DE3732156A1 - SAFETY DEVICE FOR IRON - Google Patents

Abstract

The device comprises a sensor 3 for detecting arrest of the iron, a timing circuit 2 controlled by the sensor and, in turn, controlling a safety switch 15 for enabling or disabling electrical supply to a resistor for heating the iron. The sensor, timer and safety switch are supplied directly with mains voltage, ie no voltage reducing or rectifying elements are interposed between the supply and these components. The motion sensor 3 preferably comprises a housing with a sloping base and containing a mecury bead and three spaced-apart electrodes 6, 7 and 8. <IMAGE>

Description

The invention relates to a safety device for irons, with one that detects their non-movement Sensor, and with a timer controlled by the latter, which is on the other hand controls a switching device that a heating resistor level of the iron by means of a safety switch with electricity supplies or switches off.

Safety devices for hand-operated household hangers Irons are designed to deal with anger and dangers avoid caused by the operator be forgotten, the iron from the power supply switch off when it is no longer needed. Known Safety devices usually involve inertia switch to activate or reset a timer, who usually works electronically and a relay scarf ter or similar controls the power supply to the iron switch off and activate a special alarm device. If the iron in its horizontal position is more than one predetermined period of time remains motionless, preferably 30 Se  customers, the timer expires and operates the relay Alarm device and switches the power supply to the heater resistance of the iron.

On the other hand, if the iron is horizontal in normal Is moved, the timer is reset and as a result the alarm is turned off and the power supply of the heating resistor resumed. With normal actuation The iron rarely lasts longer than the set 30 Seconds left motionless, with each movement the timer resets, so that the power cut-off and the alarm stay inactive.

If the iron, however, for some reason more when 30 seconds remain motionless, the security guard direction activated to harm the operator or to To prevent things, house and property. If the iron in its vertical position left unmoved on its stand the safety device works in the same way, like in a horizontal position, but with a lot longer time interval, usually 7 or 8 minutes.

Known devices of the aforementioned type require extremely high manufacturing costs, mainly due to the Using integrated circuit (IC) timers with Low voltage direct current can be supplied, which by Trans formation, rectification, filtering and stabilization of Mains voltage is generated. In addition, the high Her cost of ownership due to the fact that separate components for Switch off the power supply and activate the alarm signal to be used.

Another disadvantage is the large number of used ones Components that have problems with mass production bring and in addition the format and weight of the front increase direction.

The object of the present invention is to provide the mentioned disadvantages due to a new technical solution  avoid by turning off the power and the alarm functions in a simple way by a single electromechanical Element run directly by mains voltage is supplied.

Another object of the present invention is a pre direction that uses known components, but in one is assembled in a completely new way. The components are readily available, simple in design, easy to assemble and small in number to format and reduce the weight of the device.

This task is the security device type mentioned in that the sensor, the Timer and the switching device directly with mains voltage are supplied.

Further advantageous embodiments of the invention are in described the subclaims.

The invention is based on a Darge in the drawing presented embodiment explained. It shows:

Fig. 1 is a block diagram of the electrical system of the device OF INVENTION to the invention,

Fig. 2 is a schematic side view of the first block of FIG. 1,

Fig. 3 is a schematic side view of the second block of Fig. 1,

Fig. 4 is an electric circuit of the apparatus of Fig. 1,

Fig. 5 is a perspective view of the front of the direction according to the invention, which is housed in a container,

Fig. 6 is a side view of an iron incorporating the device of Fig. 5 in its horizontal position, and

Fig. 7 is a side view of the iron of Fig. 6 in the vertical position.

In Fig. 1, reference numeral 1 denotes a power switching and the Combined alarm mechanism or a Schaltvor device 1 which is controlled by a timer 2, which is turn is controlled by a sensor 3 his. Referring to FIG. 3, the sensor 3 has a body 4 which is formed for example of transparent plastic with suitable wall thickness and 4 a as the electrically conductive element comprises a mercury ball 5, and three electrodes 6, 7, 8. If the closed body 4 is arranged horizontally with a base "A", the inclination of the bottom 5 a of the body 4 causes the electrical contact closure of the contacts 6 , 7 through the mercury ball 5 .

