This application claims priority of Taiwanese Application No. 104210350, filed on Jun. 26, 2015.
The disclosure relates to a hand tool, and more particularly to a speed-selectable hand tool.
U.S. Pat. No. 6,658,970 discloses a conventional screwdriver including a shaft-mounting seat, a handle, a ratchet assembly, a drive shaft, two pawls and a tubular sleeve. The shaft-mounting seat is connected fixedly to the handle. The ratchet assembly is connected to the drive shaft, and is disposed in the shaft-mounting seat. The pawls are mounted movably in the shaft-mounting seat, and are operable to engage removably the ratchet assembly. The tubular sleeve is mounted around the shaft-mounting seat, and is operable for switching states of the pawls such that the conventional screwdriver is convertible to serve as a ratcheting screwdriver or a non-ratcheting screwdriver. However, in use, the rotating speed of the drive shaft is the same as that of the handle, so that the conventional screwdriver may be laborious.
As shown in
Referring further to
For each of the gear assemblies 21, the number of teeth of the auxiliary gear 212 is two times the number of teeth of the planetary gear 211, and is the same as that of the sun gear portion 191 of the overdrive sleeve 19. The number of teeth of the planetary gear 211 of each of the gear assemblies 21 is the same as that of the splined front end 181 of the drive shaft 18.
When a user holds firmly the housing 22 and turns the handle 11 relative to the housing 22 in a first rotational direction (D1, see
When the user turns the handle 11 in the first rotational direction (D1) without holding firmly the housing 22, the cam surfaces 122 of the insert 12 respectively push the first rollers 14 to be in frictional contact with the enlarged body portion. 182 of the drive shaft 18, such that the drive shaft 18 is rotated by the handle 11 at the same rotational speed. Additionally, when the user turns the handle 11 in a second rotational direction (D2, see
However, the conventional speed-selectable screwdriver 10 cannot serve as a non-ratcheting screwdriver, and has a relatively complex structure. Moreover, since the handle 11 rotates the drive shaft 18 by virtue of the frictional contact between each of the first rollers 14 and the enlarged body portion 182 of the drive shaft 18, or the frictional contact between each of the second rollers 15 and the overdrive sleeve 19, an output torque of the drive shaft 18 may be insufficiently large.
Therefore, an object of the disclosure is to provide a speed-selectable hand tool that can overcome at least one of the aforesaid drawbacks associated with the prior arts.
According to the disclosure, the speed-selectable hand tool includes a handle, a cage member, a shaft member, an overdrive unit, a pawl unit, a knob, an outer casing and a head unit. The cage member has a cage section and a connecting section. The cage section has a front portion, a rear portion that is spaced apart from the front portion along an axis, an intermediate portion that is connected between the front and rear portions, a retaining space that is formed, in the front portion and the intermediate portion and that extends along the axis, four through grooves each of which is formed in the intermediate portion and extends in the radial direction of the axis, and a first shaft hole portion that is formed in the rear portion. The connecting section extends along the axis from one end of the rear portion distal from the from portion, is connected fixedly to the handle, and is formed with a second shaft hole portion that is in spatial communication with the first shaft hole portion. The shaft member extends along the axis, is rotatable relative to the cage member, and has a first ratchet wheel section that is retained in the retaining space, a rod section that extends through the first and second shaft hole portions, and a first gear section that is located at a front side of the first ratchet wheel section opposite to the rod section. The overdrive unit includes a sleeve member that is sleeved rotatably on the shaft member, that is located at the front side of the first ratchet wheel section opposite to the rod section, and that has a second ratchet wheel section retained in the retaining space and proximate to the first ratchet wheel section, and a second gear section distal from the first ratchet wheel section, two spaced-apart and substantially polygonal support frames that are mounted rotatably and respectively on the sleeve member and the shaft member, and a plurality of transmission members each of which is mounted rotatably between the support frames, and has a small gear section meshing with the second gear section of the sleeve member, and a large gear section meshing with the first gear section of the shaft member. The pawl unit includes a mounting plate that is mounted in the front portion of the cage section of the cage member, first and second shaft pawls that are partially retained in the retaining space, and first and second sleeve pawls that are partially retained in the retaining space. The first shaft pawl has a main body that is mounted pivotally between the mounting plate and the rear portion of the cage section of the cage member, an engaging section that extends from the main body, and a driven section that extends from the main body and out of the cage section of the cage member through a corresponding one of the through grooves, and is operable to switch between an enabled state where the engaging section of the first shaft pawl engages separably the first ratchet wheel section of the shaft member for preventing the shaft member from rotating relative to the cage member in a first rotational direction, and a disabled state where the engaging section of the first shaft pawl is separated from the first ratchet wheel section. The second shaft pawl has a main body that is mounted pivotally between the mounting plate and the rear portion