DE20216515U1 - Position switch with jumping behavior - Google Patents

Abstract

Position switches with jumping behavior, with the following features:
- An axially displaceable actuating plunger (8) is acted upon by a return spring (12) and extends into the interior of a housing (4);
- The enclosing housing (4) has a lateral mounting opening (32) which can be closed by a cover (34) and an insertion opening (30) for connecting lines opposite the actuating plunger (8);
- In the housing (4), a switch insert (24) is mounted, which consists of a spring support (22) connected to the actuating plunger (8) and a contact carrier (26) connected to it via spring springs (28), whereby by moving the actuating plunger ( 8) the spring support (22) executes a movement in the same direction and the contact support (26) is accelerated in the opposite direction of movement of the spring support (22) after the dead center position of the spring springs (28) has been exceeded;
- In the contact carrier (26), two movable contact bridges (64) are mounted, which are under the action of contact pressure springs (60) and each have two fixed contacts connected to terminals (88; 89) ...

Description

The invention relates to a position switch Jump behavior, as it is used in particular as a limit switch.

From the publication DE 41 02 992 C1 Such a position switch is known, which is surrounded by a housing with a side mounting opening that can be closed by a housing cover. A switch insert is mounted within the housing and consists of a spring support and a contact support. The spring support is connected to an axially displaceable actuating element which extends through the housing and is coupled to the contact support via two spring springs laterally aligned against the actuation direction. The spring support is moved axially via the actuating element. After the dead center position of the springs has been exceeded, their spring force accelerates the contact carrier in the direction opposite the spring carrier. The contact carrier actuates two contact bridges during a switching process, but is mechanically decoupled from them in the two switch position end positions. The contact bridges are arranged one behind the other in the direction of actuation, are acted upon by contact pressure springs which are supported on the housing and form an NC or NO contact with two fixed contacts fixed in the housing. The fixed contacts are designed as an injection molded part together with a connection device for a flat cable line. A device in the swivel-mounted housing cover provides strain relief for the ribbon cable. A pressure piece in the housing cover causes the ribbon cable to make contact with the connection device when the cover is closed. The position switch is not suitable for connecting conventional single-wire cables.

In the publication DE 27 52 638 A1 described a snap switch, in the housing of a contact plunger is axially displaceably mounted. The contact plunger is actuated via a push button and two S-shaped snap springs which protrude laterally with respect to the actuation direction and which engage between the push button and the contact plunger. In a slot-shaped window of the contact plunger, two guide bodies are mounted, each of which has a socket bearing, are braced against one another and against spherically formed bearings in the window by a compression spring. A contact bridge is mounted in each of the guide bodies. The contact bridges, one behind the other in the actuating direction, form a normally open and a normally closed contact with fixed contacts mounted in the housing. When the push button is actuated, the contact plunger is moved against the direction of movement of the push button under the action of the snap springs. The connection between the contact bridges and the fixed contacts is closed or disconnected. When inserting the snap switch in a housing according to a position switch DE 41 02 992 C1 The arrangement of the contact bridges lying one behind the other in the actuating direction would lead to the disadvantage that the connection leads, which are to be connected to the fixed contacts, are difficult to connect in the small remaining interior space. A further disadvantage would be that when connecting the connecting cables, the conductor ends of a pair of contacts have to be bent against the direction of insertion. These disadvantages are particularly serious when using connecting cables with larger cable cross sections.

The invention is therefore the object to facilitate the connection of the connecting cables.

Starting from a position switch of the type mentioned in the introduction, the object is achieved by the characteristics of the independent Claim solved, while the dependent claims advantageous developments of the invention can be found.

By the side by side perpendicular to the direction of actuation horizontal arrangement of the connection terminals in connection with the contact carrier as well as the receding The front of the connection block becomes an easily accessible, greater Connection space of the connection lines created. The ends of the connection lines are easy to insert through the insertion opening and in the same direction of movement with the side by side To connect terminals. When connecting the connecting cables not hinder each other. Due to the essentially sloping The front of the connection block is the insertion of the connection cables in the housing considerably relieved. The position switch according to the invention with step function is opposite one usual switching devices significantly enlarged connection space equipped, on the one hand the connection of the connecting cables relieved or accelerated and on the other hand a sufficient Offers storage space for excess cable lengths. The separate connection blocks for each contact unit offer the convenient way in casing Contact units of different contact types, i.e. Opener and NO, use.

