DE1513196B2 - Magnetically controlled switching device - Google Patents

Description

1 2

The invention relates to a magnet-controlled the necessary short movement paths of the second

Generate switching device for switching the actuating magnet.

organs of electrical limit switches, especially when the second magnet is on the

for machine tools, with a housing in the non-magnetizable wall in opposite polarity

a first is fixed to an actuator of the limit switch 5 and if its field by a

attached magnet is arranged, whose magnetic field short-circuit device can be short-circuited. It takes

approximately perpendicular to the direction of actuation of the actuation - then not the entire magnet, but only the short

supply organ runs and its position to be moved by the Ma- closing device. The location of the

gnetfeld a second magnet can be influenced. second magnet relative to the first can already

It is a magnetic switching device that is ίο set during assembly and is not subject to any called type known, but the magnetizable changes as a result of any wear and tear. Parts, such as iron filings, attracts, so that the filings are expedient if the second magnet is a Zenam Attach switch, whereby its functional central bore has into which a magnetizable ability is severely impaired. The loading rod is also insertable. This is a particularly well-known one Switch in the contact when shaking - the same type, the magnetic field of the second Marungen not stable enough. . ■■ ·. to short-circuit.

The known switch is also inadequate. With a rod that is moved in one direction, it is possible to operate in an operationally tight manner, in particular not in a water jet-tight manner. Cause different switching operations one after the other, one has tried to remedy the lack of tightness of the switching when the second magnet is a ring magnet, whose polarity is parallel to the direction of movement of the first other sealing elements between the switching magnet with the help of O-rings, membranes or co runs and in whose bore a StalP ³¹ element and its actuating device were arranged, mutually magnetizable and non-magnetized, to remedy, but to no avail, since the adjustable layers of elastic elements that can move back and forth age relatively quickly and this is the result .

Are subject to wear and tear. It also creates 25 The required functions can be done without

carry out further operations by moving the actuation device if at least one of the

a pumping action that makes dust and shavings a permanent magnet. You save yourself that way

Can get inside the switch housing. the z. B. power required for electromagnets

The invention is now based on the task of supply and the supply that becomes necessary here

a magnetic switching device of the above mentioned lines.

called type to create that the disadvantages of the other advantages, tasks and characteristics of the recognized Switch avoids. finding result from the description

According to the invention this is achieved in that three exemplary embodiments and the drawing. In

the housing means a sealed chamber, the drawing means

mer in which the first magnet is arranged 35 F i g. 1 a longitudinal section through an inventive and which has a non-magnetizable wall, according to magnetic switching device for end-of-life switch the first magnet from the second magnet switch,

separates and that the magnetic fields of the two magnets Fig. 2 is a longitudinal section through a second output

penetrate the wall and look for the exterior of the guide example,

Housing are shielded. 40 Fig. 3 shows a section along line 3-3 in FIG. 2,

The device according to the invention makes it possible, FIG. 4, a section through a third embodiment.

the actual switch and its actuation example. __

device in a sealed operation. A housing 10 has two mutually independent

Chamber to accommodate only one opening for gige chambers 12 and 14, which through a not ~ '

has the lead through of the connecting cables. The covers shown 45 are closed in an operationally tight manner. the

The switch cannot function in any way. Chamber 12 has an outlet opening 16 through

be affected by dust or chips. In- the connection lines, not shown, for one

follow the shielding of the magnetic fields of the two switches 18 are led out by means of him

Magnets can be attached to the housing of the threaded bolts 20 and nuts 22 crossing the invention

straight device do not put iron filings and 5 ° is firmly attached to the wall of the chamber 12. '

interfere with the operation of the switch. At its ends, the switch 18 has the usual ones

contemporary switch is also in its function position terminals 24 on. On a pin 26, the

and independent of movement. is formed on the housing 10, is an actuation

It is advantageous if the second magnet is arranged, for example, in organ 28 in the form of a rocker switch,
55 With the inner surface of the rocker switch 28, the plunger 30 of the switch 18 is arranged such that it can move back and forth and is polarized in opposite directions. The rocker switch is. Due to the repulsive forces that arise, both magnets essentially support the switching process at their free end. If you turn at an angle and wear a first person there, you achieve a flip-flop-like switching effect. Manentmagneten 32, the field of which is perpendicular to its due to suitable coordination of the magnets and 60 mounting surface on the rocker switch 28. At the knee 34 of the rocker switch 28, if necessary, a foam rubber layer 36 is glued to the outside of the two magnetic fields, which compensate for a hard impact on the latter. Knees 34 on the wall of the chamber 12 prevented.

