CZ2274U1 - Starter for lever device - Google Patents

Abstract

The lever 1 has a straight portion 2 coupled to the core 15 of the actuating electromagnet and two bends (4, 5 Fig. 1). The pivot axis of the lever 115 the central axis of the first of the bends and the other bend is so shaped that a contact surface on its exterior is able to bear on a rear surface of the pinion 8. The first bend is also so shaped that its external surface bears on a fixed abutment 7 and its internal surface fits about a spherical surface formed on a resiliently moveable element 6 engaging a spring 9. <IMAGE>

Description

The invention relates to a starter having a lever device, in particular for starting an internal combustion engine which is independent of the starter motor, the starter being provided with mechanical devices and switches for axially moving the drive pinion into the gear ring of the internal combustion engine.

BACKGROUND OF THE INVENTION

Lever-type starters are designed in such a way that the pull-out pinion is engaged with the gear ring of the internal combustion engine by the action of the electromagnet core on the pinion, or by means of a lever, most commonly a two-arm lever is used. The two-arm lever transmits axial movement from the switch to the pinion via a pivot pin which is slid into the hole formed in the center of the lever.

In the rest position, the pinion is held by a spring located on the switch. The lever can act through the rings on the pinion, which is designed as part of the freewheel clutch that moves simultaneously with the pinion. It is common for the drive pinion to encounter resistance when inserted into the ring gear of an internal combustion engine, and the position of the pinion gear teeth does not match the gaps between the ring gear teeth. This problem is solved by a firing spring that is tensionable or compressible so that the pinion associated with the transfer member can be rotated by the required angle. to be inserted into the ring gear by the action of the firing spring.

It is also known to insert the drive pinion into the ring gear by means of a two-arm lever, where the firing spring acting on the pinion is located outside the axis of rotation of the lever or is located in the axis of the pin around which the lever rotates.

Several designs of a lever device r for transmitting axial movement from a switch core to a pinion are known.

In most of the lever devices hitherto used, an opening is provided in the central part of the lever for receiving a pin or rivet about which the lever is rotated. At the top of the lever that is connected to the movable

A rotary connection is also formed by the core. A fork is formed at the other end of the lever that is inserted between the rings on the pinion.

Another known design of the lever devices consists in that the lever is shaped in such a way that it rests approximately in the middle part on the load cover, and in its middle part there is again a hole for inserting the pin around which it pivots.

Japanese Application No. 52-121463 shows a shaped lever, with an opening in the central portion, with a pivot connection that is made in the portion of the lever connected to the switch core, and with a second pinion engaging end that pushes the pinion face. To induce a reciprocating movement when the pinion tooth comes into contact with the toothed ring gear, the jap. In the application, a complicated shaped spring, which is located on the switch, is used.

A common drawback of the design of the aforementioned levers is that in the central part there must be a hole for inserting the pin around which the lever is rotated. This opening weakens the lever structure, so the lever must be designed so that the load on the lever does not cause it to break. Another disadvantage of the described levers is the necessity of making a pivotal connection between the lever and the switch core, creating a fork for sliding the lever onto the pinion rings, or using a specially shaped spring for turning the lever around the pin. The shape of the levers is also complicated and expensive to manufacture.

The essence of the technical solution

Said drawbacks of the current solutions are eliminated by an actuator with a lever device for transmitting axial movement from the switch core to the pinion according to the invention, comprising an electric motor, a front and a rear cover, an axially moving pinion driven by the motor. to the working position by switching on the electromagnetic switch winding.

The essence of the technical solution lies in it. that the lever device comprises a straight portion inserted into the pull-out electromagnet core rod and a portion with two bends which are formed such that

a center of rotation of the lever device is formed in the axis of the first bend, and the second bend is formed such that a contact surface on its outer diameter acts axially on the rear face of the pinion. A resiliently mounted element is disposed below the inner diameter of the first bend. The resilient support of the element is achieved by having a spring below it, which is located at one end on the resiliently mounted element and at the other end is supported by a fixed support formed in the actuator space, and it is advantageous to provide this fixed support on the switch. The spring, which is located below the resiliently mounted element, is guided in an opening that is formed in the front gear cover of the starter. The outer diameter of the first bend is supported on the fixed portion, and it is preferable to form a fixed portion on the front gear cover of the starter.

A preferred embodiment of the lever device is that a simple notch is formed at the end of its straight portion inserted into the pullout of the pull-out solenoid core for connection to the defined core.

The resiliently spherical surface element located below the inner diameter of the first bend is formed by a pin with a front spherical surface.

The lever device for transmitting axial movement from the electromagnet core to the pinion is formed from a flat material, the surface of which is perpendicular to the direction of extension of the pinion.

Advantages of the solution according to the technical solution consist in simple design of the lever device, simple assembly and disassembly and consequently lower production costs. The lever area is not weakened by the pivot insertion hole. The end of the lever device on the pinion side is suitably cooperating with the pinion. The location of the firing spring at the location of the front load cover also makes it possible to reduce the dimensions of the entire design of the starter motor. The resilient mounting of the central bend on the ball pin causes the lever device not to be subjected to high dynamic shocks during engine start-up, during pinion ejection and when the pinion tooth hits the tooth of the ring gear. The low weight of the lever device is advantageous in terms of inertia forces.

