EP2140521A1 - Installation switchgear having a spring-loaded terminal arrangement - Google Patents

Abstract

The invention relates to an installation switchgear having a housing, having a front and a rear front side, a mounting side, front and rear narrow sides and broad sides, and having a screwless spring-loaded terminal in a fixed position inside a terminal connection space of the housing, said terminal comprising a terminal spring having a contact leg, a clamping leg having a clamping window comprising a clamping edge, and a curved spring back connecting the contact and clamping legs, said terminal working together with a carrier part comprising a terminal strip such that a connecting conductor can be connected between the back side of the terminal strip and the terminal edge. A spring actuation lever that can be actuated from outside the housing is pivotally connected to the housing, said lever when pivoted out of a rest position into an opening position pressing with a bending arm on the spring back such that the clamping window exposes a clamping opening on the rear side of the terminal strip for introducing a connecting conductor.

Description

 Installation switching device with a Federzuqklemmenanordnung

description

The invention relates to an installation switching device with a spring-type terminal assembly according to the preamble of claim 1.

Generic installation switching devices may be, for example, circuit breaker, residual current device, motor protection switch or selective main line circuit breaker. Usually, a tool is required to open the spring clamp, is applied with the pressure on the spring leaf. Although the spring-loaded terminal arrangement itself is then very simple in design, an additional operating opening must be provided in the housing of the service switching device, and the handling is complicated because of the tool required for inserting and removing the connecting conductor.

In order to be able to connect and disconnect a connecting conductor without tools on the generic spring-type terminals, it is necessary for the spring-loaded terminal arrangement to comprise a spring actuating means with which an operator can open the spring-loaded terminal by pressure on the spring blade if required. The closing of the clamp is self-evident due to the resiliency of the spring blade when the pressure on the spring blade is withdrawn.

EP 1 213 791 B1 discloses a spring-type terminal assembly comprising a spring leaf actuating lever with a cage-type spring blade forming a loop of triangular shape at the rounded angles, the two end portions being exactly perpendicular to each other, and with US Pat an electrically conductive terminal on which the first end portion of the spring leaf is mounted, and wherein an opening passes through the sheet. The operating lever of the blade is mechanically connected to the clamp and guide means for the operating lever are attached to the clamp. The guide means allow the lever in to maintain constant contact with the spring leaf. The lever is, when the spring leaf is not pressurized, on the culmination of the spring leaf.

Here, the advantage of the tool-free operation is due to the disadvantage of a complicated design of the spring clip assembly. It is therefore the object of the present invention to provide a generic service switching device in which a connection conductor can be inserted and removed with a simply designed, conventional spring-type terminals arrangement without tools.

The object is achieved by a generic service switching device with the characterizing features of claim 1.

According to the invention, an actuatable from outside the housing spring actuating lever is pivotally connected to the housing, which presses when pivoting from a rest position to an opening position with a bending arm on the spring back, that the clamping window releases a clamping opening on the back of the clamping strip for insertion of the connecting conductor.

An inventive installation switching device has the advantage that the spring actuating means is separated from the terminal and stored in the housing. The clamp itself can therefore be designed very simple. For the arrangement of the spring actuator in the housing, the simplest and best to install option can be selected.

According to a particularly advantageous embodiment of the invention, the spring actuating lever is a double-arm lever with a protruding from the housing operating arm and a guided inside the housing bending arm. This can be made of plastic and therefore very inexpensive. The storage in the housing, for example, take place in an axis fixedly connected to the housing. The axis can also be realized in that in each case a pin is integrally formed on the pivot point of the double-arm lever, which is pivotably mounted in a respective corresponding recess in the inside of the housing. According to a further advantageous embodiment, the spring actuating lever is mounted so that it remains in its open position by self-locking in this, until it is pivoted by hand back into the Ruhrposition. For this purpose advantageously contributes to the bending arm at its free end a cam-shaped contact surface, with which he presses oppressively when operating in the opening direction on the spring back, thereby achieving a continuous opening process and in the end position of the open position by a kind of locking a self-locking of the spring actuating lever is reached.

Very advantageous is an embodiment in which the operating arm is formed in two parts in the form of two mutually displaced partial arms. As a result, the operating arm can be extended by pulling out the second partial arm, so that a greater lever force can be achieved during pivoting.

In order to ensure a guidance of the spring actuating lever in the service switching device, a particularly advantageous embodiment, first guide means on the Federbetäti- lever and second guide means are mounted inside the housing shells, which cooperate to guide the spring actuating lever. The clamping spring itself has no guide means and is therefore very easy to design.