Should the iron be slightly inclined in any direction, this contact closure is ensured at all times by the bottom 5 a of the body 4 if the bottom 5 a is inclined in two mutually perpendicular directions 5 b and 5 d ( FIG. 5), e.g. B. both in its width and in its length.

When the body 4 relatively fast horizontal and in the longitudinal direction is moved, the mercury ball 5 moves as a result of inertia within the body 4 so that the contacts 6, 7 temporarily opened and the contacts 7, 8 are closed, after which the ball 5 in its Starting position returns, which is shown in solid lines in Fig. 3 when the movement stops.

On the other hand, when the body 4 is tilted vertically because the iron is brought into its upright position as described later so that the base "A" of the body 4 is replaced by the base "B", the mercury ball 5 moves into the dot-dash line Position 5 c shown , whereby the contacts 6 , 7 are opened and the contacts 7 , 8 are closed, and finally arrives in the body 4 in a position in which it only touches the electrode 8 .

In Fig. 2, 10 denotes a sound generating device with an AC-supplied solenoid or electromagnet 11 , which has a coaxial cylindrical core 12 made of soft iron, at the tip of which is screwed a threaded pin 40 which is adjustable, e.g. B. protrudes by 1/10 mm from this tip. Attached to the lower part of the core 12 is a right-angled body 45 forming part of the magnetic circuit, at the other end of which an armature 13 is arranged such that it can be swiveled, one end projecting beyond the pin 40 and the other end via a tension spring 14 on one Projection 46 of the body 45 is attached. On the upper side of the end adjacent to the pin 40 , the armature 13 has a first contact 15 , which is opposite the fixed contact 15 , which is connected to a terminal 42 of the device.

The contacts 15 of the switching device 10 are originally closed as a result of the tension exerted on the armature 13 by the spring 14 .

When the electromagnet 11 is supplied with alternating current, the electromagnetic force of the core 12 attracts the armature 13 so that the contacts 15 of the switching device 10 are opened. The oppositely directed forces of the spring 14 and the changing magnetic field act together and cause the armature 13 to drum on the pin 40 , which has the same frequency as the current feeding the electromagnet 11 , and acts as an alarm signal.

The switching device 10 is designed so that the armature 13 moves when the electromagnet 11 is excited in the immediate vicinity of the core 12 up and down, so that the contacts 15 do not touch, which thus remain open. When the electromagnet 11 is no longer supplied with power, the armature 13 , which is no longer held back by the electromagnetic field, is returned to its starting position by the spring 14 and therefore closes the contacts 15 . The reference numeral 1 a of Fig. 2 denotes a resilient electrical connection between the armature 13 for connecting the contact 15 to a terminal 41 of the device.

The reference numeral 2 in Fig. 4 denotes an elec trical circuit, namely a timer 2 with a diode 20 , the anode of which is connected to a terminal 43 and the cathode of which is connected to the resistors 21 , 22 . The resistor 21 is connected at the other end to the positive terminal of an electrolytic capacitor 23 , to the electrode of a gas lamp 24 , to the cathode of a diode 25 and to the electrode 7 of the sensor 3 . The resistor 22 is connected at the other end to the electrode 6 of the sensor 3 . The electrode 8 of the mercury sensor 3 is connected to the terminal 41 via an opponent 26 , the terminal 41 also being connected to the negative terminal of the electrolytic capacitor 23 . The gas lamp 24 is connected to the terminal 41 via a resistor 27 . The annode of the diode 25 is connected via a resistor 28 to a node 30 which is connected to a terminal of a photoresistor 29 which is arranged such that it can be illuminated by the gas lamp 24 . The node 30 is connected to a terminal of the electromagnet 11 . The other terminals of the electromagnet 11 and the photoresistor 29 are connected to the terminals 41 and 43 , respectively.

