DE102006005416B4 - Inertia braking device, which is applied to an axial rotation in a garden implement - Google Patents

Abstract

Inertia braking device, which is applied to an axial rotation in garden tools consisting of
- A working axis (7), which is used for fastening a cutting edge,
A driven wheel (4),
- A housing (17) and
- a brake shoe, where
The working shaft (7) for fastening the cutting edge is connected to the housing (17) in a manner which allows rotation,
The brake shoe is attached to the top of the housing (17),
- The working axis (7) with a threaded connection (7-4) is connected to the output gear (4),
- An elevated element (4-1) at the outermost portion of the driven gear (4) is provided and
- A selection unit (5) is attached to the working axis (7), wherein
- the selection unit (5) is installed in such a way that the rotary end face of the selection unit (5) is in a position within the height range of the raised element (4-1),
characterized in that ...

Description

Field of engineering

The The invention relates to a braking device used in gardening tools becomes. More specifically, this relates to an inertia braking device which is applied to an axial rotation in gardening tools, according to the Preamble of claim 1.

Technical background

• 1. dass die Herstellung der Struktur kompliziert ist, wobei diese hohe Herstellungskosten umfasst;
• 2. dass diese auf die Elastizität einer Feder (bzw. mehrerer Federn) vertrauen, um eine Bremsung zu erreichen, und diese aufgrund der Tatsache, dass sich die Federelastizität mit der Zeit vermindert, allmählich unwirksam werden.

After the power supply of a garden implement having a working axis has been interrupted, the movement of the working axis is not terminated very quickly due to the inertia. However, some units have special requirements in view of the fact that, if the power supply has been interrupted, the movement of the rotary device, which is attached to the working axis, should be terminated quickly. For example, suppose an electric garden implement, which is a lawn mower, which has a rotating device which is a cutting edge, the rotation being effected by a belt between the working axis and the main axis of the electric motor and it is required that the rotation of the cutting edge within a Time is terminated between 3-5 seconds after an interruption of the power supply of the electric motor. At present, such garden implements all have a form of device which assists in stopping the movement. Some rely on an electric braking device, but if the electric motor fails, the unit may "seize", resulting in damage to the machine. In other cases such. B. according to the US Pat. No. 3,994,376 A and the US Pat. No. 3,897,678 is familiar to a mechanical braking device, however, the structures of the mechanical braking devices are all relatively complicated and are not particularly reliable due to low manufacturing and customer service standards. The disadvantages of other axial brake devices include:

• 1. that the manufacture of the structure is complicated, involving high production costs;
• 2. That they rely on the resilience of a spring (or springs) to achieve braking and gradually become ineffective due to the fact that spring resilience diminishes over time.

Subject of the invention

The The present invention provides a type of inertial braking device that is responsive to axial rotation in garden tools which is capable of meeting the material requirements to diminish the components while this has a simple structure, which is very reliable and which meets the required standards.

The present invention realizes the following technical scheme:
A type of inertial braking device which is applied to axial rotation in garden tools, comprising a working shaft used to secure a cutting edge, a driven wheel, a housing and a brake shoe, the working shaft for securing the cutting edge in a manner with the Housing is connected, which allows a rotation, the brake shoe is attached to the top of the housing, the working axis and the output gear having a threaded connection, the outermost portion of the driven gear has a raised element and a selection unit is attached to the working axis, wherein the selection unit in is installed such that the rotary end face of the selection unit is in a position within the height range of the raised element.

