DE1614743B1 - Thermal relay - Google Patents

Description

1 2

The invention relates to a thermal the sliding surface is arranged that the resilient part Relay for protection against overcurrent and single-phase "each slide after leaving the sliding surface on operated, with arranged in each phase and on this the contact piece actuating component on one Slider attacking bimetallic strips, when it hits.

which relay the slide after moving a 5 is. An advantageous embodiment of the invention a certain way actuated a contact piece. achieved in that the resilient parts of the

It is already a thermal relay of the above sliders are designed in such a way that they are drawn back Genus from the German interpretative script tensile force of one or more of the cooling ones 1056 714 became known. This known thermal bimetallic strip that corresponds to this or these Relay is used to protect multi-phase mains ίο chende resilient part so long on the movable parts, especially multi-phase operated consumer component presses until the resilient part is back rather against overcurrent and single-phase operation. Has reached the starting position on the sliding surface. bimetal strips are arranged in each phase. In this way, a particularly simple configuration is made two with these bimetallic strips are preserved, in which the energy of the opposed force-fit connected, in longitudinal 15 meeting cooling bimetallic strips to align movable and connected to one another via a spring, the releasing parts of the relay in the coupled strips provided. Furthermore, a switching rest position can be traced back, whereby springs or the like. member available, which can be spared in the case of uneven and aids that were previously known were required when the two relays moved too much and when the power was off is transferred to the switch-off position. 20 loosening process had to be tensioned, whereby the In this known construction, one of the bimetal strips will end up during the release process The aforementioned strips were subjected to significant forces except in the longitudinal direction, and as a result, too hi a direction perpendicular to this, who could not work sensitively and precisely, arranged, while the other bar by means of a Erne structural simplification is in further

additional control member achieved in such a way with the first bar 25 embodiment of the invention that it is engaged that these slides run parallel to one another in one with differential movements Moved in the direction perpendicular to the longitudinal direction, this common slide is guided displaceably and thus causes the switch-off process. With this are.

known thermal relay is a dif- In this context, it is advantageous that

rentialschutz is achieved in such a way that with asymmetrical 3 ° the sliding surface of an extension of the slide is more generic Mains load the disconnection is premature. ■

tiger takes place than with symmetrical loading, but a further advantageous constructive Ausgestalist the design is relatively complicated and tion results from the fact that the movable component expensive to build and because of the special movement it has a U-shaped head part, which allows the sliding processes the slidable strips also includes a very large extension with play, prone to failure. Above all, however, the switching off is a further advantageous refinement

and switching on again not suddenly enough to see that the resilient part of each slide as in front of you. In this context, a bracket with a parallel to the sliding surface is also attached feed that the bending out bimetallic strip projection and a support is formed. In the disconnection direction to spend considerable work 40 is also advantageous that the carriage with a have, and not only the displacement work of the recess is provided in which the outer free Bars or the corresponding components, but the end of an adjustable tongue for setting the also a work to overcome the opposing tripping current intervenes. That way it is acting spring forces. Conversely, it is also possible, structurally simple, to regulate the cooling-in and re-cooling the bimetallic strip of the reverse bending 45 adjusting range to make that the Process of the bimetallic strips through the spring forces of the slide and thus the sliding surface on the fort supported, so that switching on again is often shifted to the slide, i.e. the triggering takes place early, i.e. at a point in time when it takes place earlier or later as desired. Bimetal strips are not yet completely cold or in some. Cases - it is advantageous to use the thermal

have returned to their idle state. 50 mix relays with a device for room

The present invention is in contrast to equip compensation, which is structurally simple the underlying task is to achieve a simply structured therm that the tongue is used to mix the space To create a relay, which is designed as a sudden compensation as a bimetal strip. Switching off and switching on again is guaranteed

while a great sensitivity and accuracy 55 the relay according to the invention is also useful in in particular when switching off, without being configured in such a way that the slide and / or the bimetallic strips have a large resilient parts made of insulating material or springs when they are bent out Have to exert force or work, on the other hand exist with insulation sheathing, but during the bending back and retraction in the fact that after the above-explained invention

their rest position a work to restore the 60 proper design the forces of be-original state is exploited. the relevant trigger elements, i.e. the bimetal strip,

According to the invention, this object is only claimed for the triggering and not thermal relay of the type mentioned at the outset because any springs or the like during triggering have to be tensioned per phase with a slide, it is advantageous a sliding surface displaceable resilient part ⁶ 5 possible that one of the movable component is provided that this sliding surface can be actuated on the other contact piece. As a result, he tripping current is matched to the corresponding path, there is, for example, the advantage that one and that a movable component in such a way with respect to the breaker to interrupt the contactor coil and