In addition, the connection space is kept large by a flat box shape of the spring carrier in connection with the U-shaped contact carrier slidingly guided therein. The choice of the fixed contacts to be used in the connection blocks and of the contact bridges to be used in different windows of the contact carrier with respect to the alignment of the contact pieces leads to a large number of identical parts being used in the implementation of the different contact units. To implement the selection of the contact units as NO or NC contacts, the Side carriers each selected one of the two windows to be equipped with one of the contact bridges. The outer window boundaries transverse to the direction of actuation serve as support surfaces for the contact pressure springs and the inner window boundaries serve as contact surfaces for the identically designed contact bridges.

There is a suitable design for the connection blocks from a basic body with terminals and selectable to use with regard to the alignment of their contact pieces Fixed contacts. The design of the connection terminals as tension spring terminals facilitates the connection of the Connecting cables. In other cases can screw be an advantage. It is also advantageous if connection blocks with Tension spring terminals against connection blocks with screw connections to each other are interchangeable.

An advantageous development of Invention is that an inner housing is provided which terminal blocks picks up and the contact carrier leads and guaranteed. The front of the inner housing forms with the front fronts of the connection blocks a smooth, slightly curved surface that when inserting of the connecting cables, the conductor ends of which are conveniently towards the connecting terminals directs.

An advantageous development of The invention also consists in that a positive opening lever is mounted in the housing which is acted upon by the spring support is and in turn acts on the contact carrier, causing breakup of NC contacts welded together leads. In an advantageous embodiment, the inner housing secures the positive opening lever.

More details and advantages The invention will become apparent from the following, based on figures explained Embodiment. Show it

1 : the exploded perspective view of a position switch according to the invention with jumping behavior;

2 : the perspective view, a side view and the sectional view AA of the switch insert 1 ;

3 : the perspective view of a first terminal block from 1 ;

4 : the perspective view of a second terminal block from 1 ;

5 : the perspective view of a third terminal block;

6 : the perspective view of a fourth terminal block;

7 : a longitudinal section through the assembled position switch.

To 1 includes the position switch 2 an almost rectangular housing 4 and a drive 6 , The drive 6 consists of an operating plunger 8th , a bellows 10 and a return spring 12 , The actuating plunger 8th has an actuating head at one end 14 and at the other end a resilient, T-shaped driver 16 on. The actuating plunger 8th grips - protected by the roll bellows 10 - via an actuation opening 18 inside the case 4 , the driver 16 in a takeaway 20 a spring support 22 is locked. The spring support 22 is part of a switch insert 24 with jumping behavior. The switch insert 24 also contains one in the spring support 22 slidably guided contact carrier 26 , the one in the housing 4 movably guided spring support 22 and the contact carrier 26 via two S-shaped springs 28 are coupled. The springs 28 extend transversely to the direction of movement of the spring support 22 and the contact carrier 26 , When starting the actuating head 14 becomes the actuating plunger 8th against the spring force of the return spring 12 in the direction of actuation R moved, causing the spring support 22 is moved in the same direction. After exceeding the dead center position of the springs 28 their spring force accelerates the contact carrier 26 in the the spring carrier 22 opposite direction.

The housing 4 assigns one to the drive 6 opposite insertion opening 30 on, in the connecting cables for connecting the position switch 2 be introduced with external electrical circuits. At one to the insertion opening 30 adjacent side has the housing 4 still a wide rectangular assembly opening 32 on. Via the assembly opening 32 are the internal components in the manufacture of the position switch 2 mounted and on the other hand the connection cables clamped. The assembly opening 32 is through a lid 34 locked. For this purpose, the lid has 34 hinge-like formations at one end 36 that in corresponding recesses 38 of the housing 4 grab, and a through hole at the other end 40 over which a self-tapping screw 42 in a hole 44 in the housing 4 attacks.