According to a further advantageous embodiment, a locking device can be mounted in the interior of the housing shells, which in the opening position can cooperate with the first guide means of the spring actuating lever, so that inadvertent pivoting of the spring actuating lever from the opening to the rest position is prevented. This offers itself to the above-mentioned self-locking a redundant way to prevent inadvertent pivoting of the spring actuating lever from the opening - to the rest position.

Advantageously, the spring actuating lever is arranged so that it rests in the Ruhrposition flush with the rear front side of the housing and perpendicular to the associated narrow side, and is pivoted in the open position to the front front side, so that it is perpendicular to the opening position in the Rear front side and approximately flush with the associated narrow side protrudes. According to a further advantageous embodiment, the second guide means is an arcuate groove and the first guide means is a guide pin on the spring actuating lever.

On the inside of the housing can be mounted in the region in which the guide pin is in the open position located spring actuating lever, a locking contour, and in the open position, the spring actuating lever can be displaced in the direction of the Arretierungskontur that the guide pin with the Arretierungskontur is coupled and so inadvertent pivoting of the spring actuating lever from the opening - is prevented in the Ruhrposition.

In this case, the locking contour may advantageously be a protruding on the inner wall of the housing web or undercut.

Further advantageous embodiments and improvements of the invention and further advantages can be taken from the subclaims.

Reference to the drawings, in which an embodiment of the invention are shown, the invention and further advantageous refinements and improvements of the invention will be explained and described in detail.

Show it:

1 shows a first embodiment of a Federbetätungs-- Hebeis invention in collapsed state,

2 shows the spring actuating lever according to FIG. 1, in an extended state, FIG.

1, in the pushed-together state in its installed position in the housing, FIG. 4 shows the spring actuating lever according to FIG. 1, in the extended state, in its installed position in the housing, FIG.

5, the spring actuating lever of FIG. 1, placed in the open position, in its installed position in the housing, 6 shows the spring actuating lever according to FIG. 5, with the housing partially open, FIG.

Fig. 7 shows the spring actuating lever of Fig. 6, in a partially pivoted

8, a spring actuating lever according to FIG. 1, viewed from the bottom, FIG.

9 is a spring actuating lever of FIG. 2, viewed from the bottom,

10 is a spring operating lever with the associated clamping spring, installed in the terminal receiving space of a service switching device, in the rest position, Fig. 11 is a spring operating lever with the associated clamping spring, installed in the terminal receiving space of a service switching device, in the open position,

12 is a spring actuating lever according to Fig. 1, in disassembled state,

13 shows the spring actuating lever according to FIG. 12, in the assembled state,

Fig. 14 shows another embodiment of a spring actuating lever, in his

Installation position in the terminal compartment of an installation switching device, in the pushed-together state and in its rest position,

15 shows a further embodiment of a spring actuating lever, in its installed position in the terminal receiving space of a service switching device, in an exploded state and in its rest position,

16 shows the spring actuating lever according to FIG. 15, in its open position, FIG.

17, the spring actuating lever of FIG. 16, seen in the direction of arrow A,

16, partially inserted and locked in its open position,

19, the spring actuating lever of FIG. 18, seen in the direction of arrow A,

Fig. 20, the spring actuating lever of FIG. 18, inserted and unlocked in its open position, and

21, the spring actuating lever according to FIG. 20, seen in the direction of arrow A. First, FIG. 10 will be considered. This shows a spring actuating lever 10 with the associated clamping spring 20, installed in the terminal receiving space 32 of a service switching device 30, in the rest position. The service switching device 30 may be a circuit breaker, a main switch, a motor protection switch or the like. Its housing made of an insulating material is indicated schematically. It comprises a front front side 31, a rear front side 33, a front narrow side 34, a rear narrow side 35 and a fastening side. A broad side, which connects the front and narrow sides parallel to the plane of the drawing, is also present, but not shown in the illustration of FIG. 10. It is indicated in the perspective view of FIG. 5.