When the iron is supplied with mains voltage and, as a result, also the device via the terminals 41 , 43 , the capacitor 23 is originally discharged, the gas lamp 24 is off and the photoresistor 29 has its greatest resistance value. As a result, the node 30 has the same electrical potential as the terminal 41 and the power supply to the electromagnet 11 is switched off. As already described, the contacts 15 are closed and the heating resistor connected between the terminals 43 and 42 is supplied with current and thereby protected by the contacts 15 , which act as safety switches.

When the iron is placed horizontally, the body 4 is the mercury sensor 3 as shown by the solid line of Fig. 3 are arranged, and the electrodes 6, 7 are electrically connected. Via the diode 20 and the resistors 21 , 22 connected in parallel by means of the electrodes 6 , 7 , the positive half-waves of the mains voltage charge the capacitor 23 within a certain time interval, which is determined by the component parameters, usually within 30 seconds.

If after the end of this tent, the voltage at the terminals of the capacitor 23 is sufficiently large to ignite the gas lamp 24 , this is activated and lights up on the photo resistor 29 , which consequently becomes a magnet 11 for the power supply of the electric. At the same time, the armature 13 is pulled against the core 12 to open the contacts 15 of the safety switch and thus to switch off the supply of the heating resistor of the iron. Furthermore, an alarm is given by the armature 13 , which drums on the pin 14 of the core 12 at the mains frequency.

As a result, node 30 now has the same potential as terminal 43 and the positive half-waves keep capacitor 23 charged via resistor 28 and diode 25 , so that the above-mentioned conditions are maintained.

If the body 4 is moved horizontally and in the longitudinal direction, so that the mercury ball 5 is moved into the position 5 c shown by a dash-dotted line, there is a contact between the electrodes 7 , 8 , so that the capacitor 23 via the resistor 26 is discharged, whereupon the gas lamp 24 goes out, the photoresistor 29 again has its maximum resistance value, the power supply to the electromagnet 11 is interrupted and the armature 13 returns to its starting position in which the contacts 15 are closed, the power supply to the heating resistor of the Iron restored and the alarm can be switched off.

A new timer cycle is started when the body 4 and the iron are moved back to their unmoved position.

As soon as contact is made between the electrodes 7 , 8 during normal use of the iron, the capacitor 23 is discharged and the timer cycle is started again. Therefore, if the body 4 is moved in time intervals of less than the aforementioned length, for example 30 seconds, the timer cycle cannot be completed and the alarm is not activated.

If the body 4 is arranged upright, that is to say resting on its base “B”, the mercury ball 5 first makes contact between the electrodes 7 , 8 and thus discharges the capacitor 23 , then moves into position 5 c on the bottom of the body 4 , where it only touches the electrode 8 .

In this case, the resistor 22 is exempted from its capacitor 23 loading function, which is then only fulfilled by the resistor 21 , the dimensioning of which determines a much longer charging time, e.g. B. 8 minutes, after which the alarm is started again.

When the body 4 is moved back to its horizontal position, the capacitor 23 is discharged and the cycle of operation described above is repeated.

According to Fig. 5, all the components 1, 2 and 3 are installed in a compact, lightweight container 23 which is made of plastic and a removable or hinged lid 34 has, which ensures an optimum seal against vapor and liquid.

The reference numeral 60 in Fig. 6 denotes a horizontally arranged iron, which has a safety device according to the invention. The iron 60 has a handle 61 in which the aforementioned container 33 , which accommodates the components 1 , 2 and 3 , is arranged horizontally. When the iron 60 is placed horizontally, the sensor 3 is also in its horizontal position shown in FIG. 3. The iron 60 has, for example, within its body angeord Neten connection 63 , which has two terminals 64 , 65 for connection to the household network. The terminal 64 is connected to the terminal 41 of the safety device, while the terminal 65 is connected to the other terminal 43 and to a terminal of the heating resistor 66 housed in the body of the iron 60 , the other terminal of which is connected to the terminal 42 of the safety device.

