DE1275705B - Temperature switch - Google Patents

Description

Temperature switch In thermostatically controlled, electric hotplates, it is known to first heat up with high power until the set target temperature is reached, and to automatically switch to a lower heating power to regulate the setpoint using a temperature sensor system. As a result of the switching on and off of the small heating power, which is repeated depending on temperature fluctuations, the setpoint remains almost constant. The heating element formed for this purpose - in this case the hotplate - is generally equipped with two heating coils of different power consumption or shortly before the target temperature is reached, the low-power heating winding is switched or the high-power heating winding is switched off. The set target temperature is then regulated by repeatedly switching the low-power heating winding on and off. The high-power heating winding is only switched on again, if the low-power heating winding is not sufficient to keep the set temperature constant or if the heating element needs to be heated up again r target temperature is switched to the heating winding with low power. It is also known to use two heating windings connected in series or to apply different voltages to only one heating winding.

A known switching device that meets these switching requirements has a cup-shaped insulating material housing on two opposite sides. One of the cup-shaped spaces is used to accommodate a membrane that is placed over a capillary tube is connected to a temperature sensor arranged on the heating element. The membrane acts via an insulating pin through the partition wall in the second cup-shaped Contact levers housed in the chamber and pivotable in the axial direction of the membrane. A metal lid is used to cover the membrane chamber. In this one is an adjustable one Threaded bushing arranged for storage of a temperature adjustment shaft which is used for axial adjustment of the Meinbrane, according to the desired temperature, is used. This device has, regarding its construction, its dimensions and its specific switching capacity has major disadvantages. Due to the arrangement in a row the membrane and the contact sets in two different spaces as well as through the in Movements of these organs lying in the same direction make the device very long. aside from that the storage of the setting shaft requires great precision, as there is minimal thread play would lead to great circuit inaccuracy. For this reason, the well-known Device has a threaded bushing adjustable in its position by means of special organs inserted into the metal lid. The adjusting shaft guided in this threaded bushing is slotted in the area of its screw thread so that they work together without play between the nut thread of the bushing and the screw thread of the adjustment shaft is guaranteed. There is a special stop on the top of the metal lid intended to limit the angle of rotation, as an over-rotation of the setting shaft to a Deformation of the membrane and the destruction of the temperature contact set would. The main contacts can only be actuated by additional complex transmission means possible, the details of an insulating pin, a compression spring and a pivotable There are angle levers mounted in the metal plate, which are locked by a rotationally locked The disc arranged on the adjustment shaft is actuated. Both the temperature contact set As with the main contacts, the lack of a creeping contact separation is liable on, which means that the specific switching capacity is very low.

Furthermore, a device for switching an electric hotplate with multi-stage heating has become known, with a switching spindle with multi-stage rotary switch being provided, which is held in the continued cooking position of the switch against the resistance of a compression spring by a lever in a level of high heating power and depending on the temperature of the hotplate by means of a bimetallic temperature sensor, by releasing the switching spindle in its longitudinal movement, it is automatically switched to a level with lower continued cooking heat output (German patent specification 851231). This device is also extremely complicated and expensive and requires very extensive mechanics with an extremely large number of movable individual parts that are susceptible to failure. Furthermore, their area of application is very limited by the special design.

The invention relates to a temperature switch with a cup-shaped Insulated housing, in the bottom on the one hand and in one to the bottom at a distance On the other hand, a board arranged in parallel is one that can be operated by an actuating handle Control disk is mounted to the main contacts actuated by one of its control cams and a thermal contact set influenced by a thermal working member as well as the thermal working element and one actuated by a further control cam, with the thermal working member and the temperature contact set cooperating, pivotable mounted lever are arranged.

In a known device of this type (US Pat . No. 2,870,290) there is only a single temperature contact, so that it is not possible to use this switch for actuating a heating element with a heating and a control stage. Furthermore, in the known temperature switch, control by the pivotable lever is not inevitable and can therefore only be used with contact levers made of bimetal, so that the range of application of this switch is extremely limited. Finally, the contacts, the thermal working member and the pivotable lever are arranged in several planes, so that the switch is unnecessarily large.