An installation switching device 30 is usually used to monitor and / or switch a current path which is passed through it between two connection terminals. For this purpose, further components and elements are present in the interior of the service switching device, such as at least one contact point comprising a movable and a fixed contact piece, a movable contact lever, a switching mechanism for actuating the contact lever, one or more trigger assemblies, such as a thermal overcurrent release and / or a magnetic Puncture anchor system, a control lever for manual operation from the outside, a display device for displaying the switching state, and the like. On the mounting side 36 may be fasteners with which the service switching device can be mounted on mounting rails or on busbars in distribution boards. The internal structure and the external connection and fastening devices of a service switching device should be assumed to be known in view of the present invention. The terminals are housed in terminal receiving spaces, one of which is shown in FIG. 10 with the reference numeral 32. The terminal receiving space 32 is located in the region of the rear narrow side 35, in the vicinity of the rear front 33rd

In the terminal connection space 32, a clamping spring 20 is mounted. The spring leaf of the clamping spring forms a loop with a triangular contour and rounded corners. The clamping spring thus has an abutment leg 21, with which it rests on the free end of a busbar 22, which connects the connection to the current path in the device inside into it. The free end 23 of the busbar 22 is also referred to here as a clamping strip, and the busbar 22 is also referred to as a carrier part.

The clamping spring 20 further has a clamping leg 24, which extends approximately perpendicular to the plant leg 21. In the clamping leg 24 is a designated as a clamping window 25, rectangular recess is present, the lower edge of the clamping edge 26 forms.

The investment and the clamping leg 21, 24 are connected by the spring back 27. By pressure from the top of the spring back 27, ie in the direction perpendicular to the plant leg 21 to this, the clamping leg 24 can be moved downwards, so that the clamping window is pressed onto the side facing away from the plant leg 21 of the clamping strip. This position is shown in Fig. 11, this shows the clamping spring 20 in the open position. From the rear narrow side 35, a connection conductor can now be inserted into the clamping window 25. If the pressure force on the spring back is released, then this draws due to its spring property, the clamping leg 24 back toward the rest position. In this case, the inserted connection conductor between the clamping edge 26 and he the plant leg 21 facing away from the clamping strip 23 is then clamped.

To actuate the clamping spring, so for applying the pressure required for the opening on the spring back, a Federbetätigungs- lifting 10 is mounted in the service switching device. This is rotatably mounted in an axis 11 coupled to the housing. The spring actuating lever 10 is a double-arm lever with a projecting from the housing arm 12 and a running inside the housing bending arm 13. The operating arm 12 acts as a handle for actuating the clamping spring 20. The bending arm 13 acts on the spring loop on the spring back 27. In the Rest position is the operating arm 12 perpendicular to the rear narrow side 35 and flush with the rear front of the housing. He thus acts simultaneously as a closure of the terminal receiving space 32 in the region of the transition from the rear front 33 to the rear narrow side 35th

The bending arm 13 of the spring actuating lever 10 carries at its free end a cup-shaped curved contact surface 14. This is bent away from the spring back 27. At its end, the bending arm 13 carries a flattening 15. When the spring operating lever 10 is pivoted by an operator by hand from the rest position of FIG. 10 in the open position shown in FIG. 11 about the axis 11, then the bending arm 13 rolls off with its contact surface 14 on the spring back 27, wherein this in its opening position bends out. By rolling results in a flowing movement when opening the clamping spring, tilting of the spring actuating lever 10 with the clamping spring 20 is prevented.

At the end of the opening movement, the spring actuating lever 10 protrudes in its open position approximately perpendicular to the rear front side 33, see FIG. 11. The bending arm 13 then holds in its end position with its flattening 15 the clamping spring in its open position. The flattening 15 is flat on the spring back. The restoring force of the clamping spring acts via the flattening 15 perpendicular to the bearing axis 11 of the spring actuating lever. As a result, this results in a self-locking or locking of the spring actuating lever 10 in the open position. The spring actuating lever can not automatically fall back into the rest position from the open position.

The spring actuating lever 10 is thus mounted in the housing and not connected to the terminal. The clamp itself does not include guide means for the spring actuating lever 10, but the guide means of the spring actuating lever 10 are provided inside the housing shells. The functions "terminals" and "actuate" are thus implemented on separate modules.

The spring actuating lever 10 is designed in two parts. This will now be explained with reference to FIGS. 8, 9, 12 and 13. The spring actuating lever 10 consists of a core part 101 and a cover part 102 pushed over it, which has an inner recess for receiving the core part. The core part 101 forms a double arm lever, one arm of which forms the operating arm 12 of the spring actuating lever 10. The other arm forms an operating extension 103, onto which the enveloping part 102 is pushed in the manner of a sheath. The pushed onto the operating extension 103 Hüllteil 102 thus forms the operating arm 12 of the spring actuating lever.

