AT500818B1 - Pipe switch for a pipe-post unit - Google Patents

Abstract

u No abstract. USE u None given.

Description

2 AT 500 818 B1

The invention relates to a tube switch for a pneumatic tube system with a replaceable in a wall opening of a pipeline sensor for a pneumatic tube and with an evaluation circuit connected to the sensor. 5 For the control of pneumatic tube systems pipe switches are used, with the aid of the passing of a pneumatic tube carrier, for example, in the inlet region of a pneumatic tube station is detected and reported to an evaluation circuit. These pipe switches can be designed as mechanical switches or non-contact switches. While mechanical switches are subject to wear and are subject to the risk of sparking io, there is the disadvantage in non-contact actuated switches that must be expected due to an electrostatic charge through the piped in the pipeline guided pneumatic tubes with overvoltages that jeopardize the evaluation, if not special countermeasures are taken, which prevent transfer of overvoltages from the replaceable in wall openings of the pipe sensors on the Auswerteschal-15 tion, but this increases the design effort.

In order to avoid the risk of optical switching elements by discharging the statically charging pneumatic tube carrier, pipe switches have already been proposed (AT 001 292 U1), the outside of a shell hole of a pipe of the pneumatic post-20 sat socket for the optical switching element with a closed bottom form translucent plastic. The disadvantage, however, that the responsiveness of the optical switching element is reduced by the sheath hole final, translucent bottom of the socket, especially because of the static charge with increased pollution of the bottom of the socket must be expected. 25

To monitor the pipeline of a pneumatic tube system, it is also known to lay along the wall of the pipeline signal conductor, which are connected at their ends with signal transmitters and receivers, so that the signal flow is interrupted in a mechanical destruction of the pipeline. As a signal conductor electrical conductors, but also light waves 30 conductors can be used. However, such a pneumatic tube system can not teach the formation of tube switches, which are secured in a simple manner against surges due to electrostatic charges. The same applies to a known device for measuring the soot load of exhaust gases of an internal combustion engine (DE 38 39 348 A1), wherein the weakening of a guided across a flue gas tube light beam is evaluated by the soot particles 35. In order to protect the light emitter, or the optical receiver from contamination, light-transmissive body are provided between the light emitter and the flue gas tube and between the flue gas tube and the optical receiver, which are heated to a temperature above the Rußabbrandtemperatur temperature. 40 The invention is therefore based on the object, a pipe switch for a pneumatic tube system of the type described in such a way that with simple design means a wear-free detection of pneumatic tube cans is possible without having to fear surges due to electrostatic charges. 45 The invention solves this problem by the fact that the sensor has on the one hand to a light transmitter and on the other hand to a light receiver connected light guide, which open in the region of the wall opening.

With the use of optical fibers optical tube switch can be realized in which 50 neither the light transmitter nor the light receiver nor the evaluation circuit connected thereto are endangered by surges due to electrostatic charges in the pipeline, because the determined by the length of the light guide insulation always chosen sufficiently large can be to safely exclude a flashover or breakdown. In addition, a considerable degree of design compatibility is associated with the operational safety gained through the use of optical fibers because the light guides connected on one hand to a light emitter and, on the other hand, to a light receiver only have to open into a wall opening of the pipe in order to remove the light from the leaked with the light transmitter connected light guide, reflected at the pneumatic tube carrier light via the other optical fiber to the light receiver for evaluation. Because of the largely free choice of the optical fiber length, the sensor position in the pipeline is independent of the arrangement of the evaluation circuit.

In order to improve the luminous efficacy, the optical fibers can open in the region of at least one optical lens, so that a high response reliability for the pipe switch can be ensured due to the consequent focusing even with comparatively weak light emitters.

Since the pipeline is pressurized by pneumatic tube systems for conveying the pneumatic tube carrier with compressed air, the pipeline must be designed accordingly airtight. This also applies in the area of the wall opening for receiving the optical fiber ends. In order to allow simple sealing conditions in this context, the optical fibers can enforce a deductible on the pipe fitting airtight, so that the sealing of the light guide does not need to be made within the wall opening. The airtight attachment of a fitting to a pipe makes yes in general no difficulties.

In the drawing, the subject invention is illustrated, for example, and that an inventive pipe switch for a pneumatic tube system is shown in a schematic block diagram.

According to the illustrated embodiment, a sensor 4 is used in an opening 1 of the wall 2 of a pipe 3 of a pneumatic tube system, not shown, which signals the passage of a conveyed through the pipe 3 pneumatic tube carrier to an evaluation circuit 5. The sensor 4 according to the invention comprises two optical fibers 6, which are connected on the one hand to a light transmitter 7 and on the other hand to a light receiver 8, whose output signal is evaluated in the evaluation circuit 5, for example, for the control of the pneumatic tube system. The free ends of the light guide 6 open into the wall opening 1 of the pipe 2, wherein for supporting the optical waveguide 6, a connecting piece 9 is provided, which is penetrated by the optical fibers 6 tight. For this purpose, a seal 10 is provided which comes into contact with the wall 2 of the pipeline 3 in the region of the wall opening 1. The connector 9 therefore needs to be attached only to the pipe 3 to move the sensor 4. The attachment of the connecting piece 9 can be made in the simplest case with the aid of a pipe 3 enclosing the fastening loop 11. But it is of course also possible to glue the connector 9 on the wall 2 of the pipe 3 or to screw on this. For thin-walled pipes, it is recommended for this purpose, first to the wall 2 to provide a reinforcement to which the connector is then clamped by means of mounting screws.

Since the light guides 6 can be laid arbitrarily, the arrangement of the evaluation circuit 5 is independent of the predetermined by the control conditions positioning of the sensor 4, which brings a significant design simplification, especially since only the free ends of the light guide 6 within the wall opening 1 with a radial To be aligned. Electrostatic charges due to the friction between the pipe and the seals of the pipe bushings can not adversely affect the evaluation circuit 5 due to the given by the length of the light guide 6 Isolierstrecke, so that a wear-free, reliable pipe switch results, which can be easily installed.

The invention is of course not limited to the illustrated embodiment. Thus, the holder of the free ends of the light guide 6 could be solved within the wall opening 1 of the pipe 3 with different structural means. It just comes

Claims (3)

4 AT 500 818 B1 on that the light emerging from the connected to the light transmitter 7 light guide 6 light is reflected on the past the sensor 4 pneumatic tube and enters the connected to the light receiver 8 light guide 6, so on the light receiver 8, a corresponding signal can be forwarded to the evaluation circuit 5. For example, in order to focus the s reflected light in the region of the light guide 6 connected to the light receiver 8, this optical waveguide 6 can be preceded by an optical lens within the wall opening 1. io patent claims: 1. Pipe switch for a pneumatic tube system with a replaceable in a wall opening of a pipe sensor for a pneumatic tube and with an evaluation circuit connected to the sensor, characterized in that the sensor (4) on the one hand to a light emitter (7) and on the other hand a light receiver (8) connected to light guide (6), which open in the region of the wall opening (1). 2. Pipe switch according to claim 1, characterized in that the light guides (6) open in the region of at least one optical lens. 20 3. Pipe switch according to claim 1 or 2, characterized in that the light guide (6) on the pipe (3) deductible fitting (9) enforce airtight. 25 For this purpose 1 sheet of drawings 30 35 40 45 50 55