DE2619476A1 - SHOWER SYSTEM - Google Patents

Abstract

In the system, preferably having a plurality of showers which can be used over a limited period of time, each shower has a solenoid valve which can be switched on and off by the user via a time switch (5). The time switch contains a pulse counter, which counts pulses delivered by a clock generator (8). Once the predetermined count has been reached, switching-off takes place. A coin-operated unit may be attached to the time switch. As a result, the shower system is independent of water pressure, water temperature and the factors which are directly associated with the showering process. <IMAGE>

Description

J. Eberspächer, Eberspächerstr. 24, 7300 Esslingen / N.

Shower system e

The invention relates to a shower system comprising at least one shower with magnetic valve control and its magnetic valves can be switched on and off by an electrical shower timer switch that can be triggered by the user.

In the case of showers, the time control is widely used to limit the shower times mechanically or hydraulically working self-closing valves used. The accuracy of such mechanically controlled time showers is very little, and the shower time is subject to various influencing factors. The water pressure as well as the ambient temperature and limescale deposits change the time that has been set. In addition, the actuation of the release button such a mechanical timer associated with a relatively large amount of force, and the In turn, the travel of the pressure affects the shower time. Therefore, electronic time switches were used to regulate time designed to be easy to operate; however, that was achievable with simple circuit means Accuracy not very great. Similar to the mechanical time switches, their time regulation only by one Professional is the setting

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the analog time electronics cumbersome / because 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 are simple and accurate, and, if necessary, can be changed centrally. This object is achieved according to the invention in that the shower time switch contains a pulse counter, the pulses supplied by a clock generator during the shower time counts and by which the disconnection can be triggered after reaching a predetermined count and that the length of the shower time can be adjusted by changing the pulse frequency of the clock generator.

The advantages achieved by the invention are in particular that the belonging to the digital shower timer Clock generator can be attached centrally in an easily accessible place and only this in its frequency needs to be changed in order to change the time setting of all showers in the shower system. Because of the digital The way it works, the time accuracy depends only on the accuracy of the clock generator, which is only available once needs to be. Therefore, especially with a large number of showers, a precise, central time setting possible.

In addition, the shower timer according to the invention creates the possibility of centrally registering the number of shower uses and to be settled. When the solenoid valves are switched off, a second output of the shower timer appears an impulse that can be applied to the input of a shower meter. This counter can be operated with a counter printer that can be operated manually or by a clock is connected. A direct input of the data into an EDP system for central processing and processing

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billing is possible in a simple way. The connection of a coin switch is also available for direct billing easily conceivable outside the wet zone.

In the drawing, exemplary embodiments of the subject matter of the invention are shown. Show it:

Fig. 1 shows a shower system according to the invention with a digital shower timer and a clock generator in the block diagram,

FIG. 2 shows 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 the shower installation according to FIGS. 1 and

FIG. 4 shows the circuit diagram of a digital shower time switch of a self-time-controlled shower system according to FIG Invention with central registration of shower use.

Fig. 1 shows the block diagram of a shower system, which consists of any number of showers 1 with two each Solenoid valves 2 and 3 shut off the hot and cold water supply. Each pair of solenoid valves 2 and 3 of a shower the shower system is connected to the control output 4 of an assigned digital shower time switch 5. 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 all 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 1 one in groups

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divided shower system controls.

Each digital shower time switch 5 is switched on with the help of a push button switch 9, whereupon he assigned the Solenoid valves 2 and 3 open. The push button switch 9 can also be through an electronic proximity switch or replaced by the switch of a light barrier. The digital shower time switches 5 have second outputs 10, which are connected to the input 11 of a registration device 12. It can be used for the whole Shower system a single registration device 12 or for each group of showers 1 of the shower system a separate registration device 12 can be used.

As FIG. 2 shows, a digital shower time switch 5 consists of a switching stage 13, which is a bistable toggle stage 14 is controlled, a counter stage 15 with a static frequency divider 16 and a pulse shaper stage 17, to the input 6 of which the output 7 of the clock generator 8 shown in FIG. 3 is connected.

After pressing the push button switch 9, the excitation windings of the solenoid valves 2 and 3 receive an excitation current, so that the water supply of the assigned shower is released. With the actuation of the push button switch 9 will the bistable multivibrator 14 controlling the excitation current of the solenoid valves 2 and 3 and the counter stage 15 are reset. The pulses supplied by the external clock generator to input 6 are then entered in the counter stage counted, which emits an output pulse at the 100th count pulse with which the bistable flip-flop 14 is set, so that the solenoid valves are de-energized after 1,000 pulses from the clock generator 8 and a registration pulse at output 10 occurs. The operating time of the shower can be set by changing the frequency of the clock generator 8.

