DE20305651U1 - Pneumatic timed switching device e.g. for pulsed actuation of pneumatic valve especially in explosion hazard environment, uses one electric output for connection of piezoelectric leading valve - Google Patents

Abstract

A pneumatic timed switching device has at least one electronic timed switching device (10, 20, 21, 22, 30, 40, 51, 52, 53) having at least one electric output (21) to which is connected a piezoelectric leading valve (60). An independent claim is included for a pneumatic timed switching system.

Description

 The invention relates to a pneumatic time switching device for pulsed actuation a pneumatic valve especially for use in potentially explosive atmospheres Environments.

As pneumatic time switch devices for hazardous areas mechanical movements are known, for example, via a Pistons are pulled up in a pneumatic cylinder. These clockworks deliver exact time spans, but cannot be used flexibly and can in particular do not execute switching cycles in a changeable sequence. There is also with mechanical movements there is a risk of moving parts sparking occurs, resulting in an endangered the atmosphere possibly triggered an explosion could be.

There are also volumetric pneumatic time switches known in which a certain volume of a measuring container with Pressurized gas filled and with which then, after complete filling of the volume or after Reaching a certain internal pressure in the measuring container, a switching impulse triggered becomes. Here too not different switching sequences programmed and pulse durations etc. varied. In addition, the filling pressure-dependent, so that with fluctuating pressure conditions in the supply exact switching times of the pneumatic system to be switched can be met.

It is therefore the task to specify a pneumatic time switching device that is independent of pressure and enables an exact switching pulse duration without external energy and which also the possibility a variation of the switching pulse sequence and duration.

This object is achieved with a Pneumatic time switch device with the features of claim 1 solved.

The advantage of the invention is especially in that by using a piezo valve to trigger little electrical energy is required during the switching process, so that at low voltages and low currents a valve actuation can be effected. The piezo pre-valve turns a pneumatic one Control line open, so that compressed gas can flow through and then the actual main valve as a working valve for the connected one open the pneumatic consumer or close can.

The pneumatic time switching device according to the invention can thus be operated via a can be powered by a battery for a long time; it is therefore not necessary to have a power supply connection that could endanger hazardous Environments could run out.

A lithium battery is preferred used with a voltage of 3.6 V. When using such a battery there is an operating time of the pneumatic time switching device according to the invention of about a year.

Further advantageous configurations the invention result from the further subclaims.

The invention is described below With reference to the drawing explained. The figures show in detail:

1 a block diagram of the pneumatic time switching device according to the invention and

2a . 2 B Switchable pulse sequences switchable with the pneumatic time switch device are plotted in a diagram over time.

The pneumatic time switching device according to the invention 100 consists essentially of

• - a battery 10 , especially a lithium battery,
• - a control device 20 with switching device 21 and program memory 22 .
• - a display element 30 with associated control device 40
• - controls 51 . 52 . 53 and
• - a piezo pre-valve 60 ,

The controls 51 . 52 . 53 allow selection of programs in the program memory 22 the control device 20 are stored, and the change of certain parameters in the control device 20 or the program memory 22 which can be designed as an EPROM.

In the program memory 22 At least five different programs are preferably stored with which the setting and working methods described below can be carried out:

• 1. In a first working method, a switching cycle is carried out continuously, which is composed of a first pause time t _P and at least one subsequent switching pulse time i _S. Such a pulse train is in 2a shown schematically. In a typical application, the switching duration t _S is determined such that a stroke can be carried out during the switching pulse time T _S in a pneumatic cylinder or a pneumatic diaphragm pump.
• 2. By pressing the control element several times 51 , which is designed in particular as a button, can be a second in the program memory 22 stored program can be called, which makes it possible with the help of the additional control element 52 to change the switching pulse time t _S.
• 3. Instead of the individual switching pulse, a sequence of several switching cycles can also be carried out, each cycle consisting of a switching pulse time t _S and a switching pulse interruption time t _U. After a sequence of n switching pulse, each with the piezo valve 60 from the control device 20 actuated, i.e. opened and closed again, the cycle begins with a new pause time t _P. The switching pulse interruption time t _U serves to return to the rest position, for example the rest position of the piston or the membrane, of the connected pneumatic consumer after the execution of the working stroke. Such a switching pulse sequence is in 2 B shown schematically.
• 4. By selecting a fourth program in the program memory 22 in the control device 20 the number n of individual switching pulses can be changed during a cycle.
• 5. In particular, the pneumatic time switching device according to the invention 100 can be used for the operation of pneumatic liquid diaphragm pumps. This is done in the control device 20 integrates a monitoring program that monitors when a reservoir is pumped empty, and then a so-called empty message for the operator on the display element 30 outputs and at the same time prevents switching impulses from the pneumatic time switching device for a long time or for an indefinite period 100 be delivered; a dry running of the pneumatic time switching device according to the invention 100 switched pump is prevented.

By selecting a fifth program in the program memory 20 the container volume can be entered. The number n of switching pulses t _S is multiplied by the volume of the cylinder or pump per stroke in order to calculate the volume delivered. The difference between the container volume and the volume conveyed is continuously calculated.

In switching operation of the pneumatic time switch device 100 becomes the piezo pilot valve during the switching pulse time t _S by only a small current with a low voltage 60 actuated. The power consumption of the piezo valve 60 is very small and therefore enables a long battery life 10 and a correspondingly long autonomous operation of the pneumatic time switching device according to the invention 100 ,

Lithium cells in particular are batteries suitable because they have a high cell voltage in a small size and a big one Have energy density.

The display element 30 can be a seven-segment display known per se, in particular with four digits, two of which each represent the switching pulse time t _S and the pause time t _P as a countdown display.

In a preferred pneumatic time switch system is a pneumatic time switch device 100 connected to a main pneumatic valve, whereby a pneumatic working group 62 of the piezo valve 60 is connected to a pneumatic control circuit of the main pneumatic valve. The small stroke of the piezo valve 60 is sufficient to the pneumatic line 62 to open so that compressed air reaches the control input of the main pneumatic valve. The working group of the main pneumatic valve opens, so that the connected pneumatic device, for example a pneumatic cylinder or a diaphragm pump, is driven.

With the control element 53 is in the illustrated preferred embodiment of the pneumatic time switching device according to the invention 100 a switchover from switching operation in which the piezo pilot valve by the switching pulses 60 is opened and closed, for a pulse counter operation possible, in which a pressure sensor, not shown, is connected to the time switching device 100 connected. In this way, the device according to the invention can also be used to monitor processes in pneumatic devices. For example, the number of piston strokes can be measured in a pneumatic cylinder and on the display element 30 become.

Claims (4)

Pneumatic time switch device ( 100 ) for the pulsed actuation of a pneumatic valve, in particular for use in potentially explosive environments, at least comprising an electronic time switch device ( 10 . 20 . 21 . 22 . 30 . 40 . 51 . 52 . 53 ) with at least one electrical output ( 21 ) to which a piezo pre-valve ( 60 ) connected. Pneumatic time switch device ( 100 ) according to claim 1, characterized in that the time switching device at least one display element ( 30 ) with a control device ( 40 ) includes. Pneumatic time switch device ( 100 ) according to claim 1 or 2, characterized by at least one control device ( 20 ) with a program memory ( 22 ) and with at least one control element ( 51 . 52 . 53 ). Pneumatic time switch system, at least consisting of a pneumatic time switch device ( 100 ) according to one of claims 1 to 3 and from a pneumatic valve, wherein a pneumatic working circuit of the piezo valve ( 60 ) of the pneumatic time switch device ( 100 ) is connected to a pneumatic control circuit of the pneumatic valve.