The disclosure relates to a ratchet wrench, more particularly to a ratchet wrench with an actuating finger.
With reference to
As shown in
As shown in
As shown in
As shown in
Other conventional ratchet wrenches are also disclosed by an inventor of this application in Chinese patent publication nos. 105313051 and 106553147.
Therefore, an object of the disclosure is to provide a novel ratchet wrench in which an angularly movement of an actuating finger can be effectively restricted by a limiting member.
According to a first aspect of the disclosure, a ratchet wrench includes a head shell, a ratchet wheel, a first pawl member, a first biasing member, a second pawl member, a second biasing member, a cam member, an actuating finger, and a limiting member. The head shell includes an upper major wall having a through hole, and a surrounding wall extending downwardly from a periphery of the upper major wall to define an accommodation space. The ratchet wheel is rotatably mounted in the accommodation space about a first axis, and includes a plurality of teeth angularly displaced from one another about the first axis. The first pawl member includes a first pivot end which is pivotally mounted in the accommodation space, and a first pawl end which is angularly movable between a first idle position, where the first pawl end is spaced apart from the ratchet wheel, and a first engaging position, where the first pawl end is in ratchet engagement with the ratchet wheel to permit the ratchet wheel to rotate in a clockwise direction only.
The first biasing member is disposed to bias the first pawl end to the first engaging position. The second pawl member is opposite to the first pawl member, and includes a second pivot end which is pivotally mounted in the accommodation space, and a second pawl end which is angularly movable between a second idle position, where the second pawl end is spaced apart from the ratchet wheel, and a second engaging position, where the second pawl end is in ratchet engagement with the ratchet wheel to permit the ratchet wheel to rotate in a counterclockwise direction only. The second biasing member is disposed to bias the second pawl end to the second engaging position. The cam member includes an upper end extending outwardly of the through hole, and a cam body which is disposed between the first and second pawl members, and which is pivotably mounted in the accommodation space about a second axis that is offset from and parallel to the first axis. The cam member is angularly movable about the second axis, and is configured such that when one of the first and second pawl ends is in ratchet engagement with the ratchet wheel, the other one of the first and second pawl ends is spaced apart from the ratchet wheel. The actuating finger is coupled to the upper end of the cam member to turn the cam member about the second axis. The limiting member includes a key slot formed in one of the actuating finger and the upper major wall, and a key which is slidably engaged in the key slot, and which is formed in the other one of the actuating finger and the upper major wall so as to restrict angular movement of the actuating finger.
According to a second aspect of the disclosure, a ratchet wrench includes a head shell, a handle, a ratchet wheel, a driving member, a first pawl member, a first biasing member, a second pawl member, a second biasing member, a cam member, an actuating finger, and a limiting member. The head shell includes an upper major wall and a surrounding wall. The upper major wall includes a major inner surface having a primary region which defines a first axis, and an auxiliary region which has a through hole extending along a second axis offset from and parallel to the first axis. The surrounding wall extends downwardly from a periphery of the major inner surface to define an accommodation space. The handle extends radially from the surrounding wall in proximity to the auxiliary region to terminate at a handgrip. The ratchet wheel is rotatably mounted on the primary region about the first axis in the accommodation space, and has a wheel body and a rim surface that has a plurality of teeth angularly displaced from one another about the first axis. The driving member extends downwardly from the wheel body and out of the accommodation space along the first axis to permit the ratchet wheel to rotate with the driving member about the first axis. The first pawl member is disposed on the auxiliary region in the accommodation space, and includes a first pivot end, a first pawl end, and a first abutting region. The first pivot end is pivotable about a first pivot axis offset from a reference line that is perpendicular to both the first and second axes by a predetermined distance. The first pawl end is angularly movable between a first idle position, where the first pawl end is spaced apart from the ratchet wheel, and a first engaging position, where the first pawl end is in ratchet engagement with the ratchet wheel to permit the ratchet wheel to rotate in a clockwise direction only. The first abutting region is disposed between the first pivot end and the first pawl end. The first biasing member is disposed to bias the first pawl end to the first engaging position. The second pawl member is disposed on the auxiliary region in the accommodation space, and is opposite to the first pawl member relative to the reference line. The second pawl member includes a second pivot end, a second pawl end, and a second abutting region. The second pivot end is pivotable about a second pivot axis offset from the reference line by the predetermined distance. The second pawl end is angularly movable between a second idle position, where the second pawl end is spaced apart from the ratchet wheel, and a second engaging position, where the second pawl end is in ratchet engagement with the ratchet wheel to permit the ratchet wheel to rotate in a counterclockwise direction only. The second abutting region is disposed between the second pivot end and the second pawl end. The second biasing member is disposed to bias the second pawl end to the second engaging position. The cam member includes an upper end extending outwardly of the through hole, and a cam body which is disposed between the first and second abutting regions, and which is pivotably mounted about the second axis on the auxiliary region in the accommodation space. The cam body has a camming surface, a first surface, and a second surface which are angularly displaced from one another about the second axis. Each of the first and second surfaces is offset from the second axis by a first distance. The camming surface is offset from the second axis by a second distance larger than the first distance. The cam member is angularly movable about the second axis between (i) a first position, where the camming surface is in pressing engagement with the first abutting region to force the first pawl end to the first idle position against a biasing force of the first biasing member, while the second surface confronts the second abutting region to permit the second pawl end in the second engaging position, and (ii) a second position, where the camming surface is in pressing engagement with the second abutting region to force the second pawl end to the second idle position against a biasing force of the second biasing member, while the first surface confronts the first abutting region to permit the first pawl end in the first engaging position. The actuating finger is coupled to the upper end of the cam member to turn the cam member about the second axis. The limiting member includes a key slot formed in one of the actuating finger and the upper major wall, and a key which is slidably engaged in the key slot, and which is formed in the other one of the actuating finger and the upper major wall so as to restrict angular movement of the actuating finger.