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The switching stage 13 has a switching transistor 18, in whose collector circuit a relay 20 with the normally open 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 U _n reaches the anode of a rectifier diode 23 with which the direct voltage required to operate the switching stage 13 is generated. This direct voltage is suppressed by an electrolytic capacitor 2 4. 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 aid of a resistor 26 and a Zener diode 27, a second, lower, stabilized direct voltage for the operation of the remaining stages 14, 15 and the digital shower timer 5 is obtained. The bistable multivibrator 14 is reset via a capacitor 28 and a resistor 29 by a pulse obtained from the rising edge of the direct current supply. It has two operational amplifiers 32 and 33 coupled to one another via two resistors 30, 31 and a negative feedback capacitor 39. The base of the switching transistor 18, which is connected to ground via a resistor 34 and a resistor to the output of the operational amplifier 32, receives a positive control voltage as soon as the flip-flop 14 is reset, so that the switching transistor becomes conductive and that via the relay 20 current flowing causes the relay contacts 21 and 22 to close. As a result, the push button switch 9 is short-circuited and can be released. In addition, the consumer circuit is closed via the normally open contact 22, the control output and the windings of the two solenoid valves 2 and 3. 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 switching on of the digital shower timer 5, a voltage pulse is obtained, which is sent via a resistor 38 to the reset input a static frequency divider 16 is connected. The output of the static frequency divider 16 is located via a working resistor 40 to ground and via a resistor 41 to the set input of the bistable multivibrator After the 1,000 pulse at the input 42 of the static frequency divider 16, a pulse appears at its output with the the bistable multivibrator 14 is set and the acoustic transistor 18 is switched back to the blocked state.

When switching the switching transistor 18 into the non-conductive State increases its collector voltage. This voltage increase is used for decoupling Series connection of a diode 43 and a resistor 4 4 transmitted to the registration output 10. Since after switching of the transistor 18 the holding current of the relay 20 is undershot, its working contacts 21 open and 22, so that the water supply is blocked via the solenoid valves 2 and 3 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 The induction voltage occurring in the relay 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 inverting The input is connected to the output of an operational amplifier 46 and via a resistor 47 to ground is connected. The inverting input of the operational amplifier 46 is applied via a resistor 53 the input 6 of the digital shower timer 5 and via a resistor 48 to ground. The output and the inverting Input of the operational amplifier 46 are connected to a

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Negative feedback resistor 49 connected. The non-inverting ones Inputs of the operational amplifiers 45 and 46 are on a high-value resistors 50 and 51 fixed positive potential. The pulses applied to input 6 are filtered with the aid of a capacitor 52 and via the two operational amplifiers 45 and 46 connected as inverters to the pulse shaping stage 17 the input 42 of the static frequency divider 16 is given.

The duration during which the switching transistor 18 after actuation of the push button switch 9 conducts depends on the frequency of the pulses given to the input 6 will. These pulses are generated in the clock generator 8 shown in FIG. 3. The clock generator 8 is with a well stabilized DC voltage U. , provided and essentially comprises a square-wave pulse generator with operational amplifier 60 of high temperature stability. The pulse frequency of the square-wave pulse generator can be change with the help of a variable resistor 61 and is determined by the time constant of the resistors 61 and and the capacitor 63 formed RC element is determined. The charging voltage of the capacitor 6 3 passes through a Resistor 64 to the inverting input of operational amplifier 60. The initial potential of the charge becomes determined by a voltage divider from the resistors 65 and 65, which together with the pulse-pause ratio the voltage divider from the resistors 67 and 6 8 defines. The tapped voltage is passed through a resistor 69 to the non-inverting input of the operational amplifier 60. A working resistor 70 connects the Output of the operational amplifier 60 with the operating voltage. A capacitor 71 for frequency compensation connects its output with a corresponding compensation input. Also lies between the output of the operational amplifier 60 and ground a resistor 72.

