DE2625716A1 - POWER CONTROL UNIT - Google Patents

Description

A 16 026/7.

Applicant company EGO Elektro-Geräte Blanc u. Fischer
7519 Oberderdingen

Power control unit

The invention relates to a power control device for the controllable supply of electrical power in power pulses to a consumer, with a heated depending on the switched power pivotable mounted bimetallic element, which acts on a snap switch via a lever extending from it at an angle a control cam and a compensation bimetal.

Such a power control device is from the publication "Conti-Elektro reports", October / December 1959, Pages 285 to 290, in particular Figure 3, became known. This power control unit has a bimetal to which A compensation bimetal is connected at a right angle. This double bimetal is on in the area of the inside corner

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a pivot mounted in the switch base. The compensation bimetal acts on you encapsulated switch. The adjustment takes place by means of a control cam, which has a roller and a separately mounted lever and an adjusting screw acts on the free end of the working bimetal. Opposite to A mechanical switch with two contact springs is attached to the bimetal.

With this power control unit, for structural reasons the bimetal have a length that is not much greater than half the switch dimensions. Accordingly its thickness dimension and its travel to work is then also less. The temperature of the bimetal is also on transmit the compensation bimetal directly connected to it, so that this is always in a relative area high temperature works and its main task, the consideration of ambient temperature influences, can only partially solve. The adjustment of the work area by pivoting the work bimetal with a lever mechanism is complicated and leads to the fact that the reproducibility of the individual partial performances is not exact. Above all, this reproducibility is in the critical upper and lower performance ranges bad. A partial service of, for example, $ 5 that is necessary to warm on an electric hotplate can not be controlled with such a device with certainty.

There are, for example, from DT-PS 16 40 084 such power control devices with a pivotable Snap switches became known. With these is

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the working bimetal is connected directly to the snap spring and the control takes place via a cam and a lever with a stop whose distance from the working bimetal is adjusted during the setting will. This system allows only relatively thin and unstable bimetals and makes installation difficult a compensation (not provided for in the publication).

The object of the invention is to create a power control device that is easy to manufacture with a small overall size is and despite relatively low demands on the precision of the construction, a very good reproducibility the power settings. In particular, the compensation of the ambient temperature should be reliable be resolved.

This object is achieved according to the invention in that the snap switch, as known per se, is pivotably mounted, that the compensation bimetal is fastened on one side and essentially parallel to the snap switch and that the control curve acts on the free end of the compensation bimetal.

So it becomes a unit of compensation bimetal / snap-action switch formed, which is pivotable together. The compensation bimetal is only slightly affected by the temperature of the working bimetal and can therefore do justice to its compensation task. It is also flaring up thermally shielded by the snap switch lying parallel to it. It can be short and relatively strong. In contrast, the working bimetal always remains in its position and only swivels its one end according to its heating against the snap switch.

For this purpose, the bimetallic element is preferably L-shaped, the longer bimetallic limb being provided with a heater and possibly supported on the housing by means of an adjusting screw under spring force. 709850/0484

Further advantages and features of the invention emerge from the dependent claims and the description in conjunction with the drawing. An embodiment of the invention is shown in the drawing and is in explained in more detail below. Show it:

Fig. 1 is a plan view of an embodiment of a power control device according to the invention, seen from the operating side, with the cover removed,

Pig. 2 shows a section along the line II-II in FIG. 1,

Fig. 3 is a rear view of the power control device in Fig. 2 seen from the left, and

4 is a schematic circuit diagram of the power control device according to FIGS. 1 to 3.

In FIGS. 1 to 3, an embodiment of a power control device 11 is shown. It owns a remote or rear housing part 12 made of plastic, which is in the shape of a rectangular or preferably square block with an inner recess 25 has. This recess is closed by a plate-shaped cover 13 located on the operating side, the centering pin 17 has the centering recesses 16 engage on housing part 12. A threaded bushing 14 is attached to the cover 13, through which an adjustment shaft 15, which carries an adjusting knob 60 indicated in FIG. 4, protrudes. The adjusting shaft 15 protrudes into a central hole 23 of a control body 18 which is made of insulating material and on its outer circumference a control cam 19 and a

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Switching cam 20 carries. At its remote end the control body 13 has a bearing pin 21 which protrudes through an opening 24 in the rear housing part 12 and has a further switching cam 22 on the rear side of the housing part 12.