of the cage section of the cage member, an engaging section that extends from the main body, and a driven section that extends from the main body and out of the cage section of the cage member through a corresponding one of the through grooves, and is operable to switch between an enabled state where the engaging section of the second shaft pawl engages separably the first ratchet wheel section of the shaft member for preventing the shaft member from rotating relative to the cage member in a second rotational direction opposite to the first rotational direction, and a disabled state where the engaging section of the second shaft pawl is separated from the first ratchet wheel section. The first sleeve pawl has a main body that is mounted pivotally between the mounting plate and the rear portion of the cage section of the cage member, an engaging section that extends from the main body, and a driven section that extends from the main body and out of the cage section of the cage member through a corresponding one of the through grooves, and is operable to switch between an enabled state where the engaging section of the first sleeve pawl engages separably the second ratchet wheel section of the sleeve member for preventing the sleeve member from rotating relative to the cage member in the first rotational direction, and a disabled state where the engaging section of the first sleeve pawl is separated from the second ratchet wheel section. The second sleeve pawl has a main body that is mounted pivotally between the mounting plate and the rear portion of the cage section of the cage member, an engaging section that extends from the main body, and a driven section that extends from the main body and out of the cage section of the cage member through a corresponding one of the through grooves, and is operable to switch between an enabled state where the engaging section of the second sleeve pawl engages separably the second ratchet wheel section of the sleeve member for preventing the sleeve member from rotating relative to the cage member in the second rotational direction, and a disabled state where the engaging section of the second sleeve pawl is separated from the second ratchet wheel section. The knob is mounted rotatably around the cage section of the cage member and the pawl unit, and has a surrounding wall that surrounds the pawl unit, a base wall that is dispose at an end of the surrounding wall distal from the handle, two first driving protrusions that are formed on an inner surface of the surrounding wall for respectively driving the driven sections of the first and second shaft pawls so as to switch the states of the first and second shaft pawls, and two second driving protrusions that are formed on the inner surface of the surrounding wall for respectively driving the driven sections of the first and second sleeve pawls so as to switch the states of the first and second sleeve pawls. The first driving protrusions and the second driving protrusions are angularly spaced apart from each other about the axis. The outer casing is formed with a substantially polygonal hole for retaining co-rotatably the support frames therein. The head unit is connected to and driven by the shaft member.
Other features and advantages of the disclosure will become apparent in the following detailed description of the embodiment with reference to the accompanying drawings, of which:
Referring to
With particular reference to
The shaft member 50 extends along the axis (I), is rotatable relative to the cage member 40, and has a first ratchet wheel section 51 that is retained in the retaining space 414, a rod section 52 that extends through the first and second shaft hole portions 416, 421, and a first gear section 53 that is located at a front side of the first ratchet wheel section 51 opposite to the rod section 52, and a splined section 54 that is located at a front side of the first gear section 53 opposite to the first ratchet wheel section 51.
The overdrive unit 60 includes a sleeve member 61 that is sleeved rotatably on the shaft member 50, that is located at the front side of the first ratchet wheel section 51 opposite to the rod section 52, and that has a second ratchet wheel section 62 retained in the retaining space 414 and proximate to the first ratchet wheel section 51, and a second gear section 63 distal from the thirst ratchet wheel section 51 such that the second ratchet wheel section 62 is between the second gear section 63 and the first ratchet wheel section 51, two spaced-apart polygonal support frames 64 that are mounted rotatably and respectively on the sleeve member 61 and the shaft member 50, and a plurality of transmission members 65 each of which is mounted rotatably between the support frames 64, and has a small gear section 651 meshing with the second gear section 63 of the sleeve member 61, and a large gear section 652 meshing with the first gear section 53 of the shaft member 50. The second gear section 63 of the sleeve member 61 and the large gear section 652 of each of the transmission members 65 have the same number of teeth. The first gear section 53 of the shaft member 50 and the small gear section 651 of each of the transmission members 65 have the same number of teeth. In this embodiment, the number of teeth of the large gear section 652 of each of the transmission members 65 is two times that of the small gear section 651 of the transmission member 65, such that when the sleeve member 61 rotates relative to the support frames 64, the shaft member 50 is driven to rotate relative to the support frames 64 at a speed four times that of the sleeve member 61 via the transmission members 65. Further note that, in this embodiment, the sleeve member 61 is not a one-piece element, but is an assembly of two components (see FIGS. 8 to 10).
In this embodiment, each of the support frames 64 is triangular-shaped, and the overdrive unit 60 includes three transmission members 65.