The object of the invention is to build a temperature switch that is universally usable and its external dimensions can be kept small.

This task is achieved in that the main contacts, the temperature contact set, the thermal working element, preferably a pressurized can, and the pivotably mounted Levers are arranged radially distributed in a plane and that the temperature contact set from a contact part connected to the supply line and two with heating resistors connected contact parts consists, of which the former with a heating resistor high power and the further connected with a regulating resistor of low power is, and that the pivotably mounted lever by a pivotably mounted on it Control lever coupled with the further control cam and the thermal working element is.

In the drawing, various embodiments of the temperature switch according to the invention are shown. It shows F i g. 1 shows a plan view of a switching device with the cover plate removed, which is equipped with a movable contact arm which acts between two fixed contacts and is in the control position, FIG . 2 is a plan view corresponding to FIG. 1, with the movable contact arm switched to the heating position, FIG . 3 shows a plan view of the temperature contact set according to FIGS. 1 and 2, with the movable contact arm in the neutral position, FIG. 4 which the temperature contact set according to the F i g. 1 to 3 corresponding circuit, FIG. 5 shows a circuit with two fixed contacts acting in the heating stage, corresponding to a heating process with two heating windings connected in parallel, FIG . 5 a shows a possible design of the temperature contact set according to the circuit according to FIG. 5, Fig. A plan view of the switching device (partially shown only schematically) 6, in which the temperature set of contacts consists of a part connected to the supply line fixed contact, which is associated on each side, a movable contact arm (the temperature of contact set is located in a starting position), F i g. 7 the temperature contact set according to FIG. 6 in the switch-off position, FIG. 8 which the temperature contact set according to the F i g. 6 and 7 corresponding circuit, FIG. 9 shows a side view of the device and FIG. 10 an illustration of the hairpin-shaped snap spring.

According to the embodiment of FIGS. 1 to 4, a bearing plate 2 is arranged plane-parallel at a certain distance from the floor la (see also FIG. 9) of a pot-shaped insulating material housing 1. Between the bottom la and the plate 2, approximately at the intersection of the diagonals of the bottom, a control disc 4 provided with an adjusting shaft 3 that can be operated from the outside by a rotary handle is arranged. It is provided with a lower kreisförinigen cam 4a in a correspondingly shaped and an extension d 1 having bearing recess 1 c of the bottom 1 a used while setting shaft 3 penetrates through the support board. 2 The control disk 4 also has an upper control curve 4 b for influencing a temperature contact set. To the right of the control disk 4 main contacts 5 a, 5 b are provided, which protrude with laterally cut or riveted connection ends 5 c corresponding recesses in the bottom la for mounting the contacts and for the rear connection. The capped and downwardly in the extension of the bottomed recess 1 ld c protruding end 5 d of the movable Kontaktarmes5a slides on the circumference of the lower cam 4 a and falls in the zero position of the control disc in the Vertiefung4c a, whereby the main contacts 5 a, 5 b in are open when the switching device is in the zero position and are closed in all other settings. Depending on the requirements, the main contacts 5a, 5b can have one, two or three poles.

The bellows membrane 6 , which acts parallel to the bottom 1 a, is supported in a plate recess 2 a. A screw 6 b is fastened to its rear end plate 6 a , with which a nut 7 secured against axial displacement in the slot 2 b of the plate 2 cooperates. The membrane 6 can be adjusted by turning this nut. On the opposite end plate 6c, the pin 6e serving for the transmission of motion is arranged, which protrudes through a hole in a downwardly angled tab (not shown) of the board 2 cut out of the recess 2a. The membrane 6 is connected to the temperature sensor 6g via a capillary tube 6f. At the pivot point A , a lever consisting of two parallel webs 8a connected to one another by the connecting web 8b (only the upper one is visible) is pivotably articulated to the board 2. A two-armed regulating lever 9 is pivotally attached to this at the pivot point B, which rests with its upper end 9 a against the control cam 4 b and with its lower end 9 b against the pin 6 e of the membrane 6. By turning the control disk 4, the regulating lever 9 and via this the pivotable lever 8 a are adjusted in their positions; so that the path is set, which is set back to the desired temperature of the membrane 6, to produce a switching or disconnection of the contact set temperature described below via the pivotable lever. 8