Other features and advantages of the disclosure will become apparent in the following detailed description of the embodiments with reference to the accompanying drawings, in which:
Before the disclosure is described in greater detail, it should be noted that where considered appropriate, reference numerals have been repeated among the figures to indicate corresponding or analogous elements, which may optionally have similar characteristics.
Referring to
The main body 2 includes a head shell 21 and a handle 22.
The head shell 21 defines therein an accommodation space 211, and has a through hole 212 which is configured to permit the accommodation space 211 to be in spatial communication with an exterior of the head shell 21. As shown in
The upper major wall 20 has a major inner surface 200 including a primary region 201 and an auxiliary region 202. The primary region 201 defines a first axis (L1). The auxiliary region 202 has the through hole 212 which extends along a second axis (L2) offset from and parallel to the first axis (L1).
The surrounding wall 23 extends downwardly from a periphery of the major inner surface 200 to define the accommodation space 211.
In this embodiment, as shown in
Referring back to
The handle 22 extends radially from the surrounding wall 23 in proximity to the auxiliary region 202 to terminate at a handgrip 220.
The ratchet wheel 3 is rotatably mounted on the primary region 201 about the first axis (L1) in the accommodation space 211, and has a wheel body 30 and a rim surface 301 that has a plurality of teeth 31 angularly displaced from one another about the first axis (L1).
The driving member 4 extends downwardly from the wheel body 30 and out of the accommodation space 211 along the first axis (L1) to permit the ratchet wheel 3 to rotate with the driving member 4 about the first axis (L1). The driving member 4 is configured to mate with a screw (not shown), a nut (not shown), or the like.
The pawl unit 5 includes a first pawl member 51, a first biasing member 52, a second pawl member 53, and a second biasing member 54.
As shown in
The first pivot end 512 is pivotable about a first pivot axis (P1) offset from the reference line (R) by a predetermined distance.
The first pawl end 511 is angularly movable between a first idle position and a first engaging position. In the first idle position, as shown in
The first abutting region 513 is disposed between the first pivot end 512 and the first pawl end 511.
The first biasing member 52 is disposed to bias the first pawl end 511 to the first engaging position. In this embodiment, the first biasing member 52 is disposed between the surrounding wall 23 and the first pawl member 51, and is a compression spring.
The second pawl member 53 is disposed on the auxiliary region 202 in the accommodation space 211, and is opposite to the first pawl member 51 relative to the reference line (R). The second pawl member 53 includes a second pivot end 532, a second pawl end 531, and a second abutting region 533.
The second pivot end 532 is pivotable about a second pivot axis (P2) offset from the reference line (R) by the predetermined distance.
The second pawl end 531 is angularly movable between a second idle position and a second engaging position. In the second idle position, as shown in
The second abutting region 533 is disposed between the second pivot end 532 and the second pawl end 531.
In this embodiment, as shown in
The second biasing member 54 is disposed to bias the second pawl end 531 to the second engaging position. In this embodiment, the second biasing member 54 is disposed between the surrounding wall 23 and the second pawl member 53, and is a compression spring.
As shown in
The upper end 610 extends outwardly of the through hole 212. The cam body 611 is disposed between the first and second pawl members 51, 53, and is pivotably mounted in the accommodation space 211 about the second axis (L2). The cam member 61 is angularly movable about the second axis (L2), and is configured such that when one of the first and second pawl ends 511, 531 is in ratchet engagement with the ratchet wheel 3, the other one of the first and second pawl ends 511, 531 is spaced apart from the ratchet wheel 3.
