DE1017686B - Thermally operated electrical switch - Google Patents

Description

GERMAN

The invention relates to thermally actuated electrical switches for thermostatic control of electrically heated devices, e.g. B. flat irons.

A known switch for this purpose has a contact carried by a leaf spring. the The leaf spring is located by a bimetal strip or another temperature-sensitive part controlled. Furthermore, a second contact is provided, which is carried by a further leaf spring in this way becomes that it presses against the first contact. The bimetallic strip in the heated base of the Flat iron od. The like. Is arranged, allows when it is heated that the first contact of moved away from the second contact. However, the second contact follows this movement and stays with the first contact. The movement of the leaf spring supported by the second contact is limited by a stop so that when the temperature has reached a certain value, the first contact separates from the second and in this way breaks the circuit. if when the bimetal strip cools down, the contacts touch each other again and the process is repeated. With such a slow breaking switch, the gap between the contacts is proportionate small and the arc duration with all the drawbacks Consequences, such as interference with radio reception, etc., are relatively large. There is also a common one Switching cycle.

It has therefore already been proposed to use such a slowly interrupting switch to replace a snap-action switch with a larger gap and fewer switching cycles. The resulting Temperature differences are tolerable. Although the duration of the resulting arc is shorter, its intensity is greater than that of slow-breaking switches. This requires a capacitor greater capacity to suppress radio interference.

Another known thermally actuated electrical switch involves separation and contact of the contact pair controlled by two temperature-responsive devices. The first facility causes the initial separation of contact when the temperature rises and the other Device, the heating of which is caused by the current controlled by the contacts, enlarged the contact spacing when this facility changes as a result of the initial separation of the contacts cools down. Such a switch combines the advantages of the usual slow interruption with the Advantages of the quick-breaking switch, namely the low switching frequency and the relative large space between the contacts.

Thermally operated electrical switch

Applicant;

Morphy-Richards Limited,
St. Mary Cray, Kent (UK)

Representative: Dr.-Ing. A. van der Werth, patent attorney,
Hamburg-Harburg 1, Wilstorfer Str. 32

Claimed priority:
Great Britain 21 September 1951

William Morris Russell,
Bromley, Kent (UK),
has been named as the inventor

The known switches of this type generally have for both facilities, namely for the one device that serves to open and close the contacts, and for the other device, which is intended to increase the space between the contacts, each with a bimetal strip. Of the However, the use of bimetal strips for the second device is unsatisfactory, since it is practical only cool down in the same period of time as the first device, the contacts when it cools down approaching each other again. The space between the contacts is only marginally enlarged as a result.

The invention now improves such a switch in that the second device is off consists of a hot wire, the adjustment force in one acts at a large angle to the direction of movement of the contacts, so that even a slight contraction of the hot wire causes a relatively large movement of one contact.

The advantage of using a hot wire results from the fact that the thermal The inertia of the wire is much less than that of a bimetal strip. If, therefore, the initial separation takes place, the hot wire cools faster than a bimetal strip, and the enlargement of the Gap occurs faster, at least faster than the cooling of the first device, for example can be a bimetal strip, the contact distance is reduced again. The in itself small, absolute Change in length of a hot wire is caused by the

709 756/329

special arrangement according to the invention in a sufficiently large movement of one contact translated.

It is noted that the term "wire" is not intended to limit the shape of the device, for example can also be designed as a strip or band.

When the invention is used, the two contacts are each below in a manner known per se a bias acting in the same direction. The one device that allows contact movement is designed as a bimetal strip. Furthermore, a stop is provided against which a contact is made applies at a predetermined temperature. According to the invention, the hot wire here is immediate attached to the other contact.

In another embodiment, in which the first device is also a bimetal strip, According to the invention, the hot wire extends between the bimetal strip and one of the contacts.

