DE7341767U - ELECTROMAGNETIC SWITCH, IN PARTICULAR FOR ELECTRIC TURNING MOTORS OF COMBUSTION MACHINES - Google Patents

Description

R. 1 8 6 4

13.11.1973 Wo / Sm

Attachment to
Utility model registration

ROBERT BOSCH GMBH, Stuttgart

Electromagnetic switch, in particular for electric starting motors for internal combustion engines

The invention relates to an electromagnetic switch, in particular for electric starting motors of internal combustion engines, with a cup-shaped housing in which one receives an armature and a guide sleeve carrying the excitation coil is arranged, which is on a magnetic core and in the housing inserted cover is attached, and with a compression spring, which between the housing base and the excitation coil is inserted.

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There are already known electromagnetic switches in which to compensate for the longitudinal play between the housing base and the excitation coil a spring made of steel strip is inserted in the switch housing. However, steel strip springs are difficult to manufacture. In addition, the material requirement for springs of this type is relatively large. Still, they guarantee in electromagnetic Switches for starting motors of internal combustion engines, which are often exposed to considerable vibrations in vehicles are not sufficiently resistant to shaking for the excitation coil.

The invention is therefore based on the object of an electromagnetic To create switches, in particular for electric starting motors of internal combustion engines, in which a spring is used to secure the excitation coil against vibrations, which causes low material costs, without is to produce great difficulties and a loosening of the excitation coil arranged on the guide sleeve by shaking stress prevents wire breaks in the excitation coil.

■ According to the invention, the object is achieved in that the compression spring consists of spring wire of round cross-section and is designed in the manner of a polygon which surrounds the guide sleeve and extends between two planes lying parallel to one another and perpendicular to the longitudinal axis of the guide sleeve.

Depending on the size of the electromagnetic switch and / or the required spring force, the compression spring is advantageously shaped into a square with two opposite Sides lie in one level and the other two sides are bent up to the second level, or the corners of the Quadrilaterals lie in one level and all sides are bent up to the second level.

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In a further advantageous embodiment of the invention, the compression spring consists of an undulating between the two planes bent spring wire and also the corners of the polygon are rounded and the sides indented.

Further advantageous embodiments of the invention result from the remaining subclaims and the description.

AusfUhrungsbeispiele the invention are shown in the drawing. She shows in

1 shows an electromagnetic switch in longitudinal section,

2 shows a first embodiment of the compression spring,

3 shows the compression spring in side view,

FIG. H shows a modification of the compression spring according to FIG. 2,

5 shows the compression spring according to FIG. 3 in a side view,

6 shows a second embodiment of the compression spring,

7 shows the compression spring in section along the line VII-VII in FIG. 6,

8 shows a modification of the compression spring according to FIGS. 6 and 7, FIG. 9 shows the compression spring according to FIG. 8 in a side view.

An electromagnetic switch has a pot-shaped housing 1, on one side of which there is a magnet core 2 made of magnetizable material, a spring washer 3 and an insulating material cap 4 with molded switch contacts 5 and 6 crimped are. In the housing bottom 7 an opening 8 is formed, which is in a guide stub 9 on the outside of the housing bottom 7 is continued.

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A guide sleeve 10 made of brass carries one from a winding support 11 made of insulating material and at least one winding 12 existing excitation coil 13. The guide sleeve 10 is on attached to a collar 14 of the magnetic core 2 and in the opening 8 of the housing 1 out. A compression spring 15, which is square (FIG. 2), is placed on the guide sleeve 10. Two opposite flat sides 16 and 17 of the compression spring 15 rest on the housing base 7, while the other two sides 18 and 19 are bent against the end face 20 of the winding support 11 facing the housing base 7. A middle section of the Pages 18 and 19, the length of which depends on the space between the housing base 7 and the winding support 11 of the excitation coil 13 and the spring force of the compression spring 15, d. H. the length tolerances of Housing 1 and excitation coil 13 depends, lies on the end face 20 of the winding support 11. This means that the excitation coil is always on 13 by the force of the more or less strongly compressed compression spring 15 shake-proof in the housing 1 of the electromagnetic Switch held. For guiding the middle section of the spring sides 18 and 18 resting against the winding support 11 11 projections 21 are formed on the end face 20 of the winding support.

In an axial bore 22 of a longitudinally movable in the guide sleeve 10 Immersion armature 23 is pressed in and a switching rod 24 shrink wrapped. When the switch is off, i. h «if the Winding 12 does not have current flowing through it and the plunger 23 is pressed outward by a compression spring 25, is the plunger 23 in the area of the housing bottom 7 and the guide socket 9 stored shake-proof.

