DE2619476C2 - Shower system - Google Patents

Description

The invention relates to a shower system from at least a shower with solenoid valve control, the solenoid valves of which can be triggered by the user electrical shower time switches can be switched on and off.

In the case of showers, mechanical or mechanical time regulation is used to limit the shower times used hydraulically working self-closing valves. The accuracy of such a mechanically controlled Time showers are very low and the shower time is subject to various influencing factors. The water pressure as well the ambient temperature and limescale deposits change the time that has been set. Besides, the Actuation of the release button of such a mechanical timer with a relatively large amount of force connected, and the indentation path is influenced

• to turn the shower time. Therefore, for the Timing developed electronic timers that allow easy operation; however that was The accuracy that can be achieved with simple circuit means is not very great. Similar to the mechanical ones Time switches, the time regulation of which can only be carried out by a specialist, is the setting the analog time electronics cumbersome, as it has to be done individually at each shower.

The invention is based on the object of creating a shower system in which the shower times can be changed easily and precisely and, if necessary, centrally. This object is achieved according to the invention solved in that the shower timer contains a pulse counter from a clock generator pulses delivered during showering counts and after reaching a predetermined Counter reading the switch-off can be triggered and that the length of the shower time by changing the Pulse frequency of the clock generator is adjustable.

The advantages achieved by the invention are in particular that the digital shower timer belonging clock generator can be attached centrally in an easily accessible place and only this needs to be changed in its frequency in order to set the time of all showers in the shower system to change. Due to the digital way of working, the time accuracy only depends on the accuracy of the Clock generator, which only exists once too

This is why it is economical, especially when there are a large number of showers A precise central line setting is possible.

In addition, the shower timer according to the invention creates the possibility of centrally registering and accounting for the number of shower uses. When the solenoid valves are switched off, a pulse appears at a second output of the shower timer, which can be applied to the input of a shower counter. This counter can with a meter reading printer that i <> hand oan also be operated by a time clock, can be connected. A direct transfer of the data to an EDP system for central processing and billing is also possible in a simple manner. A coin switch can easily be connected outside the wet zone for direct billing.

In the drawing are exemplary embodiments of the Subject of the invention shown It shows

F i g. 1 a shower system with a digital shower timer and a clock generator in the block diagram,

F i g. 2 the circuit diagram of the digital shower time switch of the shower system according to FIG. 1,

3 shows the circuit diagram of the clock generator of Shower system according to FIG. 1, and

F i g. 4 the circuit diagram of a digital shower time switch of a self-controlled shower system with a central Registration of shower use.

Fig. 1 shows the block diagram of a shower system, jn which shut off the hot and cold water supply from any number of 1 mil showers Solenoid valves 2 and 3 consists. Each solenoid valve pair 2 and 3 of a shower 1 of the shower system is with the control output 4 of an assigned digital shower time switch 5 is connected. All inputs 6 of the digital shower time switches 5 are connected in parallel to the output 7 of a single clock generator 8. This clock generator 8 is located in a central, easily accessible location. He controls everyone digital shower time switch 5 of the shower system. But it is also conceivable that the clock generator 8 together with other clock generators 8 a certain number of showers I of a shower installation divided into groups controls.

Each digital shower time switch 5 is switched on with the help of a push button switch 9, whereupon he the assigned solenoid valves 2 and 3 opens. The push button switch 9 can also be by an electronic Proximity switch or be replaced by the switch of a light barrier. The digital shower timers 5 have second outputs 10, which are connected to the input 11 of a registration device 12 are. A single registration device 12 or for each of them can be used for the entire shower system Group of showers 1 of the shower system its own registration device 12 can be used.

Like F i g. 2 shows, there is a digital shower time switch 5 from a switching stage 13, which is from a bistable Trigger stage 14 is controlled, a counter stage 15 with bo a static frequency divider 16 and a pulse shaper stage 17, at whose input 6 the output 7 of the in F i g. 3 clock generator 8 shown is connected.

After pressing the push button switch 9, the excitation windings of the solenoid valves 2 and 3 receive a Excitation current, so that the water supply to the assigned shower is released. With the actuation of the Pushbutton switch 9 becomes the bistable flip-flop which controls the excitation current of the solenoid valves 2 and 3 14 and the counter stage 15 are reset. Then the external clock generator 8 is sent to the The impulses supplied to input 6 in the counter stage 15 counts the one at the thousandth count impulse Emits output pulse with which the bistable multivibrator

14 is set so that the solenoid valves are de-energized after 1000 pulses from the clock generator 8 uad a registration pulse occurs at output 10 The operating time of the shower is determined by a change in the Frequency of the clock generator 8 adjustable.