These and other features of the invention will become apparent from the following description with reference on the drawings. In the drawings are two AusfühirunigSibe examples of the invention Switches shown, which are used for the thermostatic control of electric flat irons. It is clear that further modifications of the invention are possible within the scope of the essential inventive ideas. In the drawings shows

Fig. 1 is a longitudinal section through an electric flat iron with a thermally actuated electric Counter,

FIG. 2 shows a plan view of the base plate and the switch of the illustration of FIG. 1 after removal the housing of the flat iron,

Fig. 3 is a partial view along the section line III-III of Fig. 2 with the arrangement of the hot wire,

Fig. 4 is a sectional view corresponding to the section line IV-IV of Fig. 1,

5 shows a circuit diagram for a flat iron equipped with the switch according to FIGS. 1 to 3,

Figures 6, 7 and 8 are bottom, side, and top views of a thermally actuated electrical Switch in another embodiment of the invention and

9 shows a circuit diagram of an electrical flat iron equipped with the switch according to FIGS. 6 to 8. FIG.

In Fig. 1 is an electric flat iron 10 with a Base plate 11 shown. A heating element 12 made of resistance wire between two sheets of mica rests on the base plate. A mounting plate 14 for the thermally actuated switch is from the heating element separated by an asbestos plate 13. The parts 12, 13 and 14 are on the base plate 11 through Bolts provided with nuts fastened. There are two such screws with nuts 15 on the rear part of the flat iron (see also Fig. 2) and one, 16, at the tip of the flat iron.

In a recess of the base plate 11 there is a bimetal strip 17, with one end at 18 anchored to the base plate. The strip 17 is arranged so that when its temperature rises, its free end moves upward from the position shown in FIG. The free end of the bimetal strip is mechanically linked to one of the switching contacts so that, as will be explained below, its upward movement allows the contacts to open when the strip reaches a predetermined level Temperature reached.

The dome-shaped switching contacts 19, 20 are on riveted to the free ends of leaf metal springs 21, 22, the other ends of which are attached to an insulating plate 23 are attached. This plate is attached to the mounting plate 14 by means of threaded bolts 24 (Fig. 2) attached, which are welded to plate 14 and provided with nuts 25. The insulating plate 23 is of Plate 14 separated on the bolt 24 by sleeves 26 (FIG. 1).

Two screws 27 are used to attach the leaf springs to the insulating plate. Each screw 27 carries a metal washer 28 and a mica washer 29 and then passes through holes in a terminal strip 30 and leaf spring 22. Mica washers fit into the holes in strip 30 and spring 22, so to electrically isolate these parts from the screw. The screw then goes through the plate 23 and Spring 21, from which it is isolated in the same way, and then by a strip of mica 31, which Spring 21 isolated from another leaf spring 32. It should be noted that the terminal strip 30 is in electrical Contact with spring 22 and clamps 33 is also with spring 32, these springs from each other and are isolated by spring 21.

The one shown in the drawing as a single part Insulating plate 23 can consist of two layered mica plates, which are by an between metal plate arranged on them are reinforced. The holes in the metal plate for the screws 27 are supposed to Be large enough to prevent electrical contact between the screws and the plate.

A cross piece 34 (better seen in FIGS. 2 and 3) is attached to the end of the leaf spring 32. Part of the cross piece is bent over to leave a small protrusion at each end. A nickel-chromium strip 35 extends between these projections and is fastened with its center to a projecting tab 21 α at the end of the leaf spring 21. This band 35 represents the hot wire device, and it will be clear that an electrical connection from terminal attachment 33 via leaf spring 32, cross piece 34, the two halves of band 35 and spring 21 connected in parallel to contact 19 is made.

The leaf spring 21 is bent in the manner shown in FIG. 1 so that it is at one point of the spring 32 approaches, but is isolated from it by mica washers 36. The spring 21 is bent so that it normally by, the band 35 is kept under tension, and the contact 19 is therefore eager to be to move down from the spring 32 away.