At the free end of the swingable lever 8a an insulating piece 8 is fastened c. Between this and the arm 2 c of the board 2 acts a tension spring 10 which urges the lever 8 a, 8 c to the control disk. The temperature contact set consists of a movable contact arm 11, mounted on one side, which acts between a fixed contact 12 a connected to the heating winding 13 and a fixed contact 12 b connected to the helical winding 14 of the control stage. A hairpin-shaped latch spring 15 is supported with one leg behind a free from the end of the movable contact arm 11 bent out tongue 11 a and with the other leg in a slot or a hole 8 d of the upper lever part 8 c from.

According to FIG. 1 the switching device is in the zero position, i.e. That is, the main contacts 5 a, 5 b are open, and the circuit of the heating windings 13, 14 is interrupted. The movable contact arm 11 rests against the right fixed contact 12 b , but this has no effect. If a desired temperature is now set by turning the control disk 4 (see Fig. 2), the main contacts 5 a, 5 b are first closed, and at the same time the regulating lever 9 moves with its upper end 9 a in accordance with the sloping curve 4 b To the right. Since the lower end 9 b rests against the pin 6 e of the Meinbrane, the lever 8 a, 8 c also pivots to the right. Since this movement cannot be carried out by the movable contact arm 11 because it is in contact with the right fixed contact 12 b , there is an instantaneous switchover of the former to the left to the fixed contact 12 a, which means that the heating winding 13 is connected to voltage. The rising temperature results in an expansion to the left. This movement is transmitted to the lower end 9 b of the regulating lever 9 , which results in a pivoting movement of the lever 8 a, 8 c to the left. When the target temperature is reached, the spring 15 snaps and lifts the movable contact arm 11 from the fixed contact 12a momentarily. The movable contact arm 11 strikes against a nose 8 e of the insulating piece 8 c of the lever 8 a and initially remains in a neutral position. So there is currently no heating coil switched on. The temperature drops below the setpoint, whereupon a pivoting movement of the lever 8 a, 8 c to the right results. This movement is also carried out by the movable contact arm 11 , which lies on the fixed contact 12 b connected to the heating winding 14 for the control stage and switches it on. As a result, the temperature rises again, the lever 8 a, 8 c moves to the left and lifts the movable contact arm 11 again from the fixed contact 12 b and brings it into the neutral position. This last-mentioned pivoting movement of the lever 8 a, 8 c is limited by the abutment of the edge 8 f against the fixed contact 12 b , so that switching of the movable contact arm 11 to the fixed contact 12a and thus the restarting of the heating winding 13 is prevented . If, on the other hand, the heating coil 14 of the control stage # does not generate enough heat to keep the set temperature constant as a result of a larger amount of food, the lever 8 a, 8 c will pivot even further to the right after the movable contact arm 11 rests against the fixed contact 12 b that this results in a momentary switchover of the contact arm 11 to the left fixed contact 12 a.

It is of course possible to switch off the movable contact arm 11 shortly before the set target temperature is reached by the left fixed contact 12 a of the heating-up winding 13 and, due to an approximately shortened nose 8 e, switch directly to the right fixed contact 12 b for the heating winding 14 of the regulating stage. This avoids exceeding the setpoint temperature as a result of the always existing inertia in the heat transfer, especially when there is a small amount of food to be cooked. Here, it is still necessary, however, that the stop edge is set back slightly to the right 8f so for the purpose of regulating the movable contact 11 can be lifted from the fixed contact 12 b.

