SE455551B - THE MAGNETS AND THE MANUFACTURING OF THE SAME - Google Patents

Description

455 551 According to the said US patent specification, the finger consists of plastic and is enclosed in the tubular core. The finger must there- for specially manufactured and special measures are taken for to attach the finger to the core.

The object of the invention is to eliminate these disadvantages and cheapen the manufacture of the magnets, in particular the magnetic core with its controls. The invention thus relates to a magnetic core for sliding mounting in an insulating pipe and forming a part of an electromagnet provided with one around the tube wound coil, which core consists of a bent sheet of magnetic material with a side wall forming one with tube coaxial hollow body with an inner cavity and a liner sliding in the tube adapted to the outside, wherein an actuator in the form of a guide finger for a contact device is fixed connected to the end of the magnetic core projecting from the tube.

According to the invention, this magnetic core is characterized in that the actuator forms part of a common sheet metal blank whose other rectangular body part after bending forms the side wall of the core, forming the actuator the part in the form of an appendix starts from one side of the tangular subject part.

The invention also relates to a method of manufacturing a above-mentioned magnetic core intended for mounting in an insulating tubes forming part of an electromagnet provided with a coil wound around the tube, which core has one actuators in the form of a contact finger for engaging " a contact device, wherein a piece of sheet metal is punched out with a contour defining a substantially rectangular portion which bends to form a core with a substantially axial cavity and an outside adapted for steering therein insulating pipe. The characteristic of the way is that when punching the sheet metal piece this is punched out with a 455 551 to one side of the rectangle connected bíhang to form said actuators.

In this way, the actuator is manufactured at the same time as the side wall of the core, which is actually possible to perform without any special operation. Without that in the manufacture pay special attention to it, you are sure that the the body is securely attached to the side wall. It thus the actuator performed is furthermore very light, which strengthens already existing benefits of a lightweight magnetic core with axial cavity.

The invention is described below in the form of exemplary embodiments and with reference to the accompanying drawings.

Figure 1 is a perspective view of a maximum relay according to the finding.

Figure 2 is an axial section through the relay according to Figure 1.

Figures 3 and 4 are sections along the line III-III and IV-IV on figure 2.

Figure 5 shows the magnetic core viewed according to the arrow V on figure 2.

Figure 6 shows an extension of a plate piece for action of the magnetic core.

Figure 7 shows the magnetic core viewed according to arrow VII. after shaping.

The device according to the figures consists of an insulating frame of plastic 1 comprising a cylindrical tube 2 which in each the other end has a flange 3.4 serving in a known manner attach the relay to a base and / or take up its clamping 455 551 mother (not shown). The axial bore 6 in the pipe 2 extends passes through the flange 3. The bore 6 is also in connection 5 with the environment via an opening 7 in the flange 4 and is surrounded by a collar 8.

An electric coil 9 is arranged around the tube 2. The coil two ends 11,12 (fig. 1) are intended to be connected in series with the circuit to be protected (not shown). The ends 11 and 12 are attached to clamps in a conventional manner (no shown) on the flanges 3 or 4.

A magnetic core 13 is slidably mounted in the bore in the tube 2. At its end 14 extending from the flange 3 has the core 13 a finger 16, the bent end 15 of which forms a hook to operate a contact in a conventional manner (no shown) depending on the axial position of the core 13. I its base portion, the finger 16 is provided with a pin 17 which extends perpendicular to the axis Z-Z of the core 13 (Fig. 2) and engages in a guide 18 parallel to the axis Z-Z.

The guide 18 is formed between two uprights 19 made in one piece with the flange 3. In the base portion between the posts 19 fin- nes a stop 21 for the pin 17. At their free ends they are two uprights 19 provided with facing protrusion 22. The protrusion 22 forms abutments for the pin 17.

Between the projections 22 there is an opening 23 whose width is less than the thickness of the pin 17. Between this opening and the end of the posts 19, the posts are bevelled at 24.

A compression spring 26 is mounted around the core 13, between the pin 17 and an annular seat 27 in the flange 3 around the "" end of the bore 6. The end of the spring 14 opposite the flange 3 likewise abuts a projection 28 from the finger 16 opposite the pin 17. The edges of the flange 3 facing off the projection 28 and the pin 17 are aligned with each other. 455 551 The core 13 is movable between a rest position in which the pin 17 abuts against the projections 22, the core 13 partially extends outside the tube 2 past the flange 3, and a magnetization position in which the pin 17 abuts against the stop goat 21 while the core 13 is almost completely absorbed in the bore 6 in the tube 2. The spring 26 constantly presses the core 13 in the direction of its sleep position. Then the current in the coil 9 exceeds the determined value, the coil exerts sufficient axial magnetic force against the core 14 so that the resistor from the spring 26 is overcome and the core 13 is set in magnetization mode.

The core 13 has a side wall 29 whose outside is cylindrical with a diameter corresponding to the diameter of the bore 6 reduced by the required play for the sliding movement. The wall 29 defines an inner cylindrical cavity 31 extending axially along the entire length of the core 13.

As shown in Fig. 3, the side wall 29 has a circular profile with constant thickness g so that the cylindrical inside of the wall 29 likewise lies concentrically around the axis Z-Z.

The cavity 31 communicates with the environment via it towards the flange 4 directed end of the core 13. It is equally led in connection with the surroundings via the other end of the core 13, on one side of the finger 16. Hàlígheten 31 is further connected to the environment via a slot 32 extending axially along the entire length of the wall 29.

For example, if the core 13 has a diameter of 3 mm, wear sen 32 ha a width of 0.25 mm. '" The described device is used and operates on the following way: After the coil 9 has been completed, it is for mounting the sufficient to place the spring 26 around the core 455 551 13, insert the core into the bore 6, the pin 17 being inserted under the influence of force through the opening 23 into the guide 24.