A compensation bimetal 26 in the form of a transmission lever cooperates with the control cam 19, which acts through a spring 34 is pressed against the cam 19 with its front bent end. The relatively thick and The stiff compensation bimetal is at the end at which it does not lie against the control cam 19 by means of a pivot axis 28 pivoted. At this end, the compensation bimetal with a switch carrier 29 is one Snap switch 27 connected so that the compensation bimetal to the switch carrier 29 at a small distance runs parallel. The snap switch / compensation bimetal unit can therefore be pivoted together about the axis 28.

On the switch carrier 29, a snap spring is attached, which is in the usual way with a curved under Buckling tension standing spring tongue is supported on a support bearing. The snap spring carries' at its free end its contact 31, which cooperates with a fixed mating contact 32, and is at its opposite end set by an adjusting screw 33, which has a circumferential notch into which the fork-shaped The end of the snap spring is inserted. By welding on a leading to the electrical supply line 35 At the end of the connection, the snap spring is electrically connected to the outlet or inlet 68 of the consumer 70.

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The snap switch 27 is made up of a bimetallic element 36 operated, which has an L-shaped shape. This L exists made entirely of bimetal, and in the inner corner of the L an axle 37 is attached which, like the axle 28 is advantageously determined in that there are recesses in each of the housing part 12 and the cover 13, the axes when assembling the two housing parts take up.

The long, heated leg 38 of the bimetal link 36 carries a heating coil 39 in the form of a heating coil or heating coil, which is supplied with power via two supply lines will. At its free end, an adjusting screw 40 is screwed into the heated leg 38, which is pressed by a spring 41 against an inner partition 42 of the housing 12.

The short leg 43 of the bimetallic link 36 has a bend 44 at its end which presses on the actuation point of the snap spring 30.

The heated leg 38 of the bimetal member 36 is located in a partially closed off by the partition 42, Room 71 ventilated through ventilation slots 45.

It can be seen that the snap switch / compensation bimetal unit on the one hand and the bimetal member 36 on the other hand are arranged at an angle and between them Include control body 18. In the corner of the recess 25 opposite this angle is a mechanical one Arranged switch which has a slide switch 50 which is actuated by the switching cam 20. This one made of plastic existing slide switch has the shape of a rectangular rod, one end of which interacts

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is rounded off with the switching cam 20 and a compression spring 54 acts on its other end face. Of the Slide switch 50 runs approximately diagonally so that it has the greatest possible length with the smallest space requirement can.

The slide switch has on its upper and lower surface Projections 51, which form abutments for contact arms 52, 53, which are pushed onto the slide switch and after protrude beyond him on both sides. The slide switch preferably consists of an insulating part in order to to be able to slide open the contact arms and snap them in place. Each contact arm carries on its two End one contact each.

The slide switch 50 is guided by guides 55 which are in the form of metal plates protruding from the bottom of the housing part 12 and directed transversely to the slide switch. There are four guides 55 are provided, two of which oppose each other, cause the switching slide and overlap it partially. These guides 55 partially carry fixed contacts 56 and protrude through the bottom of the housing part 12 and form connection lugs on the rear side in the manner of AMP plug-in lugs.

From Fig. 3, the rear of the power control device 11 can be seen. You can see there that the switching cam 22 cooperates with a very small and light switch 61 in the form of a contact spring, which for Short-circuiting a diode 62 is formed. The diode with its connections 63 »64 is directly connected to the associated The connector or the contact spring is soldered and the contact spring engages around the connection 63 and can short-circuit the diode 62 by touching its connection 64. 709850/0484

The power control device works as follows: In Fig. 1, the switched-off state is shown, in which the switching cam 20 has pushed the switching slide 50 back against the force of the compression spring 54 and thus the contact arm 52 for the signal contact and the contact arm 53 for switching off the second connection pole has lifted from the corresponding plague contacts. In this position of the control body 18 or the setting shaft, the compensation bimetal 26 lies in a recess in the control cam 19, so that thereby a rest results.

When the energy regulator is switched on (rotation of the control element 18 clockwise), the control cam is the first to act 20 the control slide 50 free, which under the force of the spring 54 its at least partially resilient contact arms 52, 53 bears against the guides 55 in such a way that they are bridged. So on the one hand is the signal contact line 66, 67 closed and on the other hand one pole of the consumer 70, for example the heating of an electric hotplate.