It is also useful if the second magnet is on switch 18 for similar purposes

glued to one end of a pivotable, spring loaded 65 layer of foam rubber 38.

Angle lever is arranged, the other end of which in the exemplary embodiment consists of the entire structure

by a cam device at least indirectly housing 10 made of non-magnetizable material, for. B.

is actuatable. This can be done in a simple manner from suitable injection molding. The partition wall 40, too

Claims (9)

3 4 is not magnetizable. Therefore the field penetrates the magnetic field axes at a certain point Permanent magnets 32 through the partition of the permanent magnets to cover. Until this one 40 through. The permanent magnet 32 does not move due to the on-time in the chamber 12 and 14, Orderly shielding plates 63 are prevented that with further pivoting of the angle lever 58 Magnetic fields that attract iron filings or the like 5 expresses the repulsive force of both permanent to penetrate outside. magnets in that the permanent magnet 32 An actuating shaft 42 is in a bearing piece according to FIG. 2 rotatably mounted very quickly and in a defined manner upwards in 44, the bore of which moves a stable position into the chamber. This in turn leads to 14. At its end face facing the chamber 14, the actuating member 28 and the plunger 30 actuated, the actuating shaft 42 carries a pin and the switch 18 is switched. Here too, fen 46 remains, which has a sector-shaped recess 48 of permanent magnet 32 in this switch for so long (FIG. 3). The one position fits into this recess 48 until the permanent magnet 60 is in the clockwise end of an L-shaped slide 50, which is pivoted again vertically, whereupon the two permanent magnets are in the correct position relative to the chamber 14 in relation to the geometric axis of the actuating shaft 42. and is movably mounted. In addition, the L-slide 50 can be pressed by compression springs, so that the permanent magnet 32 is pushed in the direction of the partition 40 according to FIG. 54. He F i g. 2 moved down. This switching point, too, is therefore always in the recess magnet 60 with its one end at not dependent, very defined on the position of the permanently actuated actuating shaft 42. The strong repulsive forces and 48. On the L-shaped slide 50, a magnetic 20 the force of the actuatable plunger pin 66, which is also not shown here, is positively connected to one end of the material element 28 pushing into the open position, the other, free end in spring cause the central bore 68 of a permanent magnet 64 to proceed very quickly and electrical energy is also immersed, which can be connected to the partition 40 using the above data, solidifies and in the opposite direction to the permanent magnet 32. In the exemplary embodiment 4, the polarity is opposite. By rotating the actuating shaft 42 in any direction via the first two exemplary embodiments, the chamber 14 and its contents are omitted. 2 always to the right against the. A partition 140 having the same properties as the force of the compression springs 54 moves. As a result, the partition 40 is also provided here, the plunger 66 with its free end from the 3 °. In the vicinity of this partition, a toroidal core 146 permanent magnet 64 is pulled out, so that its north-south direction parallel to the full magnetic field is provided Partition 140 acts on permanent magnet 32. In the bore 168 this and him according to FIG. 1 a movement upwards from toroidal core 164 is a rod 170 can be guided back and forth. As a result, the switch 18 is stored on the loan. It comprises a reciprocal layer actuator 28 and the plunger 30 switched. In 35 direction of layers 172 and 174, the length of which roughly corresponds to the switch position, the permanent magnet 32 corresponds to the length of the toroidal core 164,
so .long until the plunger 66 is back in the Per The layers 172 are not magnetizable and the manentmagnet 64 due to the rotation of the actuator consist of brass, while the layers 174 transmission shaft 42 is immersed. The repulsive forces can be magnetized and are made of steel. Then through it, so that the force of a non-unidirectional displacement of the rod 170 in the hole, the actuating member 28 in the open position 168 is cyclically short-circuited the magnetic field of the ring-urging spring inside the switch 18, so that Here, too, it is carefully considered that this switching process also takes place very quickly before the effect of the magnetic field of the permanent magnet and that the desired switching process results with relatively small switches for 18 minutes,
