the storage tube in a side view, Fig. 4, an alternative to the example shown in Fig. 1 exporting approximately, for example, Fig. 5 and Fig. 6 schematic representations of exemplary embodiments of the storage device according to the invention.

The storage device according to the invention shown in Fig. 1 has a feed tube 1 , a length measuring device formed essentially by two tube switches 3 a and 3 b for detecting the length of the pneumatic tube boxes to be stored, a depending on the detected length pneumatic post switch and two storage tubes 4 a and 4 b, the storage tube 4 a being provided for example for short pneumatic tube rifles and the storage tube 4 b for example for long pneumatic tube rifles. At the lower end of the vertical storage tubes 4 a and 4 b each a generally designated 5a and 5b controllable Output device is arranged, via which the stored pneumatic tube bushings can be retained in the respective storage tube 4 a or 4 b or individually output from these storage tubes. These dispensers will be explained in more detail with reference to FIG. 3.

To connect the storage device according to the invention to the pneumatic tube system, of which only one driving tube with the driving tube parts 6 a and 6 b is shown, a triple switch 7 is provided in the exemplary embodiment shown in FIG. 1, via which the driving tube part 6 a pointing to the blower of the pneumatic tube system can optionally be connected to the other driving tube part 6 b, the feed tube 1 or the return tube 8 of the storage device. In this embodiment, it is particularly favorable that only a switch 7 is necessary for connection to the pneumatic tube system, which facilitates retrofitting at a later time. Otherwise, no interventions need to be made in the existing pneumatic tube system, where in that position the triple switch 7 in which the driving tube part 6 a is connected to the driving tube part 6 b, the normal passage of pneumatic tube rifles is possible.

If a pneumatic tube can be stored in the storage device from the pneumatic tube system, the user enters this pneumatic tube at his pneumatic tube station and sends it to the storage device using a specific address code. An electronic control device, not shown, then first sets the triple switch in the position shown in dashed lines in FIG. 1. This allows the pneumatic tube can arriving via the driving tube 6 a to get into the feed tube, air in front of the pneumatic tube can emerging from the air outlet 9 in front of the multiple switch 2 . With this air outlet, complex bypass constructions in the switch can be avoided. When feeding pneumatic tube bushes, the multiple switch shown in FIGS . 2 and 2a is initially in the braking position, in which the movable tube part 10 is sealed air-tight on the output side by a damping rubber 11 on the lower station plate 12 which is closed in this area. The incoming pneumatic tube bushing - braked on an air cushion - slowly sinks down to the damping rubber 11 . The pipe switch 13 attached to the movable pipe part 10 now reports to an electronic control center that the pneumatic post box is located in the multiple switch. At this point it is mentioned that the electrical lines and the electronic control center are not shown for the sake of clarity. Tube switches including lines, as well as electronic control centers are well known to the expert in the field of pneumatic tube systems, so that they can be installed or implemented without difficulty.

The multiple switch 2 designed as a rotor switch has an opening for the feed tube 1 in the upper station plate 14 which is rotationally symmetrical about the axis of rotation 15 . The lower station plate 12 has - as shown in Fig. 2a - in addition to the ge closed thinking rubber 11 two openings 16 a and 16 b to which the two storage tubes 4 a and 4 b are connected. Between the two fixed station plates 12 and 14 , a rotor 17 rotatably mounted about the axis of rotation 15 is provided, which has the movable (rotatable with the rotor) tube part 10 as an essential component.

In the embodiment shown in FIGS . 1 and 2, the length measuring device for detecting the length of the pneumatic tube can be integrated in the multiple switch 2 and consists essentially of the two tube switches 3 a and 3 b, which are arranged in the wall of the movable tube part 10 are. The advantage of such an arrangement is that the detection of the length of the pneumatic tube can take place as long as it rests on the damping rubber 11 after entering the multiple switch in the separating position, that is to say it stands still. Speaks only of the reed switch 3 b, so there is a short tube dispatch carrier before and the rotor 17 moves in the in Fig. 2 ge showed position, after which the pneumatic-post capsule in the tion to Abspeiche provided by short pneumatic dispatch containers storage tube 4 a fall.