The switching stage 13 has a switching transistor 18, in whose collector circuit a relay 20 with the working contacts 21 and 22 is located. The first working contact 21 is bridged by the push button switch 9 and is connected to an alternating voltage source Ug. If the pushbutton switch 9 is actuated, the alternating voltage Ub reaches the anode of a rectifier diode 23 with which the direct voltage required to operate the switching stage 13 is generated. This DC voltage is suppressed by an electrolytic capacitor 24. In order to obtain the largest possible voltage jump when switching on, the electrolytic capacitor 24 is completely discharged with the aid of a resistor 25 after the digital shower timer 5 has been switched off. With the help of a resistor 26 and a Zener diode 27, a second, lower, stabilized DC voltage is generated for the operation of the remaining stages 14,

15 and 17 of the digital shower timer 5 won. Via a capacitor 28 and a resistor 29, the bistable multivibrator 14 is through one of the Rising edge of the DC power supply Pulse reset. It has two operational amplifiers coupled to one another via two resistors 30, 31 32 and 33 and a negative feedback capacitor 39. The base of the switching transistor 18, via a resistor 34 to ground and a resistor 35 to the output of the operational amplifier 32 is connected, receives, as soon as the bistable multivibrator 14 is reset, a positive control voltage, so that the switching transistor 18 is conductive and the current flowing through the relay 20 closes the Relay contacts 21 and 22 caused. As a result, the push button switch 9 is short-circuited and can be released. In addition, the consumer circuit is via the normally open contact 22, the control output 4 and the windings of the two solenoid valves 2 and 3 are closed. The two solenoid valves 2 and 3 thus open the hot and cold water supply to the assigned shower.

With the aid of a differentiating element consisting of a capacitor 36 and a resistor 37 when the digital shower timer 5 is switched on, a voltage pulse is obtained, which is passed through a resistor 38 is connected to the reset input of a static frequency divider 16. The output of the static Frequency divider 16 is connected via a load resistor 40 to ground and via a resistor 41 to the Set input of the bistable multivibrator 14. After the thousandth pulse at input 42 of the static Frequency divider 16 appears at its output a pulse with which the bistable multivibrator 14 is set and the switching transistor 18 can be switched back to the blocked state.

When switching transistor 18 into the non-conductive state, its collector voltage increases at. This voltage increase is generated via a series connection of a diode 43, which is used for decoupling

and a resistor 44 to the registration output 10. Since after switching the transistor 18 the holding current of the relay 20 is not reached, open its working contacts 21 and 22, so that on the Solenoid valves 2 and 3, the water supply is blocked and the operating voltage of the digital shower timer 5 and the voltage at control output 4 go back to zero. One on the winding of the relay Induction voltage occurring in 20 is short-circuited by a diode 19.

The input 42 of the static frequency divider 16 is connected to the output of an operational amplifier 45, its losing input to the output of an operational amplifier 46 and via a contradiction 47 connected to ground. The inverting input of the operational amplifier 46 is above a resistor 53 at the input 6 of the digital shower timer 5 and via a resistor 48 Dimensions. The output and the inverting input of the operational amplifier 46 are connected to a negative feedback resistor 49 connected. The non-inverting inputs of operational amplifiers 45 and 46 are at a fixed positive potential via high-value resistors 50 and 51. The one at entrance 6 applied pulses are made with the help of a capacitor 52 sieved and over the two operational amplifiers 45 and 46 of the connected as inverters Pulse shaping stage 17 is applied to input 42 of static frequency divider 16.

The duration during which the switching transistor 18 conducts after the pushbutton switch 9 has been actuated depends on the frequency of the pulses which are given to the input 6. These pulses are generated in the clock generator 8 shown in FIG. The clock generator 8 is supplied with a well-stabilized DC voltage U _{U: lb} and essentially contains a square-wave pulse generator with an operational amplifier 60 of high temperature stability. The pulse frequency of the square-wave pulse generator can be changed with the aid of a variable resistor 61 and is determined by the time constant of the /? C element formed from the resistors 61 and 62 and the capacitor 63. The charging voltage of the capacitor 63 passes through a resistor 64 to the inverting input of the operational amplifier 60. The initial potential of the charging is determined by a voltage divider from the resistors 65 and 66, which determines the pulse-pause ratio together with the voltage divider from the resistors 67 and 68 specifies. The tapped voltage reaches the non-inverting input of the operational amplifier 60 via a resistor 69. A working resistor 70 connects the output of the operational amplifier 60 to the operating voltage. A capacitor 71 for frequency compensation connects its output to a corresponding compensation input. In addition, there is a resistor 72 between the output of the operational amplifier 60 and ground.

The output voltage of the square-wave pulse generator arrives via an inverter and pulse shaper 73 the count input of a four-digit binary counter 74, the outputs of which with the four inputs of a BCD decoder 75 are connected, and to a selector switch 76. Via a selector switch 77 is a the outputs of the BCD decoder 75 via an inverter 78 to the reset input of the binary counter 74 connected. As soon as the counter has the count determined by the selector switch 77, it resets and starts counting again from zero. This allows the duration of a counting cycle and thus change the frequency of the pulse voltages that can be taken from the four outputs. On the Selector switch 76 becomes the output corresponding to a specific ίο position of selector switch 77 of the binary counter 74 or its input is connected to the input of an inverter 79. With the help of Both selector switches 76 and 77 can then be used for all integer partial ratios up to and including 9 ! 5 set. The output of the inverter 79 is via a Diode 80 at the input of a transistor 81, which increases the static immunity to interference existing control amplifier. The transistor 81, the base of which is connected to ground via a resistor 82 is connected, controls a power transistor 83 with a load resistor 84, the hot end over an electrolytic capacitor 85 is connected to the output 7 of the clock generator 8. The basis of the Power transistor 83 is connected to the one designed as a voltage divider with resistors 86 and 87 Working resistance of transistor 81.