• (1) Wenn die Energieversorgung unterbrochen wird, besteht eine Differenz der Trägheit, welche zwischen der Arbeitsachse und dem Drehbefestigungsstück (Schneide etc.), welches an der Arbeitsachse befestigt ist, und dem Abtriebsrad verbleibt, wobei dies zu einer entgegengesetzten Drehung der Arbeitsachse und des Abtriebsrads führt. Dies bewirkt eine Axialbewegung des Abtriebsrads mit der Wirkung, dass die Oberfläche des mittleren äußersten Abschnitts des Abtriebsrads in Kontakt mit dem Bremsschuh, welcher an der Außenseite des Gehäuses angebracht ist, gelangt und eine Kraft darauf ausübt, wobei der aktive Bremsreibungsdruck über die Gewindeverbindung erreicht wird. Verglichen mit dem Stand der Technik, steht das Verfahren zum Erzeugen der erforderlichen Reibung für eine Verminderung der Anforderungen an die Materialien, welche in den Bauelementen verwendet werden, so dass die Kosten vermindert werden, wobei die einfache Struktur die Standards erfüllt, welche zum zuverlässigen Bremsen erforderlich sind, während Herstellung und Wartung unkompliziert sind. Wenn der Elektromotor eingeschaltet wird, beginnt sich das Abtriebsrad zu drehen. Dieses dreht sich in der entgegengesetzten Richtung zu der Arbeitsachse, welche sich zu der Zeit in einem stationären Trägheitszustand befindet, und dies führt dazu, dass der mittlere äußerste Abschnitt des Abtriebsrad den Kontakt mit dem Bremsschuh verliert, wobei das Werkzeug sodann dessen Betriebsmodus erreicht.
• (2) Wenn der Bremsschuh aus einem beweglichen Zapfen, einem Bremszapfen, einer Feder und der Basis des beweglichen Zapfens besteht, so wirkt, wenn eine Bremsung erfolgt, die Feder in einer Weise, dass der Bremsschuh in einer kontinuierlichen Weise fest auf das Abtriebsrad drückt, wobei dies eine ausgezeichnete Bremsung und eine ausgezeichnete Zuverlässigkeit liefert, während ferner die Nachteile einer schlechten Bremswirksamkeit aufgrund von Unregelmäßigkeiten der Bremsfläche überwunden werden.
• (3) Durch Annehmen des technischen Ansatzes des Anbringens eines Reibungsbelags an dem Abtriebsrad wird die Zuverlässigkeit erhöht, wobei die Lebensdauer verlängert wird und die Herstellungstechnik vereinfacht wird, wobei die Kosten ohne Verminderung der Bremswirksamkeit vermindert werden. Die Struktur des Reibungsbelags ist einfach, einfach herzustellen und verbessert bei Verbindung mit dem Abtriebsrad Verschleiß und Reibung und vermindert die Herstellungsanforderungen, wobei die Bremsanforderungen eines derartigen Abtriebsrads somit erfüllt werden.
• (4) Es ist eine Nase vorhanden, deren Position geändert werden kann, um sie in die richtige Lage zu bringen.

Compared with the prior art, the present invention has the following advantages:

• (1) When the power supply is cut off, there is a difference of the inertia remaining between the working shaft and the rotary fitting (cutting edge, etc.) attached to the working axis and the driven gear, which results in an opposite rotation of the working shaft and the Output gear leads. This causes axial movement of the output gear with the effect that the surface of the middle outermost portion of the output gear comes in contact with and exerts a force on the brake shoe attached to the outside of the housing, the active brake friction pressure being achieved through the threaded connection , Compared with the prior art, the method of generating the required friction is to reduce the demands on the materials used in the components so as to reduce the cost, the simple structure meeting the standards required for reliable braking are required while manufacturing and maintenance are straightforward. When the electric motor is turned on, the output gear starts to rotate. This rotates in the opposite direction to the working axis, which at the time is in a stationary state of inertia, and this causes the middle outermost portion of the driven gear to lose contact with the brake shoe, the tool then reaching its operating mode.
• (2) If the brake shoe consists of a movable pin, a brake pin, a spring and the base of the movable pin, the spring acts in when braking is applied in a manner that the brake shoe presses firmly on the driven gear in a continuous manner, providing excellent braking and excellent reliability, while also overcoming the disadvantages of poor braking efficiency due to irregularities of the braking surface.
• (3) By adopting the technical approach of attaching a friction pad to the driven gear, the reliability is increased, the life is prolonged, and the manufacturing technique is simplified, thereby reducing the cost without reducing the braking efficiency. The structure of the friction pad is simple, easy to manufacture, and improves wear and friction when connected to the output gear and reduces manufacturing requirements, thereby meeting the braking requirements of such a driven gear.
• (4) There is a nose whose position can be changed to put it in the correct position.