The free end of the operating extension 103 carries two parallel spring arms 104, 105, which each carry a latching nose 106, 107 at their free ends. The wrapper 102 may be slid onto the core member 101 after being placed on it, taking three predetermined positions. These are an inserted position, according to Figure 8, an extended position, according to Figure 9, and a middle position, according to Figure 13. Accordingly, inside the recess of the enveloping part 102, in the vicinity of the free end of the Hüllteils, first undercuts 108, 109, which are arranged so that they lock in the retracted position with the locking lugs 106, 107. There are also in the vicinity of the operating arm facing the end of the Hüllteils in its interior second undercuts 110, 111 which are arranged so that they lock in the extended position with the locking lugs 106, 107. Finally, there are intervening third undercuts 112, 113, which are arranged so that they lock in the middle position with the locking lugs 106, 107. Thus, in each of the three positions that can take the envelope on the core part, this held by locking the locking lugs 106, 107 with the corresponding undercuts. The advantageous effect is that by pulling out the Hüllteils 102 of the effective lever arm of the operating arm can be extended and thus when operating the spring, a greater leverage can be achieved.

On the core part 101 laterally projecting bearing pin 16 are formed, with which the spring actuating lever is mounted pivotably mounted in corresponding position in the housing broadside recesses 17. This makes a particularly simple installation possible. The spring actuating lever 10 comprises only two parts which are completely produced as injection-molded parts, for example made of plastic, and thus very inexpensive. The recesses for the storage of the spring actuation lever in the housing broadside are also already there with the injection molding of the housing parts attached. Alternatively, however, the storage of the spring actuation lever could also be effected by means of a bearing axis. Then the spring operating lever would be pushed during assembly with a bearing bore on the bearing axis.

FIG. 1 once again shows the spring actuating lever 10 in the inserted position, from the upper side, just as an operator sees it when it is installed when looking at the rear narrow side 35. The undercuts and the spring arms of the core part are not visible from this side. FIG. 3 shows the spring actuation lever according to FIG. 1, installed in an installation switching device, in the rest position.

FIG. 2 shows the spring actuating lever according to FIG. 1 in the extended position, and in FIG. 4 the spring actuating lever is shown in the extended position, installed in an installation switching device and in the rest position.

FIG. 5 shows the spring actuating lever according to FIG. 2, now mounted in its open position in the housing and pivoted upwards.

Two guide pins 114, 115 are formed on the envelope part close to its insertion opening for the core part so that they face each other in the axial direction and protrude laterally. In the extended position are the guide pins 114, 115 between the bearing pin 16 and the free end of the operating arm 12. In the retracted position are the guide pins 114, 115 between the bearing pin 16 and the free end of the bending arm 13 of the spring actuating lever. In the middle position, the guide pins 114, 115 are located approximately above the bearing pin 16.

When pivoting the spring actuating lever 10, the guide pins 114, 115 run in a guide groove 38 in the inner wall of the housing broadside, see Figure 7. Thus, the trajectory of the spring actuating lever 10 is additionally determined.

In the illustration according to FIG. 7, the spring actuation lever is in the pushed-in position and is shown in an intermediate position between the rest position and the open position. In the illustration of Fig. 6, the spring actuating lever is in its open position and is partially pulled out in its middle position. In this position, the guide pins 114, 115 lock with a laterally in the housing broadside at correspondingly corresponding point applied latching projection 39. Thus, the spring actuating lever 10 is additionally locked in its open position, an inadvertent closing of the terminal is difficult. The spring actuating lever can only be pivoted back into its rest position when it has been pushed from the middle position back to the retracted position. The various operating and handling options of the spring actuating lever are shown again in FIGS. 14 to 21. In FIG. 14, the spring actuating lever 10 in its rest position and the enveloping part 102 is in the retracted position. The spring actuating lever is aligned with the rear front side 33 of the housing. The guide pin 115 is located to the right of the axis sixteenth

In the figure 15, the enveloping member 102 has been pulled in the rest position of the spring actuating lever 10 in its extended position. The guide pin is now left of the axis 16. In this position, the lever arm of the operating arm is extended.

In Fig. 16, the position of the spring actuating lever is shown, in which this has been moved by pivoting out of the position of FIG. 15 out in the open position. The guide pin 115 is now above the axis 16. It is free of the latching projection 39, so that the spring actuating lever 10 can be pivoted. Fig. 17 shows the view from the direction of arrow A on the spring actuating lever in the position shown in FIG. 16. The locking lugs 106, 107 are latched to the second undercuts 110, 111, so that unintentional pushing back of the Hüllteiles 102 is difficult.

In FIG. 18, the enveloping part is partially retracted into its middle position. In this position, the guide pin is pushed behind the locking projection 39 and held by this. As a result, a pivoting of the spring actuating lever is blocked back to the rest position. Fig. 19 shows the view from the direction of the arrow A on the spring actuating lever in the position shown in FIG. 18. The locking lugs 114, 115 are latched to the third undercuts 112, 113, so that an unintentional moving out of the enveloping part 102 from its middle position is difficult.