Speak both the pipe switch 3 b and the pipe switch 3 a, there is a long pneumatic tube, whereupon the ro tor 17 moves from the braking position to that position in which the movable tube part 10 is aligned with the storage tube 4 b. Since with the long pneumatic tube rifle falls into the storage tube 4 b provided for storage for long pneumatic tube rifles. The pneumatic post soft 2 is thus controlled as a function of the signals of the lengths measuring device (pneumatic switch 3 a and 3 b), the pneumatic tube bushing to be stored automatically depending on the detected length, the storage tube 4 a or 4 b assigned to the storage of pneumatic tube bushes of this length is fed.

In the vertical storage tubes 4 a and 4 b, the entered pneumatic tube liners initially fall under the influence of gravity until they lie on the controllable output devices 5 a and 5 b or pneumatic tube liners already stacked.

Such an output device is shown in FIG. 3 Darge. This is, for example, the output device 5 b, the output device 5 a being constructed essentially the same. The device shown in Fig. 3 device has an externally through an opening 18 into the storage tube 4 b reaching, occasionally drivable friction wheel 19 , the circumferential surface or the knobs 20 attached thereon made of rubber-elastic material non-positively to the pneumatic tube bushing located in the storage tube issue. Stands still, the friction wheel 19, thus preventing the knobs 20, which rest on the pneumatic-post capsule, cans past a contact b of the data stored in the storage tube 4 pneumatic tube. To output a single pneumatic-post capsule to the friction wheel rotates about the axis 21, driven by motor 22, in Rich processing of the arrow 23, whereby the b stored in the storage tube 4 tube dispatch carrier is output corresponding to the circumferential speed of the friction wheel 19th This enables precise delivery of individual pneumatic tube boxes from the storage tubes.

In order to ensure a good hold of the friction wheel on the circumferential surface of the tubular mailbox even if the diameter of the pneumatic mailbox varies over its length, it is provided according to a preferred embodiment of the invention that the friction wheel is movably mounted transversely to the tube direction and with one towards the center of the tube indicative force component is applied. In the specific exemplary embodiment, this can be easily achieved with the aid of a simple lever 24 , which is pivotably mounted on the bearing block 26 about the axis 25 . At the free end of the lever, the friction wheel is rotatably mounted and its drive unit (motor 22 ) attached. The power component pointing towards the center of the pipe can be achieved by means of a spring. It is more favorable, however, for exploiting the force of gravity, by according to a preferred embodiment of the invention the center of gravity of the lever 24 together with the friction wheel 19 and drive unit 22 between the storage tube 4 b and the pivot axis 25 of the lever 24 obliquely is located above said pivot axis 25th So that the lever tries to pivot under the influence of gravity 25 , whereby also the desired toward the tube center pointing force component occurs, which presses the friction wheel kraftschlüs sig on the stored pneumatic tube.

Below the output devices 5 a and 5 b, tube switches 27 a and 27 b are arranged, which stop the rotary movement of the friction wheel 19 after the output of each pneumatic tube in order to prevent the output of further pneumatic tube bushes.

The Rohrpostbüch sen issued from the storage tubes 4 a and 4 b fall into an upwardly enlarged collecting funnel 28 , at the funnel outlet 28 'of which the return pipe 18 is connected. Immediately below the funnel outlet, a driving tube switch 29 can be provided, when it passes the triple switch 7 automatically goes into the position in which its movable rotary part connects the return pipe 8 to the driving tube part 6 a of the Rohrpostsy system.

Furthermore, it can be provided according to a preferred embodiment of the inven tion that on each storage tube 4 a or 4 b, preferably a tube switch 30 a, b and 31 a, b having device for detecting the level of pneumatic tube rifles in the respective storage tube 4 a or 4 b is arranged. This makes it possible, for example, to request the participants to send empty pneumatic tube rifles to the storage device in the case of empty storage tubes via acoustic or optical signals at the pneumatic tube stations of the pneumatic tube system. Conversely, when the storage tubes are full, the supply of pneumatic tube boxes to the respective storage tube can be blocked.

The embodiment shown in FIG. 4 differs from the embodiment shown in FIG. 1 essentially only in that the storage tubes 4 a and 4 b are not arranged vertically, but at an angle α obliquely to the vertical 32 . With this measure, the length of the storage tubes 4 a and 4 b and thus the storage capacity can be increased at a given room height.