Description of the drawing

1 is a schematic representation of an embodiment. In the figure represents 1 an electric motor, 2 is the drive wheel, 3 is a belt, 6 is an open clamping ring, 8th is a self-oiling warehouse, 9 and 10 are bearings, and 11 is an open clamping ring.

2 is an enlarged partial view according to the direction A of 1 except that the open clamping ring is not shown.

3 is a true-to-scale view of a driven gear, which forms part of the embodiment.

4 is a true to scale view of a modified output gear.

5 is a schematic representation of the embodiment with a friction lining.

6 is a schematic representation of a second embodiment.

7 is a schematic representation of a third embodiment.

8th is a schematic partial view of the embodiment.

Actual procedure of realization

First embodiment

According to 1 For example, one type of inertial braking device applied to axial rotation in gardening tools consists of a working axis 7 , which is used to attach a cutting edge, a driven wheel 4 , a housing 17 and a brake shoe. The working axis 7 for attaching the cutting edge is to the housing 17 connected in a manner which allows rotation, and the brake shoe is at the top of the housing 17 appropriate. The working axis 7 and the output gear 4 have a threaded connection 7-4 on, and the outermost portion of the driven gear 4 has a raised element 4-1 on. A selection unit 5 is at the working axis 7 attached, and this is installed in such a way that the rotary end face of the selection unit 5 in a position within the height range of the raised element 4-1 located. In this embodiment, the brake shoe consists of a movable pin 13 , a brake pin 14 , a spring 15 and a base 18 of the movable pin. The base 18 The movable pin is at the top of the housing 17 arranged, and the movable pin 13 and the spring 15 are in the base 18 arranged the movable pin. The feather 15 is between the movable pin 13 and the top of the base 18 arranged the movable pin, and the circumference of the movable pin 13 has a Bremsgleitnut 13-1 on. The brake pin 14 is within the base 18 of the movable pin, and the distal end thereof is in the Bremsgleitnut 13-1 arranged. A friction lining 12 is under the movable pin 13 arranged, and according to 5 located on the end face of the driven gear 4 which is the friction lining 12 facing, a friction plate 16 ,

Second embodiment

According to 1 For example, one type of inertial braking device applied to axial rotation in gardening tools consists of a working axis 7 , which is used to attach a cutting edge, a driven wheel 4 , a housing 17 and a brake shoe. The working axis 7 for attaching the cutting edge is to the housing 17 connected in a manner which allows rotation, and the brake shoe is at the top of the housing 17 appropriate. The working axis 7 and the output gear 4 have a threaded connection 7-4 on, and the outermost portion of the driven gear 4 has a raised element 4-1 on. A selection unit 5 is at the working axis 7 attached, and this is installed in such a way that the rotary end face of the selection unit 5 in a position within the height range of the raised element 4-1 located. In this embodiment, the brake shoe consists of a movable pin 13 , a brake pin 14 , a spring 15 and a base 18 of the movable pin. The base 18 the movable pin is at the top of the housing 17 arranged, and the movable pin 13 and the spring 15 are in the base 18 arranged the movable pin. The feather 15 is between the top of the base 18 the movable pin and the base 18 arranged the movable pin. A brake sliding groove 13-1 is at the periphery of the movable pin 13 arranged. The brake pin 14 is within the base 18 arranged the movable pin, and whose head end is in the Bremsgleitnut 13-1 arranged. According to 6 is a friction lining 12 on the end face of the output gear 4 arranged, which the movable pin 13 is facing.

