DE1639024C - Delay relay - Google Patents

Description

The invention relates to a relay delay mil of a snap device, which consists of a Schimppplnttei and a vcrliingerndcn located at Erwlirmcn train "band, which the Schnuppplntlc in a first end position HIiIt and after heating it in a / wide end position skip Lift ye.

Most of the delay times in use today devices are usually sensitive to worms Bimetallic strips as part of the device to prevent it from responding prematurely impede. This heat sensitive strip normally becomes a contact pair in one when cold hold closed position. The direct or indirect heating of the bimetallic strip brings about that its metals expand differently and that part of it moves in the direction in which the contacts were opened. Bimetal devices respond relatively slowly to heat and therefore cause a delay between the application of the voltage to the terminal contactsc and opening the circuit. The delay duration is directly related to the expansion coefficient of the metals that make up the Strip is composed, and further with its mass. Although devices of this type are found in certain Applications have proven to be expedient, their production is costly and the delay The duration they can cause is limited. They also need special tension be matched to the circuit in which they are used.

In order to avoid these disadvantages, a delay relay of the type specified at the beginning is assumed, which is designed according to the invention in such a way that a heated by a heating coil Resistance with a large positive temperature coefficient is connected in parallel to the tension band and when the snap plate skips from its first to its second end position, the resistor and its heating coil switched off and a power consumption cr is switched on.

If voltage is applied to the connection contacts of the relay for the first time in this arrangement, the is sufficient Current because of the parallel connection via the resistor with a large positive temperature coefficient not enough to warm and stretch the drawstring. The temperature of the resistor increases then under the action of the heating coil, so that a larger part of the current through the tension band flows, this heats up and thereby lets the snap-hook jump into its other end position. This will the circuit for the power consumption is closed, at the same time, the circuits for the resistor have a large positive temperature coefficient and opened for its heating coil; the drawstring, however, remains heated.

Deceleration devices with a snap-on plate, which are used as Stromkreisunlerbrccher, flasher devices or the like, speak per se compared to the delay devices working with heat-sensitive bimetal strips relatively quickly. Through your positive education with the means given there is a very simple delay relay that is also used for Slrom consumptioncr is applicable, the mil large delay be switched on and the ropes also stay switched on.

This relay also offers the advantage that it is immediately ready for another delayed switch-on after switching off the power consumer.

The use of a resistor with a high positive temperature coefficient, that is, a so-called PTC thermistor, as a delay element is known in Rclaislechnik. Up to now, however, it has only been used there in connection with magnetic switches and in such a way that it

gang and not primarily heated by a special heating coil. Since the PTC thermistor in the known delay devices remains under power for hours even when the power consumption is switched on, it cannot cool down during the switch-on time of the power consumer, so that it is not available for an immediate delayed restart when the relay is switched off.

In order to maintain the heat in the drawstring when the consumer is switched on, the drawstring is used according to the invention, it is expediently permanently connected to the relay circuit in its central area, in such a way that that after skipping the Schnapppiaitc in the second end position, the tension band as a result of current flow remains in the expanded state.

As in a second embodiment of the invention it is provided that the tension band has a movable contact in its central area which cooperates with a stationary contact in such a way that the one encompassing the drawstring Relay circuit closed in the first end position of the snap plate and in its second end position is open and that an additional heater for the drawstring is switched so that when the Snap-on plate is in its second end position, the

Drawstring heated and held in the expanded state. In the following the invention is illustrated more schematically by means of hand Drawings of exemplary embodiments explained in more detail.

F i g. 1 is a schematic representation of an in Series-connected delay relay according to the invention, in which a line in the middle of the Drawstring attached;

F i g. Figure 2 is a similar schematic illustration of another embodiment of the invention Relay in which separate heating devices are placed in the vicinity of the pulling device and the line is connected to the pulling device by a normally closed contact is;

F i g. 3 is a circuit diagram of the relay according to FIGS. 1, and

F i g. 4 is a circuit diagram of the relay according to FIG. 2.

The 'relay according to FIG. 1 has a base 2 Insulating material through which three terminals 4, 6 and 8 for connection to an outer one Extend the circuit. A holding part 12 is attached to the base 2 and the arched or convex As shown in FIG. 1, the side of the snap plate 10 is attached to the upper end of the holder 12. The holder 12 is preferably designed as an extension of the terminal 6, which is connected to the positive Pole of Stromc] ucllc can be connected. The snap-fit 10 is around the longitudinal axis denoted by 14 bent or deformed so that it is normally curved towards the viewer. A drawstring lift lies above the normally curved ropes of the snap hook 10 and its ends are below it