Provided in the in the Fig. 1 and exemplary embodiments illustrated 4 is surface for connection to the tube system own Dreifachwei 7, while the length selectively pipes to the memory 4 a and 4 b aufteilende pneumatic post filter 2 assumes is formed separately. In principle, there is also the possibility of integrating the tube post-switch 2 'dividing lengthwise onto the storage tubes 4 a and 4 b directly into the driving tube 6 a, 6 b of the pneumatic tube system. In this embodiment, depending on the speed of the signals from the length measuring device 3 'controlled pneumatic tube switch 2 ' in a driving tube of the pneumatic tube system is angeord net. About this pneumatic post switch 2 ', the driving tube part 6 a can optionally be connected to the other driving tube part 6 b or directly to one of the storage tubes 4 a and 4 b. If necessary, it is also possible to provide a position in which the return tube 8 can be connected to the driving tube part 6 a. In this embodiment, the length measuring device 3 'is at some distance in front of the pneumatic post switch 2 ' and allows a fixed position of the length of the passing pneumatic post box, whereupon the pneumatic post station 2 ', depending on the length determined, the driving tube 6 a with either the storage tube 4 a or the storage tube 4 b connects if the pneumatic tube can is to be saved. In the normal passage position, the pneumatic post switch 2 'connects the driving tube part 6 a with the driving tube part 6 b. In this embodiment from FIG. 5, a pneumatic tube switch can be saved. However, a more complex recording of the length of a moving pneumatic tube can is necessary. In addition, Vierfachwei chen, as shown in Fig. 5, are relatively expensive and bulky.

In order to avoid four-way switches in several, for example four storage tubes 4 a to 4 d, which are completed by termination devices 5 a to 5 d, a series connection of, for example, two-way switches can also be provided, as shown in FIG. 6. The switch 2 is a double switch with braking position and integrated length detection (see. Fig. 1). At the exit of the switch, additional pneumatic post switches 2 '' and 2 '''are provided via intermediate pipes 33 and 34, each controlled as a function of the signals of the length measuring device. These pneumatic post switches are simple double switches. Their outputs lead into the storage tubes 4 a to 4 d.

The invention is not based on the illustrated embodiment games limited. For example, instead of the straight ones Storage pipes and curved storage pipes are also conceivable and possible. A horizontal position of the storage tubes is also possible Lich, provided that the movement of the pneumatic tube rifles, for example as with compressed air or by another suitable method drive takes place. In principle, it is also possible, for example two storage tubes for one and the same length of pneumatic tube book sen to use while for others, less common Pneumatic tube bushing lengths provided only one storage tube can be. Because the storage tubes are different Pneumatic tube bushing lengths do not need to be distinguished, too a subsequent change in the assignment of a specific one Pneumatic tube sleeve length possible on a specific storage tube.

Claims (19)

1. Storage device for pneumatic tube liners with at least one storage tube designed for storing several pneumatic tube liners, with at least one feed tube for feeding pneumatic tube liners to be stored from a pneumatic tube system to the storage tube (s) and with at least one return tube for returning pneumatic tube liners from the Storage tube (s) to the pneumatic tube system, characterized in that the storage device comprises:

• - at least two storage tubes ( 4 a, b; c, d) for storing pneumatic tube boxes of different lengths,
• - A length measuring device ( 3 a, 3 b; 3 ') for detecting the length of the pneumatic tube rifles to be stored and
• - At least one depending on the signals of the length measuring device ( 3 a, 3 b; 3 ') controlled pneumatic tube switch ( 2 ; 2 '; 2 '', 2 ''') via which the pneumatic tube can be stored depending on the length measuring device ( 3 a , 3 b; 3 ′) recorded length can be fed to a storage tube ( 4 a, b; c, d) assigned for storing pneumatic tube bushes of this length.