Third embodiment

According to 1 For example, one type of inertial braking device applied to axial rotation in gardening tools consists of a working axis 7 , which is used to attach a cutting edge, a driven wheel 4 , a housing 17 and a brake shoe. The working axis 7 for attaching the cutting edge is to the housing 17 connected in a manner which allows rotation, and the brake shoe is at the top of the housing 17 appropriate. The working axis 7 and the output gear 4 have a threaded connection 7-4 on, and the outermost portion of the driven gear 4 has a raised element 4-1 on. A selection unit 5 is at the working axis 7 attached, and this is installed in such a way that the rotary end face of the selection unit 5 in a position within the height range of the raised element 4-1 located. According to 7 the brake shoe uses the friction pad in this embodiment 12 , and the friction lining 12 is on the outermost portion of the driven gear 4 arranged in the same manner as in the second embodiment. A leaf spring 19 is under the case 17 arranged, and the leaf spring 19 is in a position where it is above the friction lining 12 is arranged horizontally. According to 3 is the raised element 4-1 from a nose, which by screws 4-11 is attached to the output gear. There are also screw holes 4-12 present, which is an adjustment of the position of the nose on the output gear 4 enable. The above-mentioned selection unit 5 has a round plate-like shape, and the diameter thereof is smaller than that of the distance between the center of the driven gear 4 and the inside of the raised element 4-1 , where a selection lever 5-1 (please refer 2 ) is arranged on the plate-shaped selection unit.

Claims (7)

Inertia braking device, which is applied to axial rotation in gardening tools, consisting of - a working axis ( 7 ), which is used for fastening a cutting edge, - a driven wheel ( 4 ), - a housing ( 17 ) and - a brake shoe, wherein - the working axis ( 7 ) for fastening the cutting edge to the housing ( 17 ) is connected in a manner which allows a rotation, - the brake shoe at the top of the housing ( 17 ), - the working axis ( 7 ) with a threaded connection ( 7-4 ) with the driven wheel ( 4 ), - an elevated element ( 4-1 ) at the outermost portion of the output gear ( 4 ) and - a selection unit ( 5 ) at the working axis ( 7 ), wherein - the selection unit ( 5 ) is installed in such a way that the rotary end face of the selection unit ( 5 ) in a position within the height range of the raised element ( 4-1 ), characterized in that - the brake shoe consists of a movable pin ( 13 ), a brake pin ( 14 ), a spring ( 15 ) and a base ( 18 ) of the movable pin ( 13 ), where - the basis ( 18 ) of the movable pin ( 13 ) on the top of the housing ( 17 ), and - the movable pin ( 13 ) and the spring ( 15 ) in the base ( 18 ) are arranged and the spring ( 15 ) between the movable pin ( 13 ) and with respect to the housing ( 17 ) spaced end of the base ( 18 ), wherein - a Bremsgleitnut ( 13-1 ) on the circumference of the movable pin ( 13 ), - the brake pin ( 14 ) within the base ( 18 ) of the movable pin ( 13 ) and - the distal end thereof in the Bremsgleitnut ( 13-1 ) is arranged. Inertia braking device, which is applied to an axial rotation in garden tools, according to claim 1, characterized in that a friction lining ( 12 ) on the movable pin ( 13 ) is arranged. Inertial braking device, which is applied to an axial rotation in garden tools, according to claim 2, characterized in that a friction plate ( 16 ) on an end face of the output gear ( 4 ) against the friction lining ( 12 ) is arranged. Inertial braking device, which is applied to an axial rotation in garden tools, according to claim 1, characterized in that a friction lining on an end face of the drive wheel ( 4 ) relative to the movable pin ( 13 ) is arranged. Inertia braking device, which on a Axial rotation in garden tools is used, according to claim 1, characterized in that the brake shoe is a friction lining ( 12 ) and the friction lining ( 12 ) on an end face of the output gear ( 4 ) is arranged, which the housing ( 17 ), wherein a leaf spring ( 19 ) under the housing ( 17 ) is arranged, wherein the leaf spring ( 19 ) is in a position in which this above the friction lining ( 12 ) is arranged horizontally. Inertial braking device, which is applied to an axial rotation in garden tools, according to claim 1, characterized in that the raised element ( 4-1 ) consists of a nose, which with screws ( 4-11 ) on the output gear ( 4 ), with screw holes ( 4-12 ) on the output gear ( 4 ) are present, which allow adjustment of the position of the nose. Inertial braking device, which is applied to an axial rotation in garden tools, according to claim 1, characterized in that the selection unit ( 5 ) has a round plate-like shape and the diameter thereof is smaller than that of the distance between the center of the driven gear ( 4 ) and the inside of the raised element ( 4-1 ), whereby a selection lever ( 5-1 ) on the plate-shaped selection unit ( 5 ) is arranged.