Tension at diagonally opposite corners of it so the Schiwppplallc 1 * gcMutiel, attached in its normal Sehnappplatle 10, whereby these corners jump to the pre-tensioned position. As a result, the contacts 19 and 2 are bent over from their associated cones on opposite surfaces of the tendon platelets, in order to separate an anchorage for the tensile file and to form the ßeluslunyssiromkicis to the band. 5 Terminal 4 via terminals 3 and 32

A contact 20 is, as in Fig. | shown in the closed. The delay caused by the relay Near the lower right corner on the Schnuppplattc corresponds to the Auflieizzeil of the opposing country 10 arranged and a fixed, from the base 2 22. With suitable dimcnsionierung this carried Contact 21 is arranged so that it can be connected to the stand and the heating device Contact 20 is present when the drawstring is cold. io gen of over 5 minutes can be achieved. The cons-that one end of a resistor 22 is conductive with stand 22 can, for example, consist of a <) »> '„ iian connected to the contact 21 and its other end made of nickel alloy and a DniliUlurchnu'sist via a tapping resistor 24 with a holder scr of 0.38 mm and a contradiction from I to 26 connected, which have a continuation of the connection 3 ohms at room temperature. The counter-clamp c8 forms. The resistor 22 is coil-like 15 stood the heating winding can / wipe 25 and formed and made of a material that has a 30 ohm range, while the drawstring has a resistance positive Tempcraturwiderslandskocffizicntcn stand of 0.2 to 0.6 ohms. owns. Terminal 8 can be connected to the ncgati- By opening contacts 18, 19 and 20, -I

be connected to the pole of the power source. The connection does not cool down the pulling device. while still dung / wipe the resistor 22 and dom resistor 20 voltage is applied, since current continues through the Ζιιμ-sland At 28, 24 is fixed to the tension band 16 in the wc band 16, the fixed connection 28 and the wc-ersenllichcn in the center of which bcfestiet. A heating stand 24 flows to the negative connection terminal 8, Winding 30 is within the resistor 22 angc- By the relay is therefore the current consumer arranges, with one end of this heating coil fed with 3S, until the voltage from the terminal cinem fixed contact 18 is connected. The 25 terminals of the relay are removed. Since the Contact 18 is held by base 2 and is located heating coil 3 and resistor 22 bold normally on a Kentakt 19, which is on the lcn when the power consumer is switched on, Sehnappplatle 10 is arranged at the bottom left, as in FIG. 2, the relay jumps back immediately when the voltage is applied Fig. 1 shown. The other end of the heating coil 30 is removed and is functional again. is about the holder 26 and the terminal 8 30 Below is another embodiment connected to the negative pole of the power source. in connection with FIGS. 2 and 4. The resistor 22 and the heating winding 30 can also be in the embodiment of FIG

a series-connected snap device mounted on an insulated pin (not shown), which is set up vertically from the relay base 2, which has a snap plate 10 and a drawstring extends above. A contact 32 is included on a pin 34 35 16. As in Fig. 1, the Haller 12 is for the attached and is at a distance from a contact 31 curved part with the positive terminal 6 which is normally connected to the outside gc- through which the relay is energized. the curved side of the curved part 10 is arranged. Terminal 8 is with the negative pole of Current only flows through contacts 3ί and 32, power source connected. In Fig. 4 is an additional when the curved portion is shown loading 38 due to the extension 40 occurring between a terminal of the Pulling device 16 his Vorspannungsstcllung terminal 9 of the relay and the negative, Pc 1 of the has taken. The pin 34 is connected to the on-current source. Terminal 9 is schliißklemme4 in connection, which, as in Fig. 3 connected to a Hallclcil40, at its upper shown, with an external power consumer 36 ver end a contact 42 is attached and arranged, can be bound. 45 that it is fastened with a

The function of the relay described above th contact 44 can cooperate. The contacts 1, in the following in connection with 42 and 44 are normally closed. An own the circuit diagram of FIG. 3 described. When the heating coil46 surrounds part of the drawstring Switch 5 is closed and voltage is applied to terminal 16, one end of the winding being connected to the connection terminals 6 and 8, current flows through the so clock 32 is connected, while the other end of the dic snap-on plate 10 and the contacts 18 and 19 to the scr heating winding with a holder 26 is connected. To excite heating coil 30. A significant part of the an extension of the negative terminal current also flows through the contacts 20 and 21 terminal 8 forms.