F i g. 5 shows a circuit in which two windings 20 and 21 are connected in parallel in the heating stage. This is done via the movable contact arms 22, 23, 24 which they are connected by the snap spring 15 'with the insulating piece 8 c' of the pivoting lever and controlled by a connecting insulating web. The heating winding 21 is connected to a fixed contact 21 a and the heating winding 20 with two fixed contacts 20 a, 20 a '. When switching from the heating to the control stage by the prevailing set temperature, the contact arm 22 moves into a neutral position, whereby the heating winding 21 is switched off, while the contact arm 23 switches to the right fixed contact 20 a 'so that the heating winding 20 remains switched on. The setpoint temperature is now regulated in the manner described with reference to the first example. If the nose 8 e 'is lengthened, the movable contact arm 23 first switches from the left fixed contact 20 a into a neutral position and, when the temperature drops, lies on the right fixed contact 20 a.

With reference to FIG. 5 a shows that in the circuit according to FIG. 5, the two movable contact arms 22, 23 'can also lie next to one another. They are connected to one another by the insulating web 24 ', on which the snap spring, not shown, acts. The movable contact arm 23 'acts in a starting position with the fixed contact 20 a "and in the control position with the fixed contact 20 a ... together. Both of these fixed contacts are conductively connected together and connected to the heating coil 20, the movable contact 22' on the other hand acts only in the heating position with the fixed contact 2la 'connected in the heating winding 21. It is of course also possible to use only one movable contact arm which, in the heating position, lies on two fixed contacts arranged isolated from one another.

The F i g. 6 to 8 show a further embodiment of the switching device, shown only in its essential parts. The only difference compared to the examples described above lies in the different design of the temperature contact set for the step switching of the heating windings. Instead of two fixed contacts, only one, 30, is provided and connected to the supply line. On both sides of the stationary contact 30, a respective movable contact 31, 32. The right contact arm 32 is connected to the heating coil 34 and is momentarily controlled by the insulating piece 8 c "'of the lever 8 a' via the snap spring 15". The left contact arm 31 is connected to the heating coil 33 and is controlled via the lug 8 e ″. According to FIG. 6 , the control disk 4 is in the zero position. As a result, the main contacts 5 d ', 5 Y' are open and the circuits both heating coils 33, -unterbrochen 34th the contact arms 31, 32 are already against the fixed contact 30, but this has no effect. By any rotation of the control disc 4, the main contacts 5a ", 5 Y 'are closed so that both heating coils 33 , 34 are switched on. As a result of the temperature rise, the Meinbrane 6 ' expands and causes the lever 8 d, 8 c "to pivot to the left via the regulating lever 9' . When the target temperature is reached, the snap spring 15" switches the right contact arm 32 to the left, i.e. a separation the same from the fixed contact 30. As a result, the heating coil 34 is switched off. At the same time, the nose 8 e ″ pushes against the contact arm 31 and also lifts it off the fixed contact 30 so that the heating winding 33 is also interrupted. The temperature then falls, which results in the lever 8 d, 8 c ″ being pivoted to the right until the contact arm 31 again rests against the fixed contact 30 , whereupon the temperature rises again and the contact arm is lifted again, etc.

The device is also adjustable so that the switchover of the contact arm 32 to the right, that is, the lifting of the same from the fixed contact 30, takes place shortly before the target temperature is reached. In this case, the lug must 8 e 'something is to be made shorter, so that the contact 31 initially so long abutting against the fixed contact 30 until the target temperature reaches ". This is also with this device design an unacceptably wide run over the set temperature due to the moment of inertia excluded in the heat transfer. the attachment of the insulating 8c "to the metal lever 8 is effected by a pivotal connection at point C and a distance of this point, both parts enclosing the spring ring 35 d. This construction means that when the temperature of the heating element is high, the switching device can be adjusted to a low temperature or to the zero position without fear of deformation of the lever 8a ", Sc" or the membrane 6 '.

From the side view according to FIG. 9 shows the cup-shaped design of the insulating housing 1 and the low overall height of the same in the direction of the setting shaft 3 .

F i g. 10 is a view showing a c acting between the loading i moveable contact arms and the lever member 8 haamadelförmigen snap spring 15 °.

It should also be noted that the circuit of the corresponding heating winding in the control stage (control of the contact arm by a projection of the pivotable lever) z. B. can be done momentarily by the additional use of a permanent magnet. Similarly, the control cam 4 may be configured of the control disc 4 a so that at least the switching off of the main contacts 5a, 5b is effected moment like. It is expedient to have latching means interact with the control disk 4 in its zero position to increase this momentary switching.

