This application claims the benefit of Hong Kong Short Term Patent Application No. 19123018.4, filed 26 Apr. 2019, which is hereby incorporated by reference in its entirety.
1. Field of the Discovery: The disclosed embodiments relate to protective coverings for components of trigger assemblies which may be used to operate electrical devices such as power tools, gardening tools and the like.
2. Background Information: Electrical devices such as power tools will typically include a number of torsion springs to bias a lock-off, or lock-on member into a particular position. As the lock-off or lock-on member is normally disposed on a surface of the trigger assembly, the torsion spring is exposed to contact with moisture, dust and other particulates which may damage or otherwise compromise the functioning of the trigger assembly. As such, there is a perceived need for improvements to alleviate this problem so that the usable lifespan of the electric power tool is extended.
The disclosed embodiments seek to alleviate at least one of the above-described problems.
The disclosed embodiments may involve several broad forms. The disclosed embodiments may include one or any combination of the different broad forms herein described.
In one broad form, the present disclosure provides a trigger assembly for use with an electrical device to operate said electrical device, said electrical device having an electric switch housing with an electrical switch unit disposed therein, the trigger assembly including; a trigger member configured for movement relative to the housing; an actuator member operably-connected to the trigger member and, responsive to movement of the trigger member relative to the housing, said actuator member being movable in a first direction relative to the housing from an OFF position in which the electrical switch is operably-opened by the actuator towards an ON position in which the electrical switch is operably-closed by the actuator, and, movable in a second direction relative to the housing from the ON position towards the OFF position; a locking assembly mounted on the trigger member, the locking assembly including a locking member configured for rotatable movement relative to the trigger member between a plurality of rotatable positions so as to enable selectable locking of the actuator member into either of the ON or OFF position depending upon the rotatable position of the locking member relative to the trigger member, the locking assembly further including a torsion spring operable with the locking member so as to urge the locking member towards at least one of the plurality of rotatable positions of the locking member relative to the trigger member; and a covering configured for at least partially covering the torsion spring to alleviate ingress of dust, water and other particulates in to contact with the torsion spring.
In certain embodiments, the covering may include a first curved portion configured for at least partially covering a main body of the torsion spring, and, a first attachment portion connected with the first curved portion wherein the first attachment portion is configured for attachment with the locking member such that when the locking member is rotated relative to the trigger member, the first curved portion is caused to freely rotate about the main body of the torsion spring.
In additional embodiments, the covering may include a second curved portion, a straight portion, and a second attachment portion, the second curved portion being connected with a first end of the straight portion, and the attachment portion being connected with a second end of the straight portion, wherein the second curved portion is configured to at least partially cover a portion of the main body of the torsion spring, the straight portion is configured to at least partially cover an arm of the torsion spring extending linearly away from the main body of the torsion spring, and wherein the second attachment portion is configured for attachment with the trigger member.
In certain embodiments, the first curved portion and the first attachment portion may be integrally formed together to form a first covering section, the second curved portion, the straight portion and the second attachment portion may be integrally formed together to form a second covering section, and the first and second covering sections may be separate from each other.
In additional embodiments, at least one of the first and second curved portions may include a tubular-shaped configuration.
In certain embodiments, the tubular-shaped configuration may include a slot extending along a wall of the tubular-shaped configuration via which the main body of the torsion spring can pass through to allow the tubular-shaped configuration to be fitted around the main body of the torsion spring and to at least cover a portion of the main body of the torsion spring.
In additional embodiments, at least one of the first and second attachment portions may be configured for effecting attachment by way of at least one of friction fitting attachment, force-fitting attachment, snap-fitting attachment, press-fitting attachment, adhesive attachment, clamped attachment, and screwed attachment.
In certain embodiments, the first and second covering sections may be formed from at least one of a rubber material and an elastomeric material.
In an additional aspect, the disclosure provides a covering for use with a trigger assembly of an electrical device, said covering being configured for at least partially covering a torsion spring of the trigger assembly so as to alleviate ingress of dust, water and other particulates in to contact with the torsion spring.