To 1 and 2 points in the direction of actuation R movable spring support 22 of the switch insert 24 one parallel to the assembly opening 32 flat box shape with openwork on the sides and is with its outer contours in the housing 4 slidably mounted. The flat U-shaped contact carrier 26 is to the side of the actuating plunger 8th open and slides with its cuboid outer contours in that of the spring support 22 formed cavity.

The contact carrier 26 persists 2 from two side straps 46 and 48 that at their from the actuating plunger 8th opposite ends via a cross member 50 are connected. In the side straps 46 . 48 are two, one behind the other in the direction of actuation R arranged windows 51 . 53 respectively. 52 . 54 educated. The direction of passage for the windows 51 to 54 runs perpendicular to the longitudinal axis 56 of the contact carrier 26 and parallel to the level of mounting hole 32 , Inside the window 51 to 54 are support surfaces 58 trained, on which, with appropriate equipment, contact pressure springs 60 support. Opposite each of the four support surfaces 58 point the windows 51 to 54 one contact surface each 62 on. On the contact surfaces 62 are with the appropriate equipment under the force of the contact pressure springs 60 Contact bridges 64 if they are out of contact with fixed contacts. The moving contact bridges 64 are constructed identically and have a contact piece at each end 66 on. By arranging the windows 51 to 54 the contact bridges move 66 through the assembly opening 32 seen ( 2c ) next to each other and extend transversely to the longitudinal axis 56 , Below are the windows 51 . 52 . 53 respectively. 54 referred to as the first, second, third and fourth window.

From the cross member 50 of the contact carrier 26 stands in the middle and from the actuating plunger 8th averted a first actuating nose 68 in front. In the operating nose 68 are two first triangular notches on both sides 70 educated. Second triangular notches 72 are on the inside of the spring support 22 educated. Between each first notch 70 and a second notch 72 is one of the springs 28 locked with their ends.

To 1 contains the position switch 2 furthermore a first and a second connection block 74 and 75 that are in a first or second chamber 78 respectively. 80 an inner housing 82 be snapped into place. Together with the connection blocks 74 . 75 becomes the inner case 82 in the housing 4 snapped into place, the inner casing 80 the switch insert 24 covers and the spring support 22 guards against falling out. The terminal blocks 74 and 75 each consist of an identical base body, in which connection terminals and fixed contacts are mounted.

According to 3 carries the basic body 84 of the first connection block 74 two first fixed contacts 86 and two connection terminals 88 , The connection terminals 88 are designed as tension spring terminals. The first fixed contacts 86 and the terminals 88 are non-positive and form-fitting in the base body in pairs 84 used and non-positively connected. In the same way, according to 4 the basic body 84 of the second connection block 75 two second fixed contacts 87 and two connecting terminals, which are also designed as tension spring terminals 88 , On the second fixed contacts 87 applied fixed contact pieces 67 point in the direction of actuation R , whereas on the first fixed contacts 86 applied fixed contact pieces 67 point in the opposite direction. The basic body 84 are according to 1 in the usual way with elastic first locking means 90 equipped with appropriate, in the chambers 78 and 80 trained second locking means 91 interact. After inserting the with the connection blocks 74 . 75 equipped inner housing 82 in the housing 4 form the fixed contacts 86 . 87 together with the contact bridges 64 corresponding contact units. The first and second fixed contacts are located 86 . 87 approximately at the same level with respect to the longitudinal axis 56 of the contact carrier 26 ,