The advantages of this switching device are essentially that all movable organs are arranged in one plane and act in this plane that both the main contacts and the temperature contact set in its heating stage and when using permanent magnets also switch the control stage momentarily. In addition, a one-piece control disk is used both for switching the main contacts and for setting the stroke of the thermal working element required to switch the temperature contact set, which is mounted in the simplest way on the bottom of the housing, with the control disk 4 in the bearing recess 1 to further reduce the overall height c of the housing la bottom with its lower cam 4a fully rests. It is not necessary to limit the angle of rotation.

Claims (2)

Claims: 1. Temperature switch with a pot-shaped insulating material housing, in the bottom of which on the one hand and in a board arranged parallel to the bottom at a distance on the other hand, a control disc that can be operated by an actuating handle is mounted, around the main contacts actuated by one of its control cams and a temperature contact set influenced by a thermal working element and the therinische working member and actuated by an additional cam, with the thermal working member and the temperature of contact set of cooperating, pivotably ge-Iagerter levers are arranged, d a d u rch g e -kennzeichnet that the main contacts (5 a, 5 b, 5 a ', 5 b', 5 a ", 5 b" *), the temperature contact set (11th, 12 a, 12 b, 22, 23, 20 a, 21 a, 30, 31, 32), the thermal working element, preferably a pressure cell (6, 6 '), and the pivotably mounted lever (8 a, 8 e, 8 a', 8 c ") are arranged radially distributed in a plane and that the temperature contact set from a with de r supply line connected contact part (11, 22, 23, 22 ', 23, 30) and two contact portions (12 related to heating resistors a, 12 b, 20 a, 20 a', 20 a '' 20 a` '21 a, 21 a ', 31, 32) , of which the former (12 a, 21 a, 21 d, 32) with a heating resistor (13, 21, 34) of high power and the other (12 b, 20 a, 20 a', 20 a "*, 20 a"", 31) is connected to a regulating resistor (14, 20, 33) of low power, and that the pivotably mounted lever is connected to the further control cam ( 9, 9) by a regulating lever (9, 9) pivotably mounted on it. 4 b, 4 b) and the thermal working element (6) is coupled. 2. Temperature switch according to claim 1, characterized in that in a recess (2a) of the board (2) designed as a bellows membrane thermal working member (6) is arranged and secured in position by means of a slot (2 b) of the board and with one on the rear end plate (6 a) of the membrane (6) fastened screw (6 b) cooperating nut (7) is adjustable, while a pin (6 e) provided on the front end plate (6 c) of the membrane (6 ) for Motion transmission leads in a hole in a tab angled from the board (not shown). 3. Temperature switch according to claims 1 and 2, characterized in that the control disc (4) with a lower, circular, a recess (4 c) for controlling the main contacts 05 a, 5 b) having control cam (4 a) in a circular recess (1c) of the housing bottom (la) and that a laterally molded on a movable main contact (5a) and into an extension (1 d) of the recess (1 c) protruding projection (5 d) against the cam (4 a) is present. 4. Temperature switch according to claims 1 to 3, characterized in that both the temperature contact set (11, 12 a, 12 b) and the main contacts (5 a, 5 b) act in a plane radially to the control disc (4). 5. Temperature switch according to claims 1 to 4, characterized in that the main contacts (5 a, 5 b) are designed with one, two or three poles and their control, in particular for switching off, takes place momentarily. 6. Temperature switch according to claim 5, characterized in that the control disc (4) in its zero position acting latching means to achieve a momentary switching of the main contacts (5 a, 5 b) cooperate. 