In this embodiment, the cam body 611 is disposed between the first and second abutting regions 513, 533, and is pivotably mounted about the second axis (L2) on the auxiliary region 202 in the accommodation space 211. As shown in
In the first position, as shown in
In the second position, as shown in
In this embodiment, the camming surface 600 has a first cam region 603 proximate to the first surface 601, and a second cam region 604 proximate to the second surface 602. The camming surface 600 is configured such that when the cam member 61 is in the first position (see
As shown in
The limiting member 6 includes a key slot 62 formed in one of the actuating finger 60 and the upper major wall 20, and a key 63 which is slidably engaged in the key slot 62, and which is formed in the other one of the actuating finger 60 and the upper major wall 20 so as to restrict angular movement of the actuating finger 60.
In this embodiment, the key slot 62 extends angularly about the second axis (L2) to terminate at a first edge 621 and a second edge 622.
In this embodiment, when the actuating finger 60 is turned clockwise to move the cam member 61 to the second position (
In this embodiment, the key slot 62 is formed in the upper major wall 20 proximate to the through hole 212, and may have a depth greater than 1 mm. The key 63 is formed in the actuating finger 60, and has a length in a direction of the second axis (L2), which may be greater than 1 mm. The key slot 62 may have a depth greater than 2 mm or 3 mm, and the key 63 may have a length in the direction of the second axis (L2) greater than 2 mm or 3 mm. In this embodiment, the key slot 62 has a depth of 3.5 mm, and the key 63 has a length of 3 mm in the direction of the second axis (L2).
Furthermore, the actuating finger 60 is configured to always cover the key slot 62 during the angular movement of the actuating finger 60.
In this embodiment, as shown in
The cover plate 7 is configured to be fitted in the opening 214 so as to be in abutment engagement with the seat shoulder 215. In addition, the cover plate 7 has a through bore 70 configured to permit the driving member 4 to extend therethrough, and a passage hole 71 extending along the second axis (L2).
The screw member 8 has an enlarged head 81 and a male threaded portion 82. The enlarged head 81 has a dimension larger than the passing hole 71, and is disposed outwardly of the cover plate 7. The male threaded portion 82 extends through the passage hole 71 and is configured to be brought into threaded engagement with a female threaded portion (not shown) formed in the lower end 612 of the cam body 611 so as to permit the screw member 8 to retain the cam member 61 and to turn with the cam member 61 about the second axis (L2).
Therefore, when the actuating finger 60 is turned clockwise to move the cam member 61 to the first position, as shown in
Furthermore, the key slot 62 extends angularly about the second axis (L2) for a first arc length, and the key 63 extends angularly about the second axis (L2) for a second arc length. A ratio of the first arc length to the second arc length ranges from 2:1 to 4:1. In the case, the angular movement of the cam member 61 may be more smoothly.
Moreover, the actuating finger 60 has a disc-shaped coupling end 64 which is coupled to the upper end 610 of the cam member 61, and which extends radially from the second axis (L2) to have a first radius (R1). The key slot 62 has an angular edge 623 which extends about the second axis (L2), and which is most distal from the second axis (L2). A distance (R2) between the angular edge 623 and the second axis (L2) is smaller than the first radius (R1) so as to prevent small particles from falling into the key slot 62.
The key slot 62 may have a depth ranging from 2 mm to 3 mm. In this embodiment, the key slot 62 has a depth of 2.5 mm, and the key 63 has a height of about 2.5 mm from an outer surface of the upper major wall 20 in the direction of the second axis (L2).
Before mounting the key 63 on the head shell 21, a key hole (not shown) is previously formed in the upper major wall 20 adjacent to the through hole 212. Then, a bottom end of the key 63 is inserted and secured in the key hole to leave a top end of the key 63 on the upper major wall 20. The key slot 62 is formed in a lower surface of the disc-shaped coupling end 64 using a milling process.
In the description above, for the purposes of explanation, numerous specific details have been set forth in order to provide a thorough understanding of the embodiments. It will be apparent, however, to one skilled in the art, that one or more other embodiments may be practiced without some of these specific details. It should also be appreciated that reference throughout this specification to “one embodiment,” “an embodiment,” an embodiment with an indication of an ordinal number and so forth means that a particular feature, structure, or characteristic may be included in the practice of the disclosure. It should be further appreciated that in the description, various features are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure and aiding in the understanding of various inventive aspects.
While the disclosure has been described in connection with what are considered the exemplary embodiments, it is understood that this disclosure is not limited to the disclosed embodiments but is intended to cover various arrangements included within the spirit and scope of the broadest interpretation so as to encompass all such modifications and equivalent arrangements.