DE2448069A1 - IC engine electric starter - has engagement spring sliding switch actuator in armature and second actuator with brush holders - Google Patents

Abstract

The starter has a pinion sliding and rotating in relation to the drive shaft and coupled to an engagement mechanism, also an electromagnetic switch unit coaxial to the motor with flat commutator. The actuator of the switch unit bears against a drive shaft carrying the pinion and movable in the main drive shaft. The actuator bearing against the drive shaft carrying the pinion slides in the switch unit armature under the action of an engagement spring, and a second brush holder switch actuator also slides on the armature against the action of a switch spring. The second actuator comprises a brush holder with a negative brush permanently bearing against the commutator surface, and a further brush holder guide accommodates the positive brush.

Description

Starting device for internal combustion engines The invention relates to a turning device for internal combustion engines with one opposite the drive shaft rotatably and slidably arranged starting pinion with a single-track gear is connected, and with a coaxial to one provided with a plane collector Starting motor arranged electromagnetic switching device, the switching element rests against a transmission shaft carrying the starter pinion, which is located in the drive shaft is movably mounted.

Starting devices are already known in which the associated torque motor has a plane collector and the electromagnetic Switching device is arranged coaxially to the turning device. Due to the coaxial arranged switching device can indeed be the installation space for the turning device have a smaller diameter than for the turning devices with built-up Switching device. Nevertheless, a relatively long installation space is required, to accommodate the switching device attached to the starter motor as an extension.

The present invention is therefore based on the object of a To create turning device of the type mentioned, in which the overall length of the turning device can be reduced and also costs can be saved by folding of functions effected by the electromagnetic switching device.

According to the invention the object is achieved in that the on the transmission shaft adjacent switching member in the armature of the switching device under the influence of a single-track spring Is displaceably guided, and a second switching element of a brush switch as well is arranged displaceably on the armature against the force of a switching spring, and that the brush switch consists of a with constantly lying on the collector running surface Minus brushes provided brush holder part and a resilient in it in the longitudinal direction the turning device guided and the plus brush door ends formed by the brush holder part is, which nst to be displaced from the second switching element on the plane collector, wherein only when the armature is pulled in, the plus brushes serving as contacts and the mating contacts working collector surface are pressed.

In a further embodiment of the invention are to save costs Brush holder parts formed from insulating material, the negative brush receiving Brush holder part with guide arms for the brush holder part carrying the plus brushes is provided.

For the axial actuation of the meshing gear it is advantageous the shift member resting on the transmission shaft is designed as a tappet and has a collar on which one end of a single-track spring is supported, which with her the other end rests against the anchor.

The function of a main current contact known per se is explained in further inventive embodiment achieved in that the switching element of the brush switch is designed as a sleeve which is attached to a compression spring housed in the armature is supported, extends through a yoke piece of the switching device and the switching element for the single-track gearbox. Also holds one between the brush holder parts housed-compression spring pressed the plus brush holder part to the yoke piece when the switching device is switched off, with the plus brushes from the collector running surface are lifted, d. H. the brush switch is open.

Further advantageous refinements of the invention emerge from the other subclaims and the drawing. It shows in Fig. 1 a turning device in longitudinal section, Fig.-2 a view of the turning device in the direction of arrow II in Fig. 1, Fig. 3 is an electrical circuit diagram of the turning device.

The starting device has a motor 1 with an armature 2, which is on a hollow drive shaft 3 is arranged. The drive shaft 3 carries on one End section a plane collector 4.

With this end section, the drive shaft 3 is supported via a slide bearing 5 on a cover-like bearing part 6. That Bearing part 6 is on its edge between a motor housing 7 and a housing 8 of an electromagnetic Clamped switching device, these three parts 6 to 8 together with one Housing cover 9, which closes the motor housing 7 on the transmission side, by means of tie rods 10 are firmly connected to each other.

In addition to the plain bearing 5, there is another bearing in the drive shaft 11 angeord.let, in aem a gear shaft 12 is added, which extends through the Drive shaft 3 extends. There is also a stop ring on the gear shaft 12 13, on which one end of a return spring 14 surrounding the transmission shaft 12 supports. The other end of the return spring 14 is at the end of a coarse thread 15 a screw sleeve 16, which is on a high-helix thread section 17 of the gear shaft 12 screwed. The screw sleeve 16 extends substantially into the hollow drive shaft 3. One end of the screw sleeve protruding from the drive shaft 3 16 is designed as an inner race 18 of a roller freewheel 19. The freewheel 19 has an outer race 20 which is integral with the drive shaft via a flange 21 3 is connected. Rollers 21 are accommodated between the races 18 and 20. The freewheel 19 is closed at the end by a cover part 22, which with a Bearing shoulder 23 is provided on which a plain bearing 24 for receiving in the housing cover 9 sits and in which another plain bearing 25 is arranged, in which the gear shaft 12 is stored. A retaining ring 26 sits on the housing cover 9 and lies on the Front side of the plain bearing 24. On the end protruding through the housing cover 9 a pinion 27 is attached to the transmission shaft 12. The transmission shaft 12, the The screw sleeve 16 and the freewheel 19 together with the starter pinion 27 form the Single-track transmission.