7. Temperature switch according to one or more of claims 1 to 6, characterized in that the pivotable lever (8a, 8a ') is mounted with one end on the board (2) at point (A) and at its free end for the direct actuation of the Temperature contact set (11, 12 a, 12 b, 20 a, 21 a, 22, 23, 30, 31, 32) is provided with an insulating piece (8c, 8c ', 8c ") and that on the lever (8a) in one At a distance from its bearing point (A) at point (B) a two-armed, curved regulating lever (9) is pivotably attached which, under the action of a spring force (10) , moves with a free end (9 a) against the further control cam (4 b) , and the working member (6) acts on its further free end (9b) 8. Temperature switch according to Claim 7, characterized in that the pivotable lever (8a) under the influence of a between its free end ( 8c) and an extension (2 c) of the circuit board (2) arranged tension spring (10) 9. Temperature switch according to one or more de r claims 1 to 8, characterized in that the lever (8a) with its free end ( 8c) interacts directly with one or more movable contact arms (11, 22, 23, 32) of the temperature contact set and thereby to a momentary switch by means of a Snap spring (leaf or hairpin spring) (15, 15 ', 15 ") or is coupled to a permanent magnet system with this. 10. Temperature switch according to claim 9, characterized in that the hairpin spring (15) with one leg behind a tongue (lla) of the movable contact arm (11) and with the other leg in a recess or a hole (8 d) of the lever end (8 c) stores. 11. Temperature switch according to one or more of claims 1 to 10, characterized in that the contact parts (12 a, 12 b) connected to the heating resistors (13, 14) are arranged as stationary mating contacts on both sides of the contact arm (11) connected to the supply line and the contact arm is connected to the first mating contact (12 a) during the heating-up, when the set target temperature is reached it is lifted from this due to the expansion of the working element (6) by means of the lever (8 a) and, when the temperature drops, with the further mating contact ( 12 b) is connected, from which it is lifted by means of a lever (8 a) molded nose (8 e) when the target temperature is further reached. 12. Temperature switch according to one or more of claims 1 to 10, characterized in that the contact parts (20 a, 20 a ", 21 a, 21 a ') connected to the heating resistors (20, 21) as stationary mating contacts on the one hand, or two contact arms (22, 23, 22 ', 23') connected to the supply line are arranged and the contact arm (s) is or are connected to both mating contacts during heating when the set target temperature is reached the expansion of the working member (6) by means of the lever (8a ) is lifted from the mating contacts and, when the temperature drops, at least one contact arm (23, 23 ') with an extension (20a', 20a ...) of the further mating contact (20a, 20a ") is connected, from which it is lifted when the setpoint temperature is further reached by means of a lug (8e) molded onto the lever (8a). 13. Temperature switch according to claim 11 or 12, characterized in that the lever (8 a) to prevent switching of the contact lever (11, 22, 23), of the further mating contact (12 b, 20 a ', 20 a ... ) is provided with a stop edge (8 f) in the event of slight temperature fluctuations during the control game on the former counter contact (12 a, 21 a, 21 a '). 14. Temperature switch according to one or more of claims 1 to 10, characterized in that the contact part (30) connected to the supply line interacts as a stationary mating contact with two movable contact arms (31, 32) arranged on both sides of this, of which the former (32) with the heating resistor (34) high power and the other (31) with the regulating resistor (33) low power, z. B. is connected to a hotplate, and that the first contact arm (32) by means of the snap spring (15 ") is coupled to the lever (8 a ') and is opened when the set temperature is reached, while the other contact arm (31) can be actuated by means of a nose (8 e ") formed on the lever (8 a '). 15. Temperature switch according to one or more of claims 1 to 14, characterized in that the circuit of the heating resistor (13, 21, 34) closing contact lever (11, 22, 32) is opened shortly before the set target temperature is reached and the the Circuit of the regulating resistor (14, 20, 33) closing contact arm (11, 23, 31) actuating nose (8 e, 8 e, 8 e ") is so short that the regulating stage is switched on immediately after switching off the heating stage . temperature switch according to one or more of claims 1 to 15, characterized in that the insulating piece (8 c ") pivotally mounted on the lever (8d) at the point (C) and by means of an arranged at a distance from the bearing point (C) the spring ring (35) is held elastic. Documents considered: German Patent No. 85123 1; German utility model No. 1697 259; USA. Patent Nos. 2870290, 2 671 136, 2487204, 2262355, 1775 553rd