Under the action of the spring 34, the compensation bimetal / snap-action switch unit pivots into its respective one Position of the control cam 19 corresponding position. The contacts 31 and 32 are closed, so that the bimetallic element 36 is heated by its heater 39. The switch 61 is in the lower power range closed, for example with a position of the setting shaft, the power values between 5 and 20 / £ the Total output corresponds. With a low set power, the diode 62 is bridged so that the full heating power of the heater 39 is effective.

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Because of this, the leg 38 of the bimetal member bends out relatively quickly and presses over the short leg 43 and the bend 44 on the snap switch in the switch-off direction, so that this again after a relatively short time is opened.

After the bimetal element has cooled down, the snap switch switches 27 again and the work cycle begins again. In the upper work area, on the one hand, is the unit Compensation bimetal / snap switch pivoted more strongly counterclockwise and on the other hand the diode as a result Opening of the switch 61 effective. The heating 39 is therefore only with one * hot wave of the alternating current, i.e. operated with half the heating power. The bimetallic link therefore needs much longer to be deflected so far to be that it can open the snap switch and thus switch off the power supply to the consumer 70. At the very high temperatures at the bimetal, the cooling then proceeds more quickly, so that a higher relative duty cycle is guaranteed.

The power control device according to the invention has numerous advantages: it is clear and reliable despite its Structure can be produced with relatively little construction effort and works with relative paths and forces for switching. The high forces are particularly important. They are achieved through a fairly strong bimetal dimensioning. As a result Due to the favorable structure, the working bimetal can be quite long and the compensation bimetal can be quite short and strong be. The entire system is positively moved into a certain position by the springs 34, 41, so that only there is a point at which backlash can occur, namely the point of contact between the snap spring

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and the bend 44 of the working bimetal 36

The formation of the bimetal member 36 as an L-shaped The bimetal link has another advantage. Usually the compensation is such Control unit is very difficult with a compensation bimetal because the two bimetals are in different temperature ranges work. The deflection path of a bimetal per temperature unit increases with increasing temperature so that the compensation can always be exactly correct for only one work area. The bimetal link described here however, it has, so to speak, a double occupancy. The short leg 43 runs at a relatively small distance parallel to the snap spring 30. This is supplied with power via the lead 35 and is relatively thin. She heats up therefore, when electricity flows through them, it also exerts itself to some extent. This heat also heats the short one Leg 43, but noticeably only at higher power levels, because otherwise the snap spring is hardly comes above room temperature. However, this has the negative effect of the deflection path, which is degressive with the temperature compensates or counteracts this negative phenomenon.

In contrast, the compensation bimetal is shielded as largely as possible from the temperature. Ss is perpendicular to the working bimetal and has no conductive connection with it. It is also largely due to the intermediate wall 42 shielded from the hot room. Against the temperature generated by the snap spring, it is through the switch carrier 29 protected. This arrangement ensures that the compensation bimetal can really do what it is for it is determined, namely to make a compensation of the different ambient temperature and does not have to

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in a significantly increased compared to the environment Working temperature.

The working bimetal and the compensation bimetal / snap switch unit take two sides of the switch housing, so that a corner for the switch 50 to 56 remains completely free. The arrangement of this very small switch in the same radial plane as the other parts of the power control device make it possible to manufacture this with a very small size. The depth in the direction of the adjustment shaft can be, for example, less than 25 mm, so that installation with vertical shaft is also possible in very shallow hobs.

The behavior of the power control device is influenced very positively by the diode 62. The medium power range is seldom a problem for such control units. The real difficulty lies in the upper and, above all, in the lower performance range. With today's hot plates with a relatively high power, the lower power range is critical if you want to warm up on the hot plate. There, outputs of up to 5% of the total output and below (100 W for a 2000 W hotplate) must be safely controlled. However, this requires very high performance on the bimetal because it has to react very quickly. In the higher power range, however, these high powers would not only heat the device very much and require energy, but would also drive up the temperatures on the bimetal to an inadmissible level. This problem can be solved simply by the advantageous, lossless and thus heat-free down regulation of the bimetallic heating power by means of the diode

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be solved. The high output for which the bimetal heating is designed is not a disadvantage because it is only in the lower performance range at all total commitment comes and there the relative switch-on times are very short. The heating of the control unit by the Heating 39 is therefore very low. Conversely, in the high power range, the power is limited by the diode, so that with the relatively long switch-on times there, the switch heating also remains within limits. Another advantage is the fact that the heating 39 can be carried out easily. If you wanted the performance to be lower interpret it, one would have difficulties because the resistance wires for the low power at mains voltage and especially in the case of higher line voltages, would be very low, including operational reliability would suffer.