With particular reference to
The first shaft pawl 72 has a main body 721 that is mounted pivotally between the mounting plate 71 and the rear portion 412 of the cage section 41 of the cage member 40, an engaging section 722 that extends from the main body 721, and a driven section 723 that extends from the main body 721 and out of the cage section 41 of the cage member 40 through one of the through grooves 415, and is operable to switch between an enabled state where the engaging section 722 engages separably the first ratchet wheel section 51 of the shaft member 50 for preventing the shaft member 50 from rotating relative to the cage member 40 in a first rotational direction (R1, see
The second shaft pawl 72′ has a main body 721′ that is mounted pivotally between the mounting plate 71 and the rear portion 412 of the cage section 41 of the cage member 40, an engaging section 722′ that extends from the main body 721′, and a driven section 723′ that extends from the main body 721′ and out of the cage section 41 of the cage member 40 through one of the through grooves 415, and is operable to switch between an enabled state where the engaging section 722′ engages separably the first ratchet wheel section 51 of the shaft member 50 for preventing the shaft member 50 from rotating relative to the cage member 40 in a second rotational direction (R2, see
The first sleeve pawl 73 has a main body 731 that is mounted pivotally between the mounting plate 71 and the rear portion 412 of the cage section 41 of the cage member 40, an engaging section 732 that extends from the main body 731, and a driven section 733 that extends from the main body 731 and out of the cage section 41 of the cage member 40 through one of the through grooves 415, and is operable to switch between an enabled state where the engaging section 732 engages separably the second ratchet wheel section 62 of the sleeve member 61 for preventing the sleeve member 61 from rotating relative to the cage member 40 in the first rotational direction (R1), and a disabled state where the engaging section 732 is separated from the second ratchet wheel section 62. The first sleeve pawl 73 further has a recess 734 that corresponds in position to the first ratchet wheel section 51 of the shaft member 50 such that the first sleeve pawl 73 is prevented from engaging the first ratchet wheel section 51 of the shaft member 50.
The second sleeve pawl 73′ has a main body 731′ that is mounted pivotally between the mounting plate 71 and the rear portion 412 of the cage section 41 of the cage member 40, an engaging section 732′ that extends from the main body 731′, and a driven section 733′ that extends from the main body 731′ and out of the cage section 41 of the cage member 40 through one of the through grooves 415, and is operable to switch between an enabled state where the engaging section 732′ engages separably the second ratchet wheel section 62 of the sleeve member 61 for preventing the sleeve member 61 from rotating relative to the cage member 40 in the second rotational direction (R2), and a disabled state where the engaging section 732′ is separated from the second ratchet wheel section 62. The second sleeve pawl 73′ further has a recess 734′ that corresponds in position to the first ratchet wheel section 51 of the shaft member 50 such that the second sleeve pawl 73′ is prevented from engaging the first ratchet wheel section 51 of the shaft member 50.
In this embodiment, each of the driven sections 723, 723′, 733, 733′ of the first and second shaft pawls 72, 72′ and the first and second sleeve pawls 73, 73′ extends out of the cage section 41 of the cage member 40 through a respective one of the through grooves 415.
The abrasion-resistant plate 74 is disposed adjacent to the rear portion 412, and has a ring section 741 that surrounds the rod section 52 of the shaft member 50, and four position arms 742 that extend from the ring section 741. The abrasion-resistant plate 74 is for alleviating the abrasion of the cage member 40 due to the relative rotation between the shaft member 50 and the cage member 40.
Referring to
The positioning unit 90 includes a positioning set 91 and a spring set 92. The positioning set 91 includes a resilient member 911 that is retained in the installation hole 418, and a positioning ball member 912 that is biased resiliently by the resilient member 911 to engage an alternative one of the positioning grooves 82 so as to position the knob 80 relative to the cage member 40. The spring set 92 includes four pawl springs 921 each of which is disposed between an inner surface of the intermediate portion 413 of the cage member 40 and the engaging section. 722, 722′, 732, 732′ of a respective one of the first and second shaft pawl s 72, 72′ and the first and second sleeve pawls 73, 73′ for retaining the corresponding one of the first and second shaft pawls 72, 72′ and the first and second sleeve pawls 73, 73′ at the enabled state. In this embodiment, each of the resilient member 911 and the pawl springs 921 is configured as a compression spring.
Referring to
The head unit 110 is connected to and driven by the shaft member 50, and includes a connecting tube 111 that is connected co-rotatably to the splined section 54 of the shaft member 50, and a bit 112 that is connected co-rotatably and detachably to the connecting tube 111 for tightening or loosening a fastener (not shown).
Referring to
Referring further to
Referring further to
The advantages of the speed-selectable hand tool 3 of this disclosure are as follows.
1. The speed-selectable hand tool 3 is operable to serve as a non-ratcheting hand tool or a ratcheting hand tool
2. When the speed-selectable hand tool 3 serves as a ratcheting hand tool, the rotational speed of the shaft member 50 is selectable to be the same as or four times that of the handle 30 through operation of the outer casing 100.
3. The handle 30 drives rotation of the shaft member 50 by geometric engagement rather than by frictional contact, so that an output torque of the shaft member 50 can be relatively large.
4. The structure of the speed-selectable hand tool 3 of this disclosure is simpler than that of the conventional speed-selectable screwdriver 10 (
While the disclosure has been described in connection with what is considered the exemplary embodiment, it is understood that this disclosure is not limited to the disclosed embodiment 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.
Number | Date | Country | Kind |
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104210350 | Jun 2015 | TW | national |