A mechanical joint of the bimetallic strip 17 to the leaf spring 32 is stressed by a train Rod 37 is created, which is flattened and bent at its lower end so as to be under the free end to hook the bimetallic strip through a hole in it. .The rod, the upper part of which with Thread is provided, goes through openings in parts 12, 13 and 14 and through holes in the springs 22, 21 and 32 without touching any of these parts. A flanged sleeve 38 of insulating material fits into the holes in the top springs, and a self-centering adjusting nut 39 is screwed onto the rod. The springs 22 and 32 bend in the free state upwards, so that they are through the mechanical joint are kept under tension with the bimetal strip. If thus the bimetal strip bends upward as the temperature rises, springs 22 and 32 can flex move upwards, and contacts 19 and 20

5 6

also move upwards, but remain in an insulating block 62 arranged on which, the TeMe

emotion. of the switch are mounted .. The bottom surface of the

The opening of the contacts is brought about by the block 62 having a flat, cross-shaped groove brought that a further upward movement of provided in which one end of a bimetal strip Spring 22 and thus prevented from contact 20, 5 63 fits, as can be seen from FIG. The block 62 is £ when a predetermined temperature is reached. To this in its position by a bridge not shown Purpose, an insulating roller 40 is provided, "part clamped, which over the tapered which is freely rotatable on a pin 41, which part 62 a of the block and arranged by screws is attached to the downwardly bent end of spring 22 on the base plate. This clamped is. When the predetermined temperature hits io approximate device also serves to move between block the roller 40 is provided with a cam surface 42 and 62 and insulating plate 61 one end of the bimetallic strip. a stop. The cam is to be held securely on a shaft 43 63. The other free end, attached to the road, which is fastened by a bridge 63 and extends beyond the block 62. Of the th bearing is arranged, whose construction from the strips is bent so that it is normally in the Drawings, particularly Fig. 4, becomes clear. By 15 is location of Fig. 7, where a. sloping channel in that Rotating shaft 43 so that roller 40 is provided with another block 62, around the bent part of the Ren part of the cam 42 hits, 'will record the location of the strip. The strip is with one Bimetal strip and therefore the predetermined temperature such an arrangement of the two metals formed, that The temperature at which the contacts open is changed. as the temperature rises, the free end of the

Two more clamps 44 and 45 (Fig. 2) are moved down at 20 fens.

of the insulating plate 23 ". A power source is attached to the hot-wire device is a. Nickel-Chromium-

the terminals 33 and 44 via a socket or in tape 64, the ends of which at the free ends of the

connected in another suitable manner. Bimetal strip 63 and a leaf spring 65 attached

In the circuit diagram of Figure 5, there are terminal strips. This end of the leaf spring carries a con

30, terminals 33, 44 and 45, heating element 12, nickel 25 takt 66 and is at its other end to one

Chrome tape (hot wire) 35 and contacts 19 and 20 rigid L-shaped terminal 67 welded. An arm

shown schematically. The bimetal strip is not this clamp is through sleeves 68 on the block 62

shown as there are no electrical connections on it. attached and bent so that the leaf spring

Certain other parts appear in the schematic, the load-bearing part above the block is separated from it.

which are not shown in Figs. This 30 A second contact 69 is on a rigid

are a noise protection capacitor 46, a quenching capacitor holder 70 arranged to be with the Kontakt.66

sator 47 to suppress the arc between cooperate. A screw 71 goes through

the .Kontakten 19 and 20 (only provided if there is a hole in one end of the holder 70. The screw

Flat iron is connected to a direct current network through the block 62 and a second L-shaped

and a shunt resistor 48 for protection 35 clamp 72 attached to the block by means of eyelets 73.

the control lamp 49. screwed. A coil spring 74 and a washer

The way in which the temperature dependent 75 are on the screw between clamp 72 and

Switch works is as follows: When the cam 42 is arranged holder 70, which is on the screw

by means of the button 50 fixed on the shaft 43 on which a nut 76 is held. The mother is. with

desired temperature for the material to be flattened 40 with a screwdriver slot above and below

set and the flat iron is on, teeth flow provided, which is part of the holder

Current from terminal 33 through hot wire 35, contacts 70 of inverted V-shape. Are engaged. These