- 4 The lever itself can act as a resilient element when selecting the right material.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS The technical solution will be explained in the accompanying drawings, in which Fig. 1 shows an embodiment of a plug-in device, Fig. 2 shows a cross-section of the starter in the region of the plug-in device.

Exemplary embodiment

The starter according to FIG. 2 comprises an electric motor 14 from which a rotational movement is transmitted to the pinion 8. A lever device 1 is pushed through the notch 13 by the notch 13, by which the axial movement of the electromagnetic switch core is transmitted to the pinion 8. Cobr.

1) is made of a flat material, the surface of which is perpendicular to the direction of extension of the pinion 8. The lever device 1 consists of a straight part 2 and two bends 4 and 5. The first bend 4 is formed in the central part of the insertion device 11 so that its axis forms the center of rotation for transmitting axial movement from the core of the ejection electromagnet 15 to the pinion 8. A pin 6 with a front spherical surface is located parallel to the pinion 8 below the inner diameter 4 'of the first bend. On the pin 6, a spring 9 is mounted at one end, which is supported on the other end by a fixed portion 10 formed on the switch 11. a fixed support 7, which is formed on the front transmission cover 16 of the starter motor. The second bend 5 of the lever device 1 is formed such that its outer diameter 5 acts on the rear face of the pinion 8.

Upon switching on the current to the switch 11, the core of the pull-out solenoid 15 and at the same time the rod 3, which is connected by the notch 13 to the lever device χ, move. This causes the straight part 2 of the lever device 1 to be deflected in the direction of movement of the ejection solenoid core 15. The firing spring 9 presses the lever device 1 through the outer surface 4 of the first bend 4 against the fixed support 7 via the ball pin 6. 6. The second bend 5 of the lever device X presses with the surface 5 'on the rear face of the pinion 8 and pushes it towards the gear ring of the flywheel of the internal combustion engine. If the tooth of the pinion 8 is directed into the tooth gap of the flywheel rim (not shown), the movement of the lever device X continues and the pinion 8 is pushed into engagement with the gear rim by the pressure surface 5 ‘of the second bend 5 of the lever device X. At that moment, the contacts of the switch 11, which interconnects the electric circuit of the electric motor 14 of the starter, are closed, thereby activating the starter.

In the event that the pinion 8 tooth hits the flywheel rim tooth during retraction, the straight part 2 of the lever device 1 pivotally connected to the puller 3 of the pull-out solenoid 15 continues to move while the other end of the lever device 1 which is blocked by tooth-to-tooth impact. Therefore, the firing spring 9 is compressed by the inner surface 4 'of the first bend 4 of the lever device 1 over the ball pin 6, around which the lever device 1 is simultaneously rotated. In this case, the second bend 5 of the lever device 1 slides over the rear face of the pinion 8 by a surface 5 ' _. the pinion 8 is rotated, which is pushed into engagement with the toothed ring of the flywheel of the internal combustion engine by the pressure-induced tension of the firing spring 9, thereby actuating the starter i.

Claims (7)

A starter with a lever device for transmitting axial movement from a switch core to a pinion, comprising an electric motor, an axially moving pinion driven by a motor, a Pull-out solenoid core P parallel to the pinion axis and movable from rest to working position by switching on the electromagnetic winding switches, front and rear lid, characterized in that the lever device C1) comprises a straight part C2) inserted into the rod rod C3) of the pull-out electromagnet C15) and a part with two bends C4,5), of which is formed in the axis of the first bend C4) the center of rotation of the lever device C1) and the second bend C5) are selected such that the contact surface on its outer diameter C5) acts axially on the rear face C12) of the pinion C8), the first bend being formed XX so that the outer diameter C4) is supported on a fixed support C7) and the inner diameter C4) surrounds the spherical surface of the resiliently mounted element C6), with the spring C9) which is guided in the hole C17) under one element C6) and at the other end, the spring C9) is supported on a fixed portion C10) formed within the actuator. 2. A lever actuator according to claim 1, characterized in that a notch C13) is formed at the end of the straight part C2) of the lever device C1) inserted into the core rod C3) of the ejecting electromagnet C15). 3. A lever actuator according to claim 1, characterized in that the resiliently mounted element C6) is formed by a pin with a front spherical surface. A lever device according to claim 1, characterized in that the opening (17) for guiding the spring (9) is formed in the front gear cover (16). 5. A lever actuator according to claim 4, characterized in that the fixed part (C10) is formed on the switch (11). A starter with a lever device according to claim 1, characterized in that the fixed support (7) is formed on the front gear cover (14) of the starter. The lever device according to any one of claims 1 to 6, characterized in that the lever device is made of a flat material, the surface of which is perpendicular to the extension direction.