By choosing the one with contact bridges 64 windows to be populated 51 to 54 of the contact carrier 26 and the choice of those in the chambers 78 . 80 of the inner housing 82 terminal blocks to be used 74 or 75 you get contact units with different switching behavior. These contact units can be combined in a variety of ways. According to 2 is in the first window 51 of the contact carrier 26 a contact bridge 64 with in the direction of actuation R directional movable contact pieces 66 stored and forms with the first fixed contacts 86 of the first connection block 74 (to 1 in the first chamber 78 ) an opener. In the fourth window 54 is a movable contact bridge 64 with opposite to the direction of actuation R directed contact pieces 66 stored and forms with the second fixed contacts 87 of the second connection block 75 (to 1 in the second chamber 80 ) a closer. The investment area 62 for the contact bridge 64 in the first window 51 runs against the direction of actuation R in front of the contact surface 62 for the contact bridge 64 in the fourth window 54 , This opens after the actuating plunger has been actuated 8th the NC contact before the NO contact closes. After release of the actuating plunger 8th the NO contact, on the other hand, opens before the NC contact closes.

The position switch 2 is not on the in terms of its contact units 1 and 2 illustrated embodiment limited. By optionally equipping and aligning the windows 51 to 54 of the contact carrier 26 with contact bridges 64 and appropriate selection and assembly of the inner housing 82 with connection blocks 74 and 75 contact units with different switching behavior can be combined. In this way, using many identical parts, position switches with snap action can be realized, which have one break contact and one make contact, two break contacts or two make contacts - possibly with different time behavior of the contact units to each other. Of course, position switches can also be implemented with only one break contact or only one make contact.

Through the assembly opening 32 considered, the connection blocks are located 74 . 75 and the connection terminals stored in these 88 in a row next to each other and perpendicular to the direction of actuation R , This arrangement of the connection terminals 88 these are for clamping the through the insertion opening 30 introduced connecting lines easily accessible, whereby already connected connecting lines cannot hinder the connection of the remaining or additional connecting lines.

The terminal blocks 74 and 75 are after 1 each with one for the assembly opening 32 showing the first front 92 equipped opposite the through the mounting hole 32 formed level runs obliquely. The first front 92 runs in the direction of actuation R with increasing distance from the assembly opening 32 , The first front fronts 92 of both connection blocks 74 . 75 run in one plane. When installed, it borders on the first front fronts 92 continuously a second front 93 which the inner case 82 towards the mounting opening 32 concludes. The second front 93 is concave and runs in the direction of actuation R with increasing distance to the assembly opening 32 , Through this formation of the front fronts 92 . 93 two things are effected: firstly, the conductor ends pass through the insertion opening when the connecting lines are inserted 30 no obstacles or gradations. Instead, the conductor ends slide over the front fronts shaped according to the invention 93 and 92 and become easy to the assembly opening 32 bent towards it. This allows the conductor ends to be easily inserted into the connection terminals 88 introduce. On the other hand, through the described design of the front fronts 92 . 93 between the insertion opening 30 and the connection terminals 88 a large space has been created. On the one hand, this space makes it easier to connect the connecting cables and, on the other hand, serves as storage space for the problem-free storage of excess cable lengths.

The in 5 shown third connection block 76 corresponds in its contact function to the first connection block 74 out 3 , The in 6 fourth terminal block shown 77 corresponds in its contact function to the second connection block 75 out 4 , Same elements 3 and 5 or off 4 and 6 are given the same reference numerals. For these elements, reference is therefore made to the description above. On the basic bodies 85 of the third connection block 76 and the fourth terminal block 77 is again the withdrawing first front 92 educated. In the basic bodies 85 are screw-type terminals 89 stored in the usual way from a drawbar 94 and a clamping screw 96 consist. While maintaining the advantages brought about by the invention, by inserting the first and second connection blocks 74 . 75 or the third and fourth connection blocks 76 . 77 in the inner case 82 corresponding 1 or by exchanging these connection blocks, the connection technology can be selected or changed in a convenient manner.