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The output voltage of the square wave generator arrives Via an inverter and pulse shaper 73 to the counting input of a four-digit binary counter 74, whose Outputs are connected to the four inputs of a BCD decoder 75, and to a selector switch 76th via a selector switch 77 becomes one of the outputs of the BCD decoder 75 via an inverter 7 8 with the reset input of the binary counter 74 connected. As soon as the counter reaches the count established by the selector switch 77 it is reset and starts counting again from zero. This allows the duration of a Change the counting cycle and thus the frequency of the pulse voltages that can be taken from the four outputs the selector switch 76 becomes the output of the corresponding to a certain position of the selector switch 77 Binary counter 74 or its input is connected to the input of an inverter 79. With the help of the two selector switches 76 and 77 all integer partial ratios up to and including 9 can then be set. Of the The output of the inverter 79 is connected to the input of an im via a diode 80 which increases the static immunity to interference essentially consisting of a transistor 81 control amplifier. The transistor 81, the base of which is over a resistor 82 is connected to ground, controls a power transistor 83 with a load resistor 84, the hot end of which is connected to the output 7 of the clock generator 8 via an electrolytic capacitor 85. The base of the power transistor 83 is connected to the one formed as a voltage divider with the resistors 86 and 87 Working resistance of transistor 81.

In a further embodiment shown in FIG. 4, the pulse shaper stage 17 consists of a single one Operational amplifier 45, and the second operational amplifier 100 is a square-wave pulse generator with one

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adjustable frequency switched. This switching takes place with separate, self-controlled showers of a shower system Use.

The switching stage 13, the bistable multivibrator 14, the counter stage 15 and the inverter driving the counter stage 15 correspond to the first exemplary embodiment and have the same reference numbers. The square-wave generator has an RC element made up of resistors 1O1 and and a capacitor 103 which has the oscillation frequency, the is adjustable by the resistor 102 is determined. A resistor 104 connects the output of the operational amplifier 100 with its non-inverting input and, due to the positive feedback, results in steep rising edges of the Impulses. The inverting input is connected to the capacitor 103 via a resistor 105. Between the Operating voltage and 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 a meter for each group of showers. He can go with one of Hand or be connected by a timer triggerable meter reading printer. It is also possible to check the meter reading to be entered into an IT system via an interface. For direct billing, the connection of a The coin switch is switched off by the registration pulse and the insertion of a coin is switched on will. It is advantageous to use a switch that controls the pulses from the clock generator and the The control current of the solenoid valves 2 and 3 is interrupted so that the shower time can be used as desired.

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Claims (12)

- «Γ patent claims / ^ j j ij 4 7 b 1.; shower system consisting of at least one shower with solenoid valve control, their solenoid valves by an electrical shower timer that can be triggered by the user can be switched on and off, characterized in that the shower time switch (5) has a pulse counter (16) contains, the pulses supplied by a clock generator (8) counts during the shower time and 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) has one for connecting a Registration device (12) has certain electrical output (1O) at which when the predetermined Meter reading a registration pulse can be emitted. 3. Shower system according to claim 1 or 2, characterized in that several shower time switches (5) one 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 having 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. ⁷ O9 8A7 / 005V - 11 - .OWäWAL 6. Shower system according to one of claims 1 to 5, characterized in that the switching stage (13) of the shower timer (5) is controlled by a bistable toggle stage (14), which is activated when the shower timer is switched on (5) can be reset to the state that opens the switching stage (13) and by means of the output pulse one over a pulse shaper (17) to a clock generator (8) connected and when switching on the shower timer (5) reset counter stage (15) in the second the switching stage (13) locking 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) work with a lower operating voltage. 8. Shower system according to claim 6, characterized in that the switching stage in the collector circuit of the switching transistor (18) (13) a relay (20) with a two-pole normally open contact with its first via a push button switch (9) Bridgeable contact (21) in the supply circuit of the shower time switch (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 that the output (10), which transmits a pulse at the end of the shower time, is via a resistor (4 4) 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-wave pulse generator (60) and a frequency divider (74, 75, 76, 77), and ⁷ O9 847/005 ι - 12 - that the frequency of the clock generator (8) by changing the basic frequency of the square pulse generator (60)
or by changing the partial ratio of the frequency divider (74, 75, 76, 77). 11. Shower system according to one of claims 1 to 10, characterized characterized in that the registration device (12) is a coin operated switch, with a repeatable switching on and switching off the time measurement and the shower (1) 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) can be triggered by hand or by a clock
is a meter connected to a meter reading printer to determine the number of times the shower has been used. 709847/005