When the winding 12 is energized, the plunger armature 23 is drawn towards the magnetic core and, in the process, hits with an end face 26 of the switching rod 24 against a plunger 27 axially locked in the magnetic core 2 with a contact bridge 28 in a control room 29 · The contact bridge 2 8 then bridges the switching contacts 5 and 6 against the force of a compression spring 30. The contact bridge 28 itself is

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attached to an Isolierstoffbuohse 31, which is guided on eirsr recess of the magnet core 2 and on the plunger 27 can be moved longitudinally is stored. It is made by a compression spring 32, which is supported on a collar 33 of the plunger 27, against one Isolierstoffscheibe 34 and ring 35 formed stop pressed. The resilient mounting of the contact bridge 28 prevents, among other things, a hard impact of the contact bridge 28 on the switching contacts 5 and 6 when the magnet winding 12 is excited.

The electromagnetic switch is fastened by screws (not shown) which are screwed into threaded holes 36 ₃ on the starting motor, the pinion of which engages in the ring gear of the internal combustion engine to be started during the starting process.

The compression spring 15 has overlapping end sections 37 and the end sections 37 and 38 lie in one of the Compression spring 15 delimiting the plane next to one another and can have an air gap between them which is narrower than that Diameter of the spring wire. Such compression springs 15 are easy to manufacture and can be moved in front of the Do not interlock the assembly. The end sections 37 and 38 lie on one of the flat sides 16, 17 of the square compression spring 15th

The square compression spring 39 shown in FIGS. H and 5 is a modification of the compression spring 15. It is suitable for electromagnetic switches which require relatively high spring forces. For this purpose, the square compression spring 39 is bent on all four sides, the middle sections of which then rest on the end face 20 of the winding carrier 11, while the rounded corners of the compression

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spring 39 are supported on the housing base 7. For easier manufacture and for safe evasive movements of the spring wire when the built-in compression spring 39 springs, the spring ends form a open corner 40, which also leaves a smaller gap open than the spring wire diameter.

A second embodiment of the compression spring is shown in FIGS. The compression spring 41 is essentially as Triangle formed, the corners 42 are rounded with a relatively large radius and the sides 43 on the center are drawn in. The compression spring 4l is made of corrugated spring wire bent into the shape described, the spring sections lying in the planes delimiting the height of the compression spring 4l in the installed state on the housing base 7 or on the end face 20 of the winding support 11. The spring ends 44 overlap so that they lie next to one another in the direction of the spring axis.

A modification of the compression spring 41 is shown in FIGS. The compression spring 45 is essentially designed as a hexagon and again has rounded corners 46 and indented Pages 47. The end sections 48, on the other hand, lie next to one another radially to the spring axis.

Compression springs according to FIGS. 6 to 9 are examples of polygonal springs that have contact points according to the requirements or sections on the housing base 7 and on the end face 20 of the winding support 11 at any angular distances from one another in order to provide the necessary spring force with the most favorable spring wire diameter.

Claims (1)

β /> J A η s ρ r ü c he 1. Electromagnetic switch, especially for electrical Starting motors of internal combustion engines, with a cup-shaped Housing in which an armature receiving and an excitation coil carrying guide sleeve is arranged, which on a designed as a magnetic core and inserted into the housing cover is attached, and with a compression spring, which is accommodated between the housing base and the excitation coil, characterized in that the compression spring (15j 39 »ti; 45) consists of spring wire of round cross-section and is designed in the manner of a polygon, which is the guide sleeve (10) and located between two parallel to each other and perpendicular to the longitudinal axis of the guide sleeve (10) Levels stretches. 2. Switch according to claim 1, characterized in that the compression spring (15) is shaped into a square in which two opposite sides (16 and 17) lie in one plane and the other two sides (18 and 19) to are bent to the second level. $ 341767 5/28/75 3f switch according to claim 1, characterized in that the Compression spring (39) is shaped into a square, the corners of which lie in one level and whose sides are bent up to the second level. 4. Switch according to claim 2 or 3, characterized in that the curved sides with the shape of circular segments have the same radius. 5. Switch according to claim 1, characterized in that the Compression spring (41; 45) consists of a spring wire bent in a wave shape between the two planes and also the Corners (42; 46) of the polygon are rounded and the sides 47) are drawn in. 6. Switch according to one of claims 2, 4 or 5 »characterized in that that the end sections (37, 38; 44) of the compression spring (15j 45) extend radially to the longitudinal axis of the guide sleeve (10) overlap. 7. Switch according to claim 5, characterized in that the End sections (44) of the compression spring (41) lie next to one another parallel to the longitudinal axis of the guide sleeve (10). 7341767 05/28/75 * * β β G ♦ * β - ⁹ -) Ηί Ζ "" ** 8. Switch according to claim 3 »characterized in that the two ends of the compression spring (39) have an open corner (40) form. 7341767 05/28/75