According to 1 and 2 and in particular according to 7 is in front of the actuating plunger 8th opposite side of the switch insert 24 a two-armed positive opening lever 100 in the ground 98 of the housing 4 stored. The positive opening lever 100 has side journals 102 that in a on the ground 98 molded bearing 104 inserted and through the covering inner housing 82 are held. On the bottom part of the spring support 22 is a second operating lug 69 molded on in the direction of actuation R points and the bottom lever arm 108 of the positive opening lever 100 faces. The first actuation tab already mentioned 68 the second lever arm is on the contact carrier 109 of the positive opening lever 100 across from. The combination of positive opening lever 100 and operating lugs 106 . 107 is used for positive opening of the normally closed contacts and is explained below in the event that the contact pieces 66 the contact bridge 64 that in the first window 51 of the contact carrier 26 is stored with the contact pieces 67 of the first fixed contacts 86 that are in the first connection block 74 store, glued or welded: When actuating the actuating plunger 8th comes with the spring support 22 the second operating lug 69 in the direction of actuation R against the first lever arm 108 moves, whereupon the positive opening lever 100 in the representation 7 is pivoted counterclockwise. As a result, the second lever arm hits 109 against the first actuating nose 68 , whereupon the contact carrier is forced against the direction of actuation R moves and thus the glued or welded contact pieces 66 and 67 be broken up.

2

Positionsschalter

4

Gehäuses

6

Antrieb

8

Betätigungsstößel

10

Rollbalg

12

Rückstellfeder

14

Betätigungskopf

16

Mitnehmer

18

Betätigungsöffnung

20

Mitnahmeöffnung

22

Sprungfederträger

24

Schalteinsatz

26

Kontaktträger

28

Sprungfedern

30

Einführöffnung

32

Montageöffnung

34

Deckel

36

Ausbildungen

38

Ausnehmungen

40

Durchgangsbohrung

42

Schraube

44

Bohrung

46; 48

Seitenträger

50

Querträger

51...54

Fenster

56

Längsachse

58

Stützflächen

60

Kontaktdruckfedern

62

Anlageflächen

64

Kontaktbrücken

66; 67

Kontaktstücke

68; 69

Betätigungsnase

70; 72

Kerben

74...77

Anschlussblöcke

78; 80

Kammern

82

Innengehäuse

84; 85

Grundkörper

86; 87

Festkontakte

88; 89

Anschlussklemmen

90; 91

Rastmittel

92; 93

Vorderfront

94

Zugbügel

96

Klemmschraube

98

Boden

100

Zwangsöffnungshebel

102

Lagerzapfen

104

Lageraufnahme

106; 107

Betätigungsnase

108; 109

Hebelarm

R

Betätigungsrichtung

LIST OF REFERENCE NUMBERS

2

position switch

4

housing

6

drive

8th

actuating ram

10

bellows

12

Return spring

14

actuating head

16

takeaway

18

actuating opening

20

driver opening

22

Spring carrier

24

switch insert

26

contact support

28

springs

30

insertion

32

mounting hole

34

cover

36

training

38

recesses

40

Through Hole

42

screw

44

drilling

46; 48

side beams

50

crossbeam

51 ... 54

window

56

longitudinal axis

58

support surfaces

60

Contact springs

62

contact surfaces

64

Contact bridges

66; 67

contacts

68; 69

actuating nose

70; 72

notch

74 ... 77

terminal blocks

78; 80

chambers

82

inner housing

84; 85

body

86; 87

fixed contacts

88; 89

terminals

90; 91

latching means

92; 93

front

94

Bail

96

clamping screw

98

ground

100

Positive opening lever

102

pivot

104

bearing seat

106; 107

actuating nose

108; 109

lever arm

R

operating direction

Claims (11)