Coil 9 is connected in series in the circuit of an apparatus or a plant where the current through the device is the condition of the relay is correct. For this purpose, the relay can without nuisance is mounted on a support that is exposed to shocks or vibrations. As long as the current does not exceed determined value, the core 13 remains in the rest position. Although the body 1 is subjected to vibrations or shocks, held the core 13 without difficulty in rest position through the spring 26.

The slot 32 prevents the formation of eddy currents, so that hysteria effects are effectively counteracted and the time for magnetic reaction is insignificant. When the current in the coil 9 exceeds the determined value, the core 13 and finger 16 very fast to magnetization mode please each its insignificant mass of inertia.

The method of manufacturing the core 13 and the actuator 16 is described with reference to Figs. 6 and 7.

From a sheet of magnetic material, such as sheet iron, with for example 0.4 mm thickness if one is to manufacture one core 3 mm in diameter, a blank 33 comprising a rectangular portion 113 whose length is substantially equal to against the length of the core 13 and whose width is equal to the circumference of the core 13 to be manufactured. Essential gene from the center of a short side of the rectangle 113 is omitted an appendix 116 whose contour corresponds to the contour of the finger 16 with associated pin 117 which is now at short side of the rectangle 113.

Along said short side of the rectangle 113, one is accommodated section 34 which separates the future pin 17 from the rec- the pliers 113, while on the opposite side of the appendix 116 along the same short side of the rectangle 113 takes up a section 128 which later delimits the protrusion 28 from the finger 16. 455 551 The blank 33 is then pressed in a direction perpendicular to its plane using a punch 36 shown in dotted lines line in Figs. 6 and 7. The punch 36 has a semi-cylindrical risk end whose axis coincides with the axis Z-Z when pressing is completed. On its side facing appendix 116 it is the semi-cylindrical end of the punch 36 is rounded and forms a quartz sphere 37 (Fig. 6).

This pressing has the effect of giving the rectangle 117 a U-profile whose semi-cylindrical bottom is connected to the plane of the appendix 116 via a portion which substantially has the shape of a quartz sphere 38 (Figs. 1,2,5 and 7). During said pressing is produced by means of one with the punch 36 connected further punch 39 (Fig. 6) an elongate chute 41 oriented in the longitudinal direction of the finger 16 for to strengthen this. As shown by dotted line in Fig. 7, the two edge portions of the U-pro- file against each other, leaving between them a stand corresponding to the width of the opening 32.

The method described above has the advantage of being significant simplify the manufacture of the magnetic core with its means according to the invention.

It will be appreciated that the invention is not limited to those shown examples, and that many modifications are possible within the framework of the invention.

To facilitate the shaping of the rectangle 113 without affect the flatness of the attachment 116 one can punch out a "" opening in the connection area between the rectangle 113 and appendix 116, leaving a connecting bridge between the opening and the respective sections 34 and 128. 455 551 IJ In some cases, the circumference of the magnetic core is larger than that axial length, and the attachment 116 is then connected to one of the long sides of the rectangle 113.

The method according to the invention is not the only possible way for manufacturing the magnetic core according to the invention.

Claims (7)

...- m 455 551 PQTENTKRQV Magnetic core for sliding mounting in an insulating tube (E) and forming part of an electromagnet provided with a coil (9) wound around the tube (2), which core consists of a bent sheet of magnetic material with a side wall (29) forming a hollow body coaxial with the tube (E) having an inner cavity (31) and an outside adapted for sliding in the tube, an actuator (16) in the form of a guide finger for a contact device being fixedly connected to the end of the magnetic core projecting from the tube , characterized in that the actuator (16) forms a part (116) of a common sheet metal blank (33) whose other rectangular blank part (113) after bending forms the side wall (29) of the core, the actuator (16) forming the part in the form of an appendix (116) starting from one side of the rectangular blank part (113). Magnetic core according to claim 1, characterized in that the appendage (116) has in its base part a portion (38) designed to ensure connection between the profile of the side wall (E9) and the part of the appendage (116) extending in a plane substantially through the axis of the side wall (89). Magnetic core according to Claim 1 or 2, characterized in that the appendage (116) is provided with a longitudinal reinforcing channel (41). Magnetic core according to one of Claims 1 to 3, characterized in that the appendage (116) in its base part 455 551 ß has at least one projection (17,2B) which is directed towards the side wall (83) and emanates therefrom, to serve as a support for a return spring (26). Magnetic core according to claim 4, characterized in that each projection is formed by a side of a section extending into the plate piece (33) and the other side of which follows the adjacent side of the rectangular portion (113). A method of manufacturing a magnetic core according to claim 1, which magnetic core is intended for mounting in an insulating tube (2) forming a part of an electromagnet provided with a coil (9) wound around the tube (2), which core has an operating member (16) in the form of a contact finger for engaging a contact device, a sheet metal piece (33) being punched out with a contour defining a substantially rectangular portion (113) which bends to form a core with a substantially axial cavity (31) and an outer surface. adapted for control in the insulating tube (E), characterized in that when punching the sheet metal piece (33) it is punched out with an attachment (116) connected to one side of the rectangle (113) to form said operating means (16). A method according to claim 6, characterized in that the appendage (116) during the punching is connected substantially in the middle of said side of the rectangle (113), that the rectangle (113) is pressed into a U-profile to form the side wall (29) of the core (29). 13), while the base portion of the appendage (116) is cupped (38) to form a transition from the planar appendage (116) to the rounded part of the U-profile, and that the two edge portions of the U-profile are moved towards each other. / c 'U 3.