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Claims (17)

262571G A 11 026/7 Expectations [1.J Power control device for the controllable supply of ^ - s electrical power in power pulses to a consumer, with a heated, pivotable bimetal element depending on the switched power, which acts on a snap switch via a lever extending from it at an angle, with a Control curve and with a compensation bimetal, characterized in that the snap switch (27) is pivotably mounted, that the compensation bimetal (26) is fastened on one side and essentially parallel to the snap switch (27) and that the control curve (19) is attached to the free end of the compensation bimetal (26) acts. 2. Apparatus according to claim I, characterized in that the bimetal member (36) is L-shaped, the longer one Provide the bimetallic leg (38) with a heater (39) and, if necessary, use an adjusting screw (40) under spring force (41) is supported on the housing (12). 3. Apparatus according to claim 2, characterized in that the shorter bimetal leg (43) is parallel to the snap spring (30) of the snap switch (27), via which the power supply (35) to the switching contact (31) he follows. 4. Device according to one of the preceding claims, characterized in that the heating (39) of the bimetal (36) is connected in parallel to the consumer (70). 709850/0484 - 2 - ORIGINAL INSPECTED a 11 026/7 - r- 5. Apparatus according to any of the preceding claims, characterized in that the adjustment of the snap spring (30) by means of a screw (33) which forms the support for the snap spring (30) remote from the contact and which the snap spring (30) leads in a notch. 6. Device according to one of claims 2 to 5, characterized in that that the heated bimetallic leg (38) is thermally at least partially opposite the compensation bimetal (26) and the snap switch (27) shielded, possibly ventilated room (71). 7. Apparatus according to any of the preceding claims, characterized in that the pivot axes (28, 37) of the Snap holder (27) and the bimetal member (36) with are mounted at each of their ends in one of two composite housing parts (12, 13). 8. Apparatus according to claim 7 »characterized in that one of the housing parts (12) is one of the main elements of the control device receiving recess (25) which closes the other housing part (13) in the manner of a cover. 9. Device according to one of the preceding claims, characterized in that in the same, transversely to the setting shaft lying level like the snap switch (27) and the bimetal element (36) a mechanical switch (50 to 56) is arranged for the mains disconnection and / or signal contact. 10. Apparatus according to claim 9, characterized in that the switch is connected to one of the control cam (19) Has cams (20) actuatable slide switch (50) with transverse contact arms (52, 53). 709850/0484 A 11 026/7 - # - 11. Apparatus according to claim 10, characterized in that the slide switch (50) diagonally in a corner of the rectangular, preferably square housing (12, 13). 12. Apparatus according to claim 10 or 11, characterized in that the slide switch consisting of insulating material (50) between at least four transverse to it, from MetalH / fcestenden guides (55) is guided, the face each other in pairs and the plague contacts (56) wear or form and protrude through the switch housing (12) to form connecting lugs (57). 13. Device according to one of the preceding claims, the is operated with alternating current, characterized by a diode (62), which is through one of the adjustment shaft actuatable switch (61) is only connected upstream of the heating system (39) of the bimetal in the upper power range and is switched off in the lower power range. 14. Apparatus according to claim 13 »characterized in that the diode (62) in the lower power range of the Switch (61) is bridged. 15. Apparatus according to claim 13 or 14 »characterized in that the diode (62) on the rear side remote from the operator the housing (12, 13) of the power control unit (11) is arranged directly on the switch (61) bridging them. - 4 709850/0484 A 11 026/7 - / - 16. Device according to one of the preceding claims, characterized in that the control cam (19) bearing control body (18) has an integrally formed bearing pin (21) which is in an opening (24) of the remote housing part (12) is performed and that the adjusting shaft (15) in the closed to the rear The central hole (23) of the control cam protrudes and forms the second bearing for the control element (18). 17. Apparatus according to claim 16, characterized in that the control body (18) has the switching cam on its bearing pin (22) for the diode (21). 709850/0484