Position switch with jumping behavior, with the following features: - an axially displaceable operating plunger ( 8th ) is from a return spring ( 12 ) acts and extends into the interior of a housing ( 4 ); - the enclosing housing ( 4 ) has one through a lid ( 34 ) closable, side mounting opening ( 32 ) as well as the actuating plunger ( 8th ) opposite insertion opening ( 30 ) for connection lines on; - in the housing ( 4 ) is a switch insert ( 24 ), which consists of a with the actuating plunger ( 8th ) connected spring support ( 22 ) and one with this over springs ( 28 ) connected contact carrier ( 26 ), whereby by moving the actuating plunger ( 8th ) the spring support ( 22 ) moves in the same direction and the contact carrier ( 26 ) after exceeding the dead center position of the springs ( 28 ) in the spring support ( 22 ) opposite direction of motion is accelerated; - in the contact carrier ( 26 ) store two movable contact bridges ( 64 ) under the action of contact pressure springs ( 60 ) and with two each, with connection terminals ( 88 ; 89 ) connected fixed contacts ( 86 ; 87 ) form a contact unit, whereby perpendicular to the direction of actuation ( R ) and parallel to the level of the assembly opening ( 32 ) both the contact bridges ( 64 ) run as well as the connection terminals ( 88 ; 89 ) the two contact units are lined up next to each other, - for each contact unit there is an associated connection terminal ( 88 ; 89 ) and fixed contacts ( 86 ; 87 ) receiving connection block ( 74 ... 77 ) provided, the front ( 92 ) towards the insertion opening ( 30 ) withdrawing from the assembly opening ( 32 ) runs. Position switch according to the preceding claim, characterized in that the spring support ( 22 ) flat box-like, on the actuating plunger ( 8th ) opposite side is open, the wide sides parallel to the mounting opening ( 32 ) that the U-shaped flat contact carrier ( 26 ) with its open end to the actuating plunger ( 8th ) points and via its cuboid outer contour in the box-like cavity of the spring support ( 22 ) slidably supported. Position switch according to the preceding claim, characterized in that the fixed contacts belonging to a contact unit ( 86 ; 87 ) regarding their fixed contact pieces ( 67 ) can be selected in pairs for the direction of actuation ( R ) and that the contact carrier ( 26 ) parallel to the direction of actuation ( R ) side straps ( 46 . 48 ) two each, in the direction of actuation ( R ) consecutive windows ( 51 . 53 ; 52 . 54 ) and in one of the two windows ( 51 . 53 ; 52 . 54 ) a movable contact bridge ( 64 ) with selectable alignment of your contact pieces ( 66 ) to the direction of actuation ( R ) stores. Position switch according to the preceding claim, characterized in that in the windows ( 51 ... 54 ) each side carrier ( 46 ; 48 ) support surfaces at the most distant window boundaries ( 58 ) for the contact pressure springs ( 60 ) and the support surfaces ( 58 ) opposite contact surfaces ( 62 ) for the contact bridges ( 64 ) are trained. Position switch according to one of the preceding claims, characterized in that the connection blocks ( 74 ... 77 ) a basic body ( 84 ; 85 ) as well as two connection terminals defined in this ( 88 ; 89 ) and fixed contacts ( 86 ; 87 ), whose fixed contact pieces ( 67 ) with regard to the direction of actuation ( R ) either in one direction or the other. Position switch according to one of the preceding claims 1 to 5, characterized in that the connecting terminals ( 88 ) are designed as tension spring terminals. Position switch according to one of the preceding claims 1 to 5, characterized in that the connecting terminals ( 89 ) are designed as screw terminals. Position switch according to one of the preceding claims 1 to 5, characterized in that optional connection blocks ( 74 ; 75 ) with tension spring clamps ( 88 ) or connection blocks ( 76 ; 77 ) with screw terminals ( 89 ) in the housing ( 4 ) are set. Position switch according to one of the preceding claims, characterized in that the connection blocks ( 74 ... 77 ) in an inner housing ( 82 ) sit, which in turn in the housing ( 4 ) is held, the spring support ( 22 ) secures and its front ( 93 ) with the front fronts ( 92 ) of the connection blocks ( 74 ... 77 ) towards the insertion opening ( 30 ) opposite the assembly opening ( 32 ) forms a receding surface. Position switch according to one of the preceding claims, characterized in that in the housing ( 4 ) in front of the actuating plunger ( 8th ) opposite end of the switch insert ( 24 ) a two-arm positive opening lever ( 100 ) Which is mounted with a lever arm ( 108 ; 109 ) with a first and a second operating lug ( 106 ; 107 ) on the contact carrier ( 26 ) or on the spring support ( 22 ) is in operative connection. Position switch according to the two preceding claims, characterized in that the positive opening lever ( 100 ) from the inner housing ( 82 ) is kept concealed.