2. Storage device according to claim 1, characterized in that the connected to the feed pipe ( 1 ) pneumatic tube switch is a multiple switch ( 2 ) with braking position, via the movable tube part ( 10 ) through the feed tube ( 1 ) supplied pneumatic tube can either one of them attached storage tubes (4 a, b) supplied and the pneumatic tube diverter (2) is closed on the output side air-tight at the ingestible in the optional braking position of the input side connected to the supply pipe (1) movable tubular member (10). 3. Storage device according to claim 2, characterized in that an air outlet ( 9 ) is provided in the feed pipe ( 1 ) in front of the multiple switch ( 2 ) with braking position. 4. Storage device according to one of claims 1 to 3, characterized in that a device ( 11 ) for braking the pneumatic tube bushing to be stored is provided until it comes to a complete standstill and that in the area of this device ( 11 ) the length measuring device ( 3 a, b) is arranged to detect the length of the standing pneumatic tube. 5. Storage device according to one of claims 1 to 4, characterized in that the length measuring device comprises at least two in the wall of a pipe to be stored tube carrying sleeve ( 10 ) arranged in the pipe direction spaced pipe switch ( 3 a, 3 b). 6. Storage device according to claim 2 and claim 5, characterized in that the tube switch ( 3 a, 3 b) in the movable tube part ( 10 ) of the multiple switch ( 2 ) are arranged. 7. Storage device according to one of claims 1 to 6, characterized in that at least part of the storage tubes ( 4 a, b; c, d) is arranged vertically. 8. Storage device according to one of claims 1 to 6, characterized in that at least part of the storage tubes ( 4 a, b) is arranged obliquely to the vertical. 9. Storage device according to one of claims 1 to 8, characterized in that the storage tubes ( 4 a, b; c, d) each have a controllable output device ( 5 a, b; c, d) at their output, via which the stored pneumatic tube boxes can either be retained in the respective storage tube or can be output individually from the storage tube. 10. Storage device according to claim 9, characterized in that the output device ( 5 a, b; c, d) from the outside through an opening ( 18 ) into the storage tube ( 4 a, b; c, d) reaching, temporarily drivable friction wheel ( 19 ), the circumferential surface of which is in frictional engagement with the pneumatic tube bushing. 11. Storage device according to claim 10, characterized in that the friction wheel ( 19 ) has on its peripheral surface knobs ( 20 ) made of rubber-elastic material. 12. Storage device according to claim 10 or 11, characterized in that the friction wheel ( 19 ) is movably mounted transversely to the tube direction and is acted upon by a force component pointing towards the center of the tube. 13. Storage device according to claim 12, characterized in that the friction wheel ( 19 ) and its drive unit ( 22 ) are arranged at the end of a pivotably mounted lever ( 24 ). 14. Storage device according to claim 12, characterized in that the center of gravity of the lever ( 24 ) together with the friction wheel ( 19 ) and drive unit ( 22 ) between the storage tube ( 4 a, b; c, d) and the pivot axis ( 25 ) of the lever ( 24 ) lies obliquely above this pivot axis ( 25 ). 15. Storage device according to one of claims 1 to 14, characterized in that the output end of all storage tubes ( 4 a, b; c, d) ends freely above an upwardly expanded collecting funnel ( 28 ), at the funnel outlet ( 28 ') the return pipe ( 8 ) is connected. 16. Storage device according to one of claims 1 to 15, characterized in that a triple switch ( 7 ) is arranged in a driving tube ( 6 a, 6 b) of the pneumatic tube system, via which a driving tube part ( 6 a) of the driving tube optionally with the other Driving tube part ( 6 b), the feed pipe ( 1 ) or the return pipe ( 8 ) of the storage device can be connected. 17. Storage device according to one of claims 1 to 15, characterized in that the depending on the Si gnalen the length measuring device ( 3 ') controlled pneumatic tube switch ( 2 ') in a driving tube ( 6 a, 6 b) of the pneumatic tube system is arranged, Via which a driving tube part ( 6 a) of the driving tube can optionally be connected to the other driving tube part ( 6 b), directly to one of the storage tubes ( 4 a, 4 b) or optionally to the return tube ( 8 ). 18. Storage device according to one of claims 1 to 16, characterized in that at least one output of a controlled depending on the signals of the length measuring device pneumatic tube switch ( 2 ), preferably via an inter mediate tube ( 33 , 34 ), another depending the signals of the length measuring device controlled pneumatic post switch ( 2 '', 2 ''') is connected. 19. Storage device according to one of claims 1 to 18, characterized in that on each storage tube ( 4 a, b) preferably at least one tube switch ( 30 a, b; 31 a, b) having means for detecting the level of pneumatic tube rifles in respective storage tube is arranged.