19, 20, heating element 12, shunt 48 and lamp 49 setup creates a convenient way to auto-

to terminal 44. The hot wire elongates and automatically opens the nut in a desired position

limp. The bimetal strip 17 will lock up 45 of the screw. Turning the nut

bend so that the contacts 19 and 20 together light the position of the holder 70 and thus the contact

move up to cease engagement of roller 41 with 69 during use. Electric

Cam 42 is a further movement of the contact 20 connection between holder 70 and clamp 72

prevented. However, contact 19 is only then secured by the flexible metal strip 77,

slowly move further up after the sun. The other end of the holder 70 is for sliding

The hot wire is slackened by the spring 32 on movement on a bolt 78, whereby

is taken. The current flow through hot wire 35 and the hole in the rod is elongated in shape

naturally through the heating element 12 is thus (see. Fig. 8). The holder 70 is bent at this end,

interrupted. The hot wire will then quickly form around a vertical part, which is a

cool and therefore the end of spring 21 against 55 carries pin 79 on which a freely rotatable roller 80

pull up the self-tensioning so that the insulating material is located. The role is in

Contact 19 steadily moves away from contact 20 to engage with one. a shaft 82 attached

to form a relatively wide gap before nock surface 81. This shaft is on a bridge 83

a "noticeable cooling" of the bimetallic strip instead of arranged, the feet of which on the block 62 through eyelets

finds. The latter will slowly cool down while 60 are attached. The roller 80 is against the cam 81

Pull contact 19 downwards via spring 32 until it is pressed by means of a helical spring 84, which is on

Contact 20 hits again and closes the circle. the bolt 78 between block 62 and holder 70

This process will then be repeated. is brought.

- Another embodiment of the invention is in A third clamp 85 is attached to the block 62 by means of 6-8 shown. It also provides a tempe- 65 grommet 86 attached and electrically connected to the fixed end temperature-dependent switch "for placement in one of the 'bimetallic strips by a thin metal electrical Flat irons. strip 87 connected,

In Fig. 7, at 60, a portion of the base plate is an electrical connection therewith

Flat iron with a plate 61 of electrically isolating switch type equipped flat iron are now

shown in the material. On top of plate 61, 70 is described with particular reference to FIG.

The following parts of the switch appearing in FIGS. 6 to 8 form part of the electrical circuit Circuit and are shown schematically in Fig. 9: Terminal 85, bimetallic strip 63, hot wire 64, contacts 66, 69 and terminals 67, 72 and 89. Certain parts not shown in FIGS. 6-8 of the complete flat iron appear in this circuit diagram. These parts include the heating element 88, a control lamp 90 with a shunt resistor 91 between terminals 67 and 85 and one between Terminals 85 and 89 connected interference suppression capacitor 62. If the flat iron with direct current is actuated, another capacitor 93 is required between terminals 67 and 72 in order to create arcing at contacts 66 and 69 to prevent. Power is supplied by any suitable means via terminals 85 and 89.

The switch is set for a particular temperature by rotating shaft 82 so that over Cam 83 and RoMe 80 the position of the contact 69 is set. The leaf spring 65 is bent so that it is normally under tension upward to keep contact 66 in contact with contact 69 keep. As can be seen in Fig. 7, the hot wire or belt 64 is normally slack, and that The extent of this slack depends on the setting of the cam 81. The bimetal strip 63 is of heated by the current flowing through it and also by the neighboring heated base plate, and with As the temperature rises by bending it down, it will take up work in the hot wire. to at the same time the length of the hot wire will increase. If the upper value of the intended switching temperature difference is reached, contact 66 will be pulled away from contact 69 to close the circuit interrupted by the heating element and the hot wire. The hot wire cools quickly and causes an increase in the gap between the contacts. 66, 69. The cooling of the Bimetal Ist tire runs more slowly, but as it cools it will cause contact 66 to move up and under the action of the leaf spring 65 to move. In the given sequence and at the lower value of the switching temperature difference the contacts will touch again to complete the circuit, and the The process will repeat itself.