The disclosed embodiments will become more fully understood from the following detailed description of a preferred but non-limiting embodiment thereof, described in connection with the accompanying drawings, wherein:
The disclosed embodiments will now be described herein with reference to
Referring firstly to
A locking assembly is mounted on an outer surface of the trigger member (110). The locking assembly includes a locking member (130) configured for rotatable movement relative to the trigger member (110) about a hinge (131). The locking member (130) rotates about the hinge (131) within a recess (111) disposed in the outer surface of the trigger member (110). The locking member (130) is rotatable between a plurality of rotatable positions so as to selectably “lock off” the actuator member (160) from closing the electrical switch depending upon the rotatable position of the locking member relative to the trigger member. For instance, in
The locking assembly also includes a torsion spring (132) operably-connected with the locking member (130) and surface of the trigger member (110) which is configured to urge the locking member (130) towards the second position (i.e. the non-locked-off position) as shown in
The first curved portion (133A) of the covering is integrally formed together with a first attachment portion (133B) of the covering. For instance, the covering may be formed as a single piece from an elastomeric material, a rubber material, a polymeric material, a plastic material, a metal material or any other suitable material. The first attachment portion (133B) is configured for secure and rigid attachment with a surface of the locking member (130) such as shown in
A second covering is also provided which includes a second curved portion (134A), a straight portion (134B), and a second attachment portion (134C). The second curved portion (134A) is connected with a first end of the straight portion (134B), and the second attachment portion (134C) is connected with a second end of the straight portion (134B). The second curved portion (134A) is configured to substantially cover the torsion spring (132), the straight portion (134B) is configured to cover an arm (132B) of the torsion spring (132) extending linearly away from an end of the main body (132A) of the torsion spring (132) at an end of the main body (132A). The second attachment portion (134C) in this embodiment comprises a protrusion extending from the end of the straight portion (134B) which is configured for press-fitting engagement with an aperture disposed in a surface of the trigger member (110) so as to effect securement. Conveniently, the second covering complements the first covering so that together they may substantially prevent exposure of the torsion sprint (132) surface area from contaminants.
The locking assembly also includes a lock-on assembly for selectably locking the trigger assembly in to the ON position so that the user need not maintain finger pressure on the trigger member (110). The lock-on assembly is operable independently and separately from the lock-off assembly and includes a lock-on member (140) that is rotatable about a hinge (141) relative to the trigger member (110) and is biased in to a non-locked-on position by a return spring (142).
It will be appreciated that the disclosed embodiments may assist in providing at least one of the following advantages of the existing art:
the covering provides protection for the torsion spring from dust, water and other particulates which may cause damage to the torsion spring over time, for instance due to corrosion. Hence this assists in extending the usable lifespan of the electrical device;
the novel design configuration of the covering provides a relatively compact form-factor which is well-suited for use in particular with hand-held power tools where efficient utilisation of space is important;
the covering is relatively easy to produce, for instance by relatively simple molding techniques, and is relatively easy to assemble in place on to the locking member as it may for instance be easily fitted over the torsion spring body and snap-fitted in to secure attachment so that it is not readily able to be dislodged during ordinary use of the electrical device.
Those skilled in the art will appreciate that the disclosed embodiments are susceptible to variations and modifications other than those specifically described without departing from the scope of the present disclosure. All such variations and modification which become apparent to persons skilled in the art, should be considered to fall within the spirit and scope of the disclosure as broadly hereinbefore described. It is to be understood that the disclosure includes all such variations and modifications. The disclosure also includes all of the steps and features, referred or indicated in the specification, individually or collectively, and any and all combinations of any two or more of said steps or features.
The reference to any prior art in this specification is not, and should not be taken as, an acknowledgment or any form of suggestion that that prior art forms part of the common general knowledge.
Number | Date | Country | Kind |
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19123018.4 | Apr 2019 | HK | national |