In Fig. 20, the Hüllteil has been pressed in the open position of the spring actuating lever 10 back to its retracted position. The guide lugs 114, 115 are again released from the locking projection 39, they are now below the pivot pin forming the pivot pin 16. The spring actuating lever can be pivoted back into its rest position in this position, whereby he then assume the position of Fig. 14 again would. FIG. 21 shows the view from the direction of the arrow A on the spring actuating lever in the position according to FIG. 20. The locking lugs 114, 115 are latched to the first undercuts 106, 107, so that unintentional movement of the enveloping part 102 out of its retracted position is also difficult. In the service switching device according to the invention therefore different security mechanisms for preventing unintentional actuation of the spring actuating lever are realized. When vertical lever and thus opening the clamp, the Hüllteil can be pressed a piece, thereby locking the guide pin and thus prevents inadvertent closing of the terminal. Only when the Hüllteil pulled out of its locking position again or pushed further down, unlatched the guide pin and allows the closing of the terminal.

LIST OF REFERENCE NUMERALS

10 Spring operating lever 34 front narrow side

11 Axis of spring actuation lever 35 rear narrow side bels 25 36 Fixing side

5 12 Operating arm 37 Broadside

13 Bending arm 38 Guide groove

14 contact surface 39 latching projection

15 flattening 101 core part

16 bearing journal 30 102 enveloping part

10 17 Deepening 103 Operating extension

20 clamping spring 104 spring arm

21 plant leg 105 spring arm

22 busbar 106 locking lug

23 clamping strips 35 107 locking lug

15 24 clamping legs 108 first undercut

25 clamping window 109 first undercut

26 clamping edge 110 second undercut

27 spring back 111 second undercut

30 Installation switchgear 40 112 third undercut

20 31 front front 113 third undercut

32 terminal receiving space 114 guide pin

33 rear front 115 guide pins

Claims

claims

1. Installation switching device with a housing, and with a fixed in a terminal connection space of the housing screwless spring-type terminal, which comprises a clamping spring with a plant leg, a clamping leg with a clamping edge comprising a clamping window and a connecting the planting and clamping leg bent spring back and cooperating with a support part comprising a clamping strip such that a connecting conductor can be clamped between the rear side of the clamping strip and the clamping edge of the clamping window, characterized in that a spring operating lever which can be actuated from outside the housing is pivotably connected to the housing, which during pivoting from a rest position to an opening position with a bending arm so presses on the spring back, that the clamping window releases a clamping opening on the back of the terminal strip for insertion of the connecting conductor.

2. Installation switching device according to claim 1, wherein the spring actuating lever is a Doppelarmhebel with a protruding from the housing operating arm and a guided inside the housing bending arm.

3. Installation switching device according to one of the preceding claims, wherein the spring actuating lever remains by self-locking in its open position, until it is manually pivoted back into the Ruhrposition.

4. Installation switching device according to one of the preceding claims, characterized in that the operating arm is formed in two parts in the form of two mutually displaced partial arms, and that by pulling out of the second arm of the operating arm is extended, so that when pivoting a greater leverage is achieved.

5. Installation switching device according to one of the preceding claims, wherein the bending arm carries at its free end a cam-shaped contact surface, with which he at Pressing in the opening direction on the spring back pressing rolls, so that thereby a continuous opening operation is achieved.

6. Installation switching device according to one of the preceding claims, wherein on the spring actuating lever first guide means and in the interior of the housing shells second guide means are mounted, which cooperate for guiding the spring actuating lever.

7. Installation switching device according to one of the preceding claims, wherein in the interior of the housing shells, a locking device is mounted, which in the open position with the first guide means of the spring actuating lever can cooperate so that unintentional pivoting of the spring actuating lever from the opening - is prevented in the rest position

8. Installation switching device according to one of claims 6 or 7, wherein the second guide means is an arcuate groove and the first guide means is a guide pin on the spring actuating lever.

9. Installation switching device according to claim 8, wherein on the inside of the housing in the region in which the guide pin is located in opening position befindlichem spring operating lever, a locking contour is attached, and being displaceable in the open position of the spring actuating lever in the direction of the locking contour, that the guide pin is coupled to the locking contour and so unintentional pivoting of the

Spring actuating lever from the opening - is prevented in the Ruhrposition.

10. Installation switching device according to claim 9, wherein the locking contour is a protruding on the inner wall of the housing web or undercut.