and as a result of its low initial resistance. The mode of operation of the relay according to FIG. 2 and 4

through resistor 22. The remaining current flowing 55 is the following:

through the drawstring 16 and the junction 28. When the switch is closed, that's enough

to the resistor 24 and to the terminal 8. Since the current flowing through the tension band 16 because of the the resistor 22 with the tension band parallel to the resistor 22 formed by parallel is switched, the current in the drawstring is insufficient, not sufficient. to expand the drawstring to cause it to expand and do that. The load 38 is through the Actuate relay. Since the resistor 22 eriviil a positive current flowing in parallel and tivcn Tcmpcrahirwiderstandskocfficiencn, the heating winding 30 is also over the constraint his resistance level while he turned through the takle42 and 44. After a delay heating winding 30 is heated, whereby the by ningszeitspannc, during which the heating coil 30 The current flowing through the tension band 16 increases accordingly 65 the temperature of the resistor 22, the If the temperature is set, the slrcni in the drawstring is so strong that there is a struggle If the current in the pulling device is sufficient, it causes expansion and the snap-on board SO to cause it to fully expand and spring into its normal preloaded position. In

this position of the Schnappplatlc is the load 38 is cut off from the power supply by opening normally closed contacts 42 and 44. The heating coil 30 is also cut off from the power supply and begins to cool down. The current collector 36 is now over together with the separate heating coil 46 contacts 31 and 32 switched on. As long as voltage is applied to the terminals of the relay, the separate heating coil 46 causes the drawstring to remain stretched. When the voltage is removed the relay is immediately restored to its function.

IX .., relay according to the invention can be used in many cases in which when switching on of a consumer a delay is required. For example, the relay according to FIG. 3 can be designed in this way be that it serves as a warning device for motorists, to make them aware that they are driving with the brake applied. By Meclian Connection of the switch S to the brake pedal 'of a vehicle is effective Warning device. The Baltcries'rom of the vehicle is fed to the relay when the switch is through Depressing the brake pedal is closed. The relay will then respond by a few minutes delayed. Under normal braking conditions, the power consumer 36, which in this case is the Warning lamp on the dashboard may not be energized during the delay period. When however, a driver inadvertently depresses the brake pedal longer than during the delay period, the relay responds and energizes the warning lamp, which is arranged in the driver's field of vision is.

The present invention is not limited to use in motor vehicles, but rather can also be used in other cases where delays are required. Further application examples are overload protection, starter motors, regulators for air conditioning systems and circulating heaters.

The invention has now been described on the basis of two exemplary embodiments in which delays of at least five minutes can be achieved. The design features of the relay, such as B. the shape of the snap plate, the orientation of the drawstring with respect to the deformation of the snap plate or the type of deformation can be varied within the scope of the invention. as long as the relay itself is a snap-action mechanism connected in series. Although the heating coil 46 is shown in this way in FIG. 4. that it surrounds less than half of the tension band, a larger or smaller part of the tension band can be enclosed by the winding to absorb heat, this heating winding not necessarily having to enclose the tension band. rather, heat can also be dissipated when the heating winding is arranged in the immediate vicinity of the tension band. Further modifications within the scope of the invention will be apparent to those skilled in the art.

Claims (7)

Patent claims: 1. Delay relay with a snap device consisting of a snap plate and a the drawstring, which extends when heated, sees the snap-on plate in a first end position holds and, after it has been heated, lets it jump to a second end position, d ad u rch marked, that a heating coil (30) heatable resistor (22) with a large positive Temperature coefficient to the drawstring (16) is connected in parallel and when skipping the Snap clip (10) from its first to its second insert of the resistor (22) and its heating coil (30) are switched off and a steam consumer (36) is switched on. 2. Delay relay according to claim 1, characterized in that the tension strap (16) in its central area (23) is firmly connected to the relay circuit, such that after Skipping of the snap plate (10) into the second end position, the tension band (16) as a result of the current flowing through it remains in the expanded state (Figs. 1 and 3). 3. Delay relay according to claim 1, characterized in that the tension strap (16) in its central area has a movable contact (44) with a fixed Contact (42) cooperates so that the tension band (16) comprehensive Relaisylromkreis in the first end position of the snap plate (10) closed and opened in its second end position is and that an additional heater (46) for the drawstring (16) is switched so that, when the Schnappplattc (10) is in its second end position, the tension band (16) is heated and in the expanded State holds. (Figs. 2 and 4). 4. Delay relay according to one of claims 1 to 3, characterized in that the Snap plate (10) has two movable contacts (20, 19) with two fixed contacts (21, 18) interact, to which the resistor (22) with a large temperature coefficient or its heating coil (30) are connected. 5. Delay relay according to one of claims 1 to 4, characterized in that the Snap plate (10) has a movable contact (31) which is connected to the power consumer (36) connected contact (32) cooperates. 6. Delay relay according to one of claims 1 to 5, characterized in that the power consumption (36) of the Bclastungsstromkreieps is a warning signal lamp in the interior of a motor vehicle. 7. Delay relay according to one of claims 1 to 6, characterized in that the a great positive temperature having resistor (22) is formed like a coil and made of nickel alloy with a high positive temperature resistance coefficient exists. 1 sheet of drawings