at least 10 A at 250 V AC and 10 A 45 apart from those in the exemplary embodiments can be switched at 30 V DC. Magnets shown can also be used for displacement In the embodiment according to FIG. 2, at or further definition of the switching time, an angle lever 58 clamping magnets can be provided in front of a pin 56 fixed to the housing,
1 and 2, the shielding plates 40 trimmed, fork-shaped end have a Mit- 5 ° 63 drawn so that their end faces have a certain slave pin 65 of the second permanent magnet 60 distance from the partition 40. For better encompassing and with its other end on the L-slide shielding can also be provided according to the invention. By means of a compression spring 62 it will be in such a way that these end faces in the partition wall 40 according to FIG. 2 are left running counterclockwise or the shielding plates 63 are pushed in the direction of separation. The polarity of the second 55 wall penetrate completely.
Permanent magnet 60 is opposite to that of the first permanent magnet 32. The leadership of the Per- claims:
Manentmagneten 60 worried on the one hand, the partition wall 40 and on the other hand a with the shielding plate 63 1st magnet-controlled switching device for connected, also made of shielding material standing floor 61, which is for the passage of the win limit switch, especially for machine tools Lever 58 has a longitudinal slot 59. nen, with a housing in which a first at By rotating the actuating shaft 42, the magnet attached to the actuating member is applied Angle lever 50 according to FIG. 2 is always arranged to the right, whose magnetic field is approximately perpendicular to moves against the force of the compression springs 54. As a result, 65 actuating device of the actuating member is required the angle lever 58 runs from its extended position and its position due to the magnetic field Drawn position in its dashed position ver a second magnet can be influenced, then the force of the compression spring62. This is achieved by characterized in that the housing (10) has a sealed chamber (12) in which the first magnet (32, 132) is assigned and which has a non-magnetizable wall (40, 140) which separates the first magnet from the second magnet (60, 64, 164) and that the magnetic fields of the two magnets penetrate the wall (40, 140) and are shielded from the outside of the housing (10). 2. Magnetically controlled switching device according to claim 1, characterized in that the second magnet (60) movable to and fro approximately in the direction of actuation of the first magnet (32) is arranged and polarized in opposite directions. 3. Magnetically controlled switching device according to claim 2, characterized in that the second magnet (60) arranged at one end of a pivotable, spring-loaded angle lever (58) is, the other end of which by a cam device (46, 58, 50) at least indirectly is actuatable. 4. Magnetically controlled switching device according to claim 3, characterized in that the Cam device (46, 48, 50) mounted in the wall of a second chamber (14) of the housing (10) is. 5. Magnetically controlled switching device according to claim 1, characterized in that the second magnet (64) fixedly arranged on the non-magnetizable wall (40) with opposite polarity and that its field can be short-circuited by a short-circuit device (66). 6. Magnetically controlled switching device according to claim 5, characterized in that the second magnet (64) has a central bore (68) into which a magnetizable rod (66) can be inserted is. 7. Magnetically controlled switching device according to claim 1, characterized in that the ίο the second magnet (164) is a ring magnet whose polarity is perpendicular to the direction of movement of the first magnet (132) and in whose bore (168) a rod (170) made of mutually magnetizable and non-magnetizable layers (172, 174) is guided to and fro . · 8. Magnetically controlled switching device according to one of the preceding claims, characterized characterized in that at least one of the ao gnete is a permanent magnet. "^. 9. Magnetically controlled switching device according to. Claim 1 to 3, characterized in that the angle lever has a link-shaped guide at its free end, in which a rigid on the second magnet attached driver pin (65) is guided and that the second magnet through the partition (40) and a bottom (61) designed as a shielding plate parallel to itself is led. 1 sheet of drawings