The electromagnetic switching device has one arranged in the housing 8 Magnetic coil 28, one adjacent to the motor-side end face of the magnetic coil 28 Yoke piece 29 and an armature that can be pulled into the magnetic coil 28 and onto the yoke piece 29 30, which is guided in a sleeve 31. The armature 30 has a longitudinal bore 32 which merges into a stop ring 33 at its end on the yoke side. At the other end of the The longitudinal hole 32 is a stop disk 34 with an approximately Z-shaped Xreisrin cross section used. Extends through the longitudinal bore 32 and the stop disk 34 a first switching element 35 for actuating the meshing gear. The switching element 35 is designed as a switch plunger. At one end it has a retaining collar 36 that holds the Movement of the switch plunger 35 into the armature 30 is limited. With his other End, which is provided with a stop collar 37, the switch plunger 35 is below the influence of a mesh spring 38 on the end face of the gear shaft facing it 12 at.

The meshing spring 38 surrounds the switch plunger 35 and is located with a End on the stop collar 37 and the other end in the longitudinal bore 32 of the armature 30 on the stop disk 34. In the longitudinal bore 32 there is still a switching spring 39 housed.

One end of it also rests against the stop disk 34 and is supported with its other end on a flange-like edge 40 as a shaft sleeve formed second switching element 41. The switching sleeve 41 is in the bore 32 of the armature 30 and protrudes through the yoke piece 29.

A brush holder part is located on the cover-like bearing part 6 and housing 8 42 arranged, with two radially opposite brush guides 43, in which Brushes 44 connected to a ground connection 60 in a known manner, hereinafter rlinuspolbürsten 44 called, are added. The negative pole brushes 44 are on the running surface 45 of the plane collector 4 under the influence of a also in the associated brush guide 43 housed compression spring 46. The brush holder part 42 is provided with two pairs of guide arms 47 (Fig. 2), between which a second brush holder part 48 in the direction of the longitudinal axis of the turning device is arranged displaceably relative to the brush holder part 42. The second part of the brush holder 48 also has two radially opposite brush guides 49, in which brushes 50 are added. The brushes 50, hereinafter referred to as positive pole brushes 50 called, are in the rest position shown in Fig. 1 of the turning device of the collector running surface 45 is lifted off.

The positive pole brushes 50 form the movable contacts and the collector running surface 45 the associated fixed contact of a brush switch, which has the function of a Main current contact has. Between the opposing sections of the brush holder parts 42 and 48 a compression spring 51 is housed, the coil ends of which are in annular grooves 52 and 53 of the brush holder parts 42 and 48 are. The compression spring 51 seeks the brush holder part 48 to keep pressed against the yoke piece 29, so that the positive pole brushes 50 from the Collector running surface 45 are lifted and the brush switch is open.

The internal combustion engine, not shown, has a ring gear 54, into which the starting pinion 27 meshes for starting the internal combustion engine.

In a column from the positive pole of a direct current source 55 (Fig. 3) Line 5 are a starter switch 57 and the solenoid 28 of the electromagnetic Switching device connected in series. From the line 56 branches off between the light power source 55 and the starter switch 57 from a line 58 to which the positive pole brushes 50 are connected are. The inuspole brushes 44 are constantly on the collector running surface 45. They are thus connected in series with the field winding 59 of the motor 1, the other end of which is on wet 60.

To start the internal combustion engine, the starter switch 57 must be closed, whereby the solenoid 28 receives current and is energized so that the armature 30 in the solenoid 28 is pulled. The switch plunger 35 is thereby activated by the force the Einspurfeder 38 pressed against the transmission shaft 12 that it is in the Screw sleeve 16 is screwed in and the starting pinion 27 is advanced towards the ring gear 54. Meets the starting pinion 27 in the tooth-gap position on the ring gear 54, then that can Immediately engage the starter pinion 27 in the ring gear 54.