3 4

. also a closing contact, e.g. B. as a signal with their upper ends to the left and move, contact, provide and operate at the same time. thereby the slide 4 and 5 also to the left. In the drawing, an embodiment of the so that the drawn projection 4 & on the geErfindung is shown schematically. It shows the common sliding surface 3 / of the extension 3e of the ■ F i g. 1 is a plan view of a thermal relay 5 slide 3 slides to the left, until in the starting position, the rear edge of the projection 4 b of the part 4 a F i g. 2 a TeÜcross section according to the section - the left upper edge of the projection 4 b of the part line Π-Π in F i g. 1 and 4 a the left upper edge of the sliding surface 3 / reaches F i g. 3 a part of the relay according to FIG. 1 in out. At this moment, it snaps as a bracket release position. ¹⁰ formed part 4 α with the projection 4 & and the In the schematically illustrated embodiment support Ac due to the example inherent in the bracket, a base plate 1 is provided, which spring force down and strikes the U-shaped has a simplified fixed guide 2 , Head part 15 a, 15 b, 15 c of the movable component 15 opposite the one slide 3 to the left or right, so that this is held displaceably against the force of the spring 18. The slide 3 has three parallel channels 3 a, 3 & 3 c extending longitudinally of the contact piece 19 from its mating contact piece, abruptly separates and, if provided, the contact in which slide 4, 5, 6 pieces 23 are held in a longitudinally displaceable manner. During this release process are. From the underside, the bimetallic strip 9 engages the slide 3 against individual slides 4, 5, 6 at corresponding slots in the original position, stanchions 7 a, 9 a, 9 a bimetallic strips 7 , 8, 9 a. This ao When the bimetallic strips 7 and 8 cool down, the bimetallic strips are twisted with windings 10, 11, 12 and these draw their slides 4 and 5 with the drawn. At the right end of the carriage 3 is a Neten resilient part 4 α back. The lower one to the spring 13, which is supported on a plate 14. Projection 4 b adjacent part of the bracket slides At the left end, the carriage 3 has a continuation on the left upper edge of the sliding surface 3 / set 3d, 3e . The extension 3 e has on the upper 25 over until the projection 4 b again the surface side a sliding surface 3 /. Between the two progressions the sliding surface 3 / has been reached (Fig. 3). In the sentences 3 d, 3 e there is a recess in which a sliding movement of the projection 4 & on the left leg 15 c of a head part 15 a, 15 b, 15 c an upper edge of the extension 3 e pushes the support 4 c penetrates . Each slide 4, 5, 6 is with a resilient constantly on the upper surface of the leg 15 c and part 4 α in the form of a bracket with a parallel 30 thus holds the movable component 15 even then to the sliding surface 3 / extending projection 4 & and in the open position of the contact pieces 19, if the provided with an inclined support 4 c. The extension projection 4 & again from the leg 3e of the slide 3 is lifted off the legs ISb, ISc kell5 &. At the moment, however, the U-shaped head part 15 a, 15 b, 15 c with play in which the projection 4 & on the sliding surface 3 / geumfasst. 35 reaches, the projection 4 b slides on the sliding surface This movable component 15 is in guides Lö 3 / to the right in the starting position, whereby it is also held vertically displaceable and is abruptly lifted from the leg 15 c by a spring 18 upwards in the leg 15 c the rest position pressed. That is raised, so that the closure of the contact component 15 is also connected by a suitable connection pieces 19 with displacement of the component 15 to 17 with a contact piece 19, at 40 above under the pressure of the spring 18 takes place. Which connections 20 and 21 are. The contact piece 23 can also be opened at the same time. z. B. by a rod 22 also further con- The same process takes place analogously, clock pieces 23 are connected, which can be used advantageously if other or all three phases overcurrent eras signal contacts. keep.