Fig. 7 shows the iron 60 in its vertical position.

The advantages of the safety device according to the invention result from the above description. In particular the safety device is inexpensive and easy to manufacture len because it is supplied directly with AC voltage; on components readily available on the market; not two structurally different components to switch off the Heating resistor and needed to give the alarm; and compact format.

For the average person skilled in the art it is understood that modifications can be made to the embodiment described and shown in the drawing, for example, without leaving the scope of protection of the present invention. For example, the electrical circuitry of the timer 2 can be designed differently and - although it is still controlled by the sensor 3 - control a triac thyristor to control the power supply to the electromagnet 11 instead of the photoresistor 29 , including the gas lamp 24 is unnecessary.

Claims (11)

1.Safety device for irons, with a sensor not detecting its actuation , and with a timer controlled by the latter, which in turn controls a switching device which provides or switches off a heating resistor of the iron by means of a safety switch with current, characterized in that the sensor ( 3 ), the timer ( 2 ) and the switching device ( 1 ) are directly supplied with mains voltage. 2. Device according to claim 1, characterized in that the sensor ( 3 ) has an inertia switch ter, which has a number of electrodes ( 6 , 7 , 8 ), which are a function of the position or movement of the iron ( 60 ) Can be connected to one another in different ways so that the electrodes ( 6 , 7 , 8 ) form at least a first pair ( 6 , 7 ), between which a connection can be established in at least one holding position of the iron ( 60 ), and a second pair ( 7 , 8 ), the electrodes of which can be connected to one another when the iron ( 60 ) moves; that the electrodes ( 6 , 7 ; 7 , 8 ) can be connected to a circuit activating the timer and to a circuit resetting the timer. 3. Apparatus according to claim 2, characterized in that two pairs of electrodes ( 6 , 7 and 7 , 8 ), an electrode ( 7 ) is common. 4. Apparatus according to claim 2 or 3, characterized in that the inertia switch ( 3 ) in a second holding position of the iron ( 60 ) an elec trical connection between the first and second pair of electrodes ( 6 , 7 and 7 , 8 ) prevented by a second circuit to activate the timer ( 2 ). 5. Device according to one of claims 1 to 4, characterized in that the carrier switch ( 3 ) has a body ( 4 ) with the electrodes ( 6 , 7, 8 ) and a movable electrically conductive element (mercury ball 5 ), wherein the bottom ( 5 a ) of the body ( 4 ) is inclined in two directions ( 5 b , 5 d ). 6. Device according to one of claims 1 to 5, characterized in that the timer ( 2 ) has charging and discharging circuits with resistors ( 21 , 22 , 26 ) and with a capacitor ( 23 ). 7. Device according to one of claims 1 to 6, characterized in that the timer ( 2 ) Steuerermit tel (gas lamp 24 ; photo resistor 29 ) for controlling one of the switching device ( 1 ) associated switching device ( 10 ) for switching off the electrical power supply of the heating resistor ( 66 ), the switching device ( 10 ) also being a component of an alarm device (armature 13 , pin 40 ) for indicating the interruption of the electrical power supply. 8. The device according to claim 7, characterized in that the control means comprise a gas lamp ( 24 ) which is optically connected to a photo resistor ( 29 ). 9. The device according to claim 7 or 8, characterized in that the switching device ( 10 ) has an electromagnet ( 11 ) whose Stromver supply is controlled by the control means ( 29 ) and the one movable armature ( 13 ) as part of the safety switch ( Contacts 15 ) and in the case of the open safety switch (contacts 15 ) is an acoustic alarm signal generating vibration element. 10. Device according to one of claims 1 to 9, characterized in that it is arranged within a hand grip ( 61 ) of the iron ( 60 ). 11. Iron, marked by a safety guard Direction according to one of claims 1 to 10.