In a further embodiment shown in Figure 4, the pulse shaper stage 17 consists of a single operational amplifier 45, and the second

ίο Operational amplifier 100 is connected as a square-wave pulse generator with an adjustable frequency. This circuit is used for separate, self-controlled showers in a shower system.
The switching stage 13, the bistable multivibrator 14, the

κ counter stage 15 and the inverter 45 which controls the counter stage 15 correspond to the first exemplary embodiment and have the same reference symbols. The square-wave generator has a /? C element made up of resistors 101 and 102 and a capacitor 103, which determines the oscillation frequency, which can be set by resistor 102. A resistor 104 connects the output of the operational amplifier 100 with its non-inverting input and, due to the positive feedback, results in a steep rise

■ 15 edges of the impulses. The inverting input is over a resistor 105 is connected to the capacitor 103. Between the operating voltage and the The output of the operational amplifier 100 is its operating resistance 106.

The registration device 12 can consist of a simple counter for the entire shower system or from a counter for each group of showers. It can be done with one by hand or by one Be connected to the timer triggerable meter reading printer. It is also possible to use a To enter the interface in a computer system. A coin switch can be connected for direct billing be made, which is switched off by the registration pulse and the throw-in of a Coin is turned on. It is advantageous to use a switch that detects the pulses from the Clock generator and the control current of the solenoid valves 2 and 3 interrupts so that the shower time as desired distributed can be exploited.

For this purpose 4 sheets of drawings

Claims (12)

Patent claims: 1. Shower system consisting of at least one shower with solenoid valve control, the solenoid valves through an electrical shower timer that can be triggered by the user can be switched on and off, thereby characterized in that the shower timer (5) contains a pulse counter (16) from a clock generator (8) counts pulses delivered during the shower time and by the after reaching a predetermined count, the switch-off can be triggered and that the length of the shower time can be set by changing the pulse frequency of the clock generator (8) 2. Shower system according to claim 1, characterized in that the shower time switch (5) to one for Connection to a registration device (12) determined having electrical output (10) at which a Registration pulse can be emitted. 3. Shower system according to claim 1 or 2, characterized in that several shower time switches (5) a shower system are externally controlled by a central external clock generator (8). 4. Shower system according to claim 1 or 2, characterized in that each shower time switch (5) has its own internal clock generator (100). 5. Shower system according to one of claims 1 to 4, characterized in that the shower timer (5) the two solenoid valves (2,3) in the hot and cold water supply of the assigned shower (1) are controlled. 6. Shower system according to one of claims 1 to 5, characterized in that the switching stage (13) of the Shower time switch (5) is controlled by a bistable toggle stage (14) that is activated when the Shower timer (5) in the switching stage (13) opening state can be reset and by the Output pulse from a pulse shaper stage (17) connected to a clock generator (8) and reset when the shower timer (5) is switched on Counter stage (15) in the second switching stage (13) blocking state can be set. 7. Shower system according to claim 6, characterized in that the switching stage (13) of the shower time switch (5) with a higher and the bistable multivibrator (14), the counter stage (15), the pulse shaper stage (17) and the clock generator (8,100) operate with a lower operating voltage. 8. Shower system according to claim 6, characterized in that the collector circuit of the switching transistor (18) the switching stage (13) a relay (20) with a two-pole normally open contact with its first over a push button switch (9) bridgeable contact (21) in the supply circuit of the shower timer (5) and its second contact (22) in the consumer circuit of the solenoid valves (2, 3) lies. 9. Shower system according to claims 2 and 8, characterized in that the at the end of the Shower time with a pulse-transmitting output (10) via a resistor (44) and a diode (43) is connected to the collector of the switching transistor (18). 10. Shower system according to claim 3, characterized in that the clock generator (8) has a Square pulse generator (60) and a frequency divider (74,75,76,77), and that the frequency the clock generator (8) by changing the basic frequency of the square-wave pulse generator (60) or can be set by changing the division ratio of the frequency divider (74,75,76,77) 11. Shower system according to one of claims 1 to 10, characterized in that the registration device (12) is a coin operated switch, with repeated switching on and off of the Time measurement and the shower (Ϊ) are possible, so that after an adjustable total shower time the Operation of the shower (1) is blocked until another money is inserted into the coin switch 12. Shower system according to one of claims 1 to 11, characterized in that the registration device (12) a manually or by a clock triggered counter connected to a meter reading printer for determining the The number of times the shower is used