In the area of the right end, the slide 3 45. Experience has shown that in the case of asymmetrical 'Bemit a recess 24 is provided, in which the loading of the phases expresses a quick elimination Follow the free end of an adjustable tongue 25. This is achieved by the relay according to the invention engages. This tongue is reached on a rotatable adjustment which, with a simple design, has a locking device 26 attached, which marked in the direction of the reliable and sensitive effective differential Clockwise or counterclockwise protection. With symmetrical or more even can be adjusted clockwise, so that the tongue is stressed in all phases, i.e. even at -25 into the position shown in dash-dotted lines after moderate loading in the windings 10, 11, 12 can be pivoted left or right. They bend the bimetallic strips 7, 8, 9 in the essential tongue 25 is used to adjust the tripping current borrowed evenly, so that the slide 3 strength. If space compensation is desired, 55 slightly to the left under the action of the spring 13 can move the tongue 25 designed as a bimetallic strip until it reaches the tongue 25. With will. the slide 3 but also the advancement

The slide 3, the slide 4, 5, 6 and the kit 3d, 3e and the sliding surface 3 /, so that the left part 15, but preferably the slide 4, 5, 6 with the lower edge of the resilient part 4 a too only at their resilient parts 4 α can consist of insulating material 60 at a later point in time or accordingly. The resilient parts mentioned can have a higher current load on the phases, the upper left also made of metal springs with an insulating rubber edge of the sliding surface 3 / exceeds and the bulge. solution causes.

The mode of operation of the thermal relay is As already indicated above, this can be done

the following: ⁶ 5 thermal relays according to the invention in adaptation

When an overcurrent occurs, e.g. B. in two phases to the circumstances over a certain setting

Sen of the windings 10 and 11 of the bimetallic strip 7 set range, namely this is through the

and 8, the two bimetal strips 7, 8 tongue 25 are made. The top of the tongue

25 is located in a recess 24 with play. the tongue 25 is pivoted a little clockwise so that its upper end moves slightly to the right, so after a certain flexing of the bimetallic strips 7, 8, 9, the right flank of the recess 24 tends to strike the upper end of the tongue 25. The carriage 3 is held in place and the triggering explained above will take place earlier accordingly. If, on the other hand, the upper end is shifted to the left by pivoting the tongue 25 counterclockwise, the slide 3 is only held by the tongue 25 after the slide 3 has covered a greater displacement path to the left. The slides 4, 5, 6 can therefore, individually or together, depending on the current load, only cause a relative displacement of the slides 4, 5, 6 with respect to the slide 3 when the current is correspondingly larger. If space compensation is also provided for the thermal relay, the tongue 25 can be designed as a bimetallic strip. This bimetal strip then experiences the same changes as the bimetal strips 7, 8, 9 in the event of temperature fluctuations in the room, as a result of which room temperature compensation takes place.

Claims (10)

Patent claims: 1. Thermal relay for protection against overcurrent and single-phase operation, with bimetallic strips arranged in each phase and attacking a slide, in which relay the slide actuates a contact piece after covering a certain distance, characterized in that a slide (4,5, 6) with a on a sliding surface (3 /) displaceable resilient part (4 α) is provided that this sliding surface (3f) is matched to a path corresponding to the tripping current, and that a movable component (15) in relation to the sliding surface (3 /) is arranged that the resilient part (4 a) of each slide (4, S, 6) hits this component (15) which actuates the contact piece (19) after leaving the sliding surface. 2. Thermal relay according to claim 1, there- characterized in that the resilient parts (4 a) of the slides (4, 5, 6) are designed in such a way that the resilient part (4 a) presses on the movable component (15) until the resilient part (4 a) has again reached its starting position on the sliding surface (3f) . 3. Thermal relay according to claim 1 or 2, characterized in that the slide (4, 5, 6) running parallel to each other in a slide (3) common to them are. 4. Thermal relay according to claim 3, characterized in that the sliding surface (3 /) is formed by an extension (3 d, 3e) of the carriage (3). 5. Thermal relay according to claim 4, characterized in that the movable component (15) has a U-shaped head part (15 α, 15 b, ISc) , which the slide surface (3 f ) having extension (3 e) with play includes. 6. Thermal relay according to claim 2, characterized in that the resilient part (4 a) of each slide (4, 5, 6) as a bracket with a parallel to the sliding surface (3 f) extending projection (4 b) and a support (4 c) is trained. 7. Thermal relay according to claim 3, characterized in that the carriage (3) with a recess (24) is provided into which the outer free end of an adjustable tongue (25) intervenes to set the tripping current. 8. Thermal relay according to claim 7, characterized in that the tongue (25) for Space compensation is designed as a bimetal strip. 9. Thermal relay according to one of claims 1 to 6, characterized in that the slides (4, 5, 6) and / or their resilient parts (4 a) consist of insulating material or springs with insulating sheath. 10. Thermal relay according to claim 1, characterized in that of the movable Component (15) a further contact piece (23) can be actuated. 1 sheet of drawings