The switch has the property that is desirable in electric flat irons that the difference between the temperatures at which the contacts open and close, for high working temperatures is greater than for low. This is a consequence of the geometry in the system which is made up of the bimetal strip 63, the hot wire 64 and the leaf spring 65 is formed, as well as a consequence of the relatively enlarged Effectiveness of self-heating of the system at low temperatures.

The electrical insulation between the base plate 60 and the bimetal strip 63, namely the plate 61, necessarily gives some degree of thermal insulation between these parts. However is the self-heating effect of the system due to the bimetal strip enclosed in the circuit sufficient to overcome the temperature lag otherwise caused by this thermal Isolation would be caused. This also avoids an excessively high switching frequency of the switch such as an otherwise possible excessive heating of the flat iron until the switch switches off.

As in both of the described embodiments, the amount of energy released at the contacts is small, the capacitance of the capacitor 47 or 93 to the arc when using To suppress direct current, not greater than in the case of the known switches with slow interruption, usually about 0.01 μΡ, while the Capacity of the noise protection capacitor 46 or 92 is about half the capacity that in the known quick-disconnecting switch is required.

Claims (9)

PATENT CLAIMS: 1. Thermally actuated electrical switch, in which the separation and contact of a couple Contacts through two temperature responsive Devices is controlled, one of which is the initial separation of contact when the temperature rises causes and the other device, their heating by the current controlled by the contacts ao is effected, the contact distance is increased, if this device cools down as a result of the initial separation of the contacts, thereby characterized in that this other device (35, 64) consists of a hot wire whose adjustment force acts at a large angle to the direction of movement of the contacts (19, 20 or 66, 69), so that even a slight contraction of the hot wire is a relative one large movement of one contact (19 or 66) evokes. 2. Switch according to claim 1, wherein the two contacts each acting under one in the same direction Stand bias and in which the one device allows the contact movement Bimetal strip is, with a stop, against which a contact at a predetermined Applies temperature, characterized in that the hot wire (35) is directly at the other contact is attached. 3. Switch according to claim 1, wherein a device is a bimetal strip, characterized in that the hot wire (64) is between the bimetal strip (63) and one (66) of the contacts. 4. Switch according to claim 2, characterized in that the contacts (19, 20) to the free Ends of anchored with their other ends and insulated leaf springs (21, 22) is attached and the hot wire (35) extends from the free end of a third leaf spring (32) arranged in the same way extends to the second contact (19) and that the bimetallic strip is anchored at one end and rigidly connected to the third at the other end Leaf spring (32) is connected. 5. Switch according to claim 4, characterized in that the free end of the third leaf spring (32) has the shape of a cross piece (34) and the wire (35) is anchored with its ends at the ends of the cross piece to form a flat loop, whose center is connected to the second contact (19). 6. Switch according to claim 4 or 5, characterized in that the free end of the first Contact (20) carrying leaf spring (22) is provided with an insulating roller (40) which is provided with a Stop (42) can come into engagement, which to change the predetermined temperature is adjustable. 7. Switch according to claim 3, characterized in that that the hot wire (64) at one end on the bimetallic strip (63) and at the other end to a contact (66) which Contact arranged on the free end of a leaf spring (65) anchored at its other end is, which has a bias pressing the contacts against one another. 8. Switch according to claim 7, characterized in that the other contact (69) on one rigid strip (70) attached between its ends, one end of the rigid strip adjustable attached and the other end with an insulating roller (80) is provided, which is held by means of a spring (84) in engagement with a cam (81) which is adjustable to change the predetermined temperature. 9. Electric flat iron, characterized by a switch according to one of the preceding Expectations. Considered publications:
U.S. Patent Nos. 2,338,474, 2,525,044;
British Patent No. 423 225. 1 sheet of drawings © 709 756/329 10.57