When the armature 30 is drawn into the solenoid 28, the coil in the armature 30 guided switching sleeve 41 is moved towards the brush holder part 48. Meets the switching sleeve 41 on the brush holder part 48, then slides during the further drawing-in movement of the armature 30 in the solenoid 28 against the switching sleeve 41.

the force of the switching spring 39 in the armature 30 until the force of the switching spring 39 overcomes the force of the compression spring 51; The switching sleeve 41 then moves the brush holder part 48 towards the brush holder part 42 and presses the positive pole brushes 50 against the collector running surface 5. This closes the brush switch, through which the main current is now is switched on. The engine 1 rotates the internal combustion engine.

When pre-grooving, it meets the starting pinion 27 in tooth-on-tooth position on the ring gear 54, then the gear shaft 12 and the Rchaltstößel 35 can no longer move axially.

However, the armature 30 continues its pull-in movement into the solenoid 28 continues, the meshing spring 38 being further tensioned.

Likewise, the switching sleeve 41 presses the brush holder part 48 to Brush holder part 42 and positive pole brushes 50 reach the collector running surface 45. The brush switch is closed and the motor 1 turns the starter pinion 27 at the Front side of the ring gear 54 up to the next tooth-open-gap position, so that the starting pinion 27 by the force of the meshing spring 38 in the ring gear 54 is engaged and the engine 1 turns on the internal combustion engine.

If the internal combustion engine has started, the starter switch 57 is again opened. The solenoid 28 and the motor 1 are then de-energized. The one when pre-screwing the return spring 14 tensioned on the gear shaft 12 moves the meshed gear together Switching plunger 35 back into its rest position. The mesh spring 38 pushes the armature 30 from the solenoid 28. The switching spring 39 presses the edge 40 of the switching sleeve 41 back to the stop ring 33 so that the armature 30 removes the switching sleeve 41 from the brush switch moved away. The compression spring 51 presses the brush holder part 48 against the yoke piece 29 back and the positive pole brushes 50 are lifted from the collector running surface 45. The brush switch is then also in its open rest position.

Claims (6)

Expectations Ei chinen with a counter-cranking device for internal combustion engines with a starter pinion that is rotatably and displaceably arranged in relation to the drive shaft, which is connected to a single-track gearbox, and with one coaxial to one with Electromagnetic switching device arranged in a flat collector provided with a starting motor, whose switching element rests against a transmission shaft carrying the starter pinion, which is movably mounted in the drive shaft, characterized in that the Gear shaft tal2) contacting switching element (35) in the armature (30) of the switching device is mounted displaceably under the influence of an engagement spring (38), and a second Switching element (41) of a brush holder also on the armature (30) against the force a switching spring (59) is slidably arranged, and that the brush switch from a negative pole brush constantly lying on the collector contact surface (45) (44) provided brush holder part (42) and a resilient in it in the longitudinal direction the turning device guided and the positive pole brushes (50) carrying the brush holder part (48) is formed from the second switching element (4i) to the plane collector (45) is displaceable, only when the armature (30) is retracted, the ones serving as contacts Positive pole brushes (50) pressed against the collector running surface (45) acting as a mating contact are. 2. turning device according to claim 1, characterized in that the brush holder parts (42 and 48) are made of insulating material and the inuspole brushes (44) receiving brush holder part (42) with guide arms (47) for the positive pole brushes (50) carrying brush holder part (48) is provided. 3. turning device according to claim 1 or 2, characterized in that that the switching element (35) resting on the transmission shaft (12) acts as a switching tappet is formed and has a collar (37) on which one end of the Sinspurfeder (38) which rests with its other end on the armature (30, 34). 4. turning device according to one of claims 1 to 3, characterized in that that the switching element (41) of the Bürstenscnalters is designed as a switching sleeve, the is supported on a switching spring (39) housed in the armature (30), through a yoke piece (29) of the switching device extends and the switching element (35) for surrounds the single-track transmission. 5. turning device according to one of claims 1 to 4, characterized in that that a compression spring housed between the brush holder parts (42 and 48) (51) holds the brush holder part (48) pressed against the yoke piece (29) when the Switching device is switched off, the positive pole brushes (50) from the Sollektorlauffläche (45) are lifted. 6. turning device according to one of claims 1 to 5, characterized in that that the gear shaft (12) is provided with a coarse thread section (17) the one with a flange (18) provided screw sleeve (16) sits, the inner Race of a roller freewheel (19) is formed, and that an outer race (20) of the freewheel (19) is integrally formed with the drive shaft (3) which the armature (2) and the plane collector (4, 45) of the motor (1) are arranged. (