TECHNICAL FIELD

The present disclosure relates to a gardening tool. More particularly, the present disclosure relates to a weed puller.

BACKGROUND

Tools, such as weed pullers, garden trowels, forked-handheld digging devices, may generally include a footstep removal mechanism. Such tools are used to remove weeds from a ground surface, such as a lawn and a garden. Such tools may include an L- shaped structure and generally include a foot lever that is coupled substantially perpendicular to a handle of the tool. However, such a perpendicular arrangement of the foot lever requires more storage space, which is not desirable. Further, the perpendicular arrangement of the foot lever with the handle may affect aesthetics of the tool in a stored position. Moreover, the perpendicular arrangement of the foot lever may present safety hazards while storage or transportation of the tool.

An example of a weed or grass removing device (or tool) is provided in Chinese Utility Model 203,661,519 (hereinafter referred to as ‘519 reference). The ‘519 reference discloses the grass removing device that includes a base, a handle pivotally connected to the base, and a clamping jaw disposed at the bottom of the base. A clamping portion corresponding to the clamping jaw is provided at the lower end of the handle in an extending manner. A pedal support portion is removably and pivotally connected to the side of the base by a pin through a pivot point. The pedal support portion can rotate around the pivot. The ‘519 reference discloses a pivotable pedal support portion that pivots from a substantially perpendicular position to a substantially parallel position relative to the handle. The pedal support portion in the substantially parallel position relative to the handle seems to increase the length of the device and hence the device requires more storage space, which is not desirable. Thus, there is a need of an improved design of the tool with an adjustable foot lever to reduce the storage space and improve safety during storage and transportation.

SUMMARY

In view of the above, it is an objective of the present disclosure to solve or at least reduce the drawbacks discussed above. The objective is at least partially achieved by a new design of a tool. The tool includes a handle. The tool also includes at least two blades operatively coupled with the handle. The at least two blades perform one or more gardening operations based on operation of the handle. The tool further includes a foot lever operatively coupled with the handle. The tool is characterized in that a pin is at least partially removably coupled to the foot lever and the handle. When the pin is at least partially removed, the foot lever is pivotably rotatable between a working position and a storage position. Further, the foot lever in the storage position is substantially parallel to the handle and the at least two blades are closed.

Thus, the present disclosure provides an improved design of the tool with the pin that allows removable coupling of the foot lever and the handle. A simple and cost effective design of the tool allows a user to pivotally rotate the foot lever between the working position and the storage position. With the improved configuration, in the working position, the foot lever is substantially perpendicular to the handle and, in the storage position of the foot lever, the foot lever may be rotated such that the foot lever is substantially parallel to the handle. Further, the substantially parallel arrangement of the foot lever reduces storage space requirements in the storage position. Thus, the tool can be safely, conveniently stored in compact spaces. Further, in the storage position of the foot lever the one or more blades get closed which thereby increases safety while storage or transportation of the tool. Furthermore, the parallel arrangement of the foot lever in the storage position improves aesthetics of the tool in the storage position. Moreover, the parallel arrangement of the foot lever in the storage position may reduce safety, part-damage hazards during storage or transportation of the tool. According to an embodiment of the present disclosure, the foot lever in the working position is substantially perpendicular to the handle. The foot lever can be used to press the blades of the tool into the ground surface during a weed removal operation. This arrangement provides a simple, ergonomic, and user- friendly design of the tool which assists in the weed removal operation.

According to an embodiment of the present disclosure, the handle includes a turning action for closing of the one or more blades. This arrangement provides a mechanical advantage to the tool during weed removal operation as a pull force applied by the user at a first portion of a handlebar allows closing of the one or more blades at a second portion of the handlebar.

According to an embodiment of the present disclosure, the tool further includes a slider to remove weed engaged with the one or more blades. A design of the slider is simple and allows quick removal of the weed from the tool, which may save user time and efforts. Thus, the slider improves an efficiency of the weed removal operation.

According to an embodiment of the present disclosure, the pin is coupled to the foot lever and the handle, when the foot lever is in the storage position. Such a locking arrangement locks the foot lever in the storage position. Further, the locking arrangement eliminates an inadvertent rotational movement of the foot lever during storage or transportation of the tool, thereby increasing the safety.

According to an embodiment of the present disclosure, in the storage position the one or more blades of the tool are closed. Thus there exists a much reduced risk to get injured as the blades to not protrude individually from the tool but are in a closed configuration, and even could be brough into a protected position.

According to an embodiment of the present disclosure, in the storage position of the foot lever the pin is inserted back into one or more of the foot lever and the handle. The coupling of the pin to the foot lever and the handle in the storage position locks the foot lever in place thereby restricting the rotational movement of the foot lever about a pivot point. According to an embodiment of the present disclosure, the pin is fully removable. This arrangement allows full removal of the pin for applications such as maintenance and disassembly of the tool. Further, this may provide options of servicing or replacement of the pin itself.

According to an embodiment of the present disclosure, the foot lever includes an indent at a bottom of the foot lever. The indent allows the foot lever to rest in the storage position without interference with the handle.

According to an embodiment of the present disclosure, the indent of the foot lever has a shape corresponding to a shape of the handle. The similar shape of the indent and the handle improve the aesthetics of the tool. Further, the similar shape of the indent receives a portion of the handlebar in the storage position of the foot lever, thereby reducing a footprint associated with the tool.

According to an embodiment of the present disclosure, the indent allows form-fit connection of the foot lever in the storage position and the handle. The form-fit connection locks the foot lever in the storage position thereby eliminating any inadvertent rotational movement of the foot lever during storage or transportation of the tool.

According to an embodiment of the present disclosure, the tool is a weed puller. The weed puller is used to remove the weeds in the lawns, gardens, and other ground surfaces.

Other features and aspects of this disclosure will be apparent from the following description and the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

The disclosure will be described in more detail with reference to the enclosed drawings, wherein:

FIG. 1 illustrates a perspective view of a tool in a working position, according to an embodiment of the present disclosure;

FIG. 2 illustrates a perspective view of the tool during a turning action, according to an embodiment of the present disclosure; FIG. 3 illustrates a perspective view around a foot lever of the tool in a working position, according to an embodiment of the present disclosure;

FIG. 4 illustrates a perspective view around the foot lever of the tool in an intermediate position, according to an embodiment of the present disclosure; and

FIG. 5 illustrates a perspective view around the foot lever of the tool in a storage position, according to an embodiment of the present disclosure.

DESCRIPTION OF EMBODIMENTS

The present disclosure will be described more fully hereinafter with reference to the accompanying drawings, in which example embodiments of the disclosure incorporating one or more aspects of the present disclosure are shown. This disclosure may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art. For example, one or more aspects of the present disclosure may be utilized in other embodiments and even other types of structures and/or methods. In the drawings, like numbers refer to like elements.

Certain terminology is used herein for convenience only and is not to be taken as a limitation on the disclosure. For example, "upper", "lower", "front", "rear", "side", "longitudinal", "lateral", "transverse", "upwards", "downwards", "forward", "backward", "sideward", "left," "right," "horizontal," "vertical," "upward", "inner", "outer", "inward", "outward", "top", "bottom", "higher", "above", "below", "central", "middle", "intermediate", "between", "end", "adjacent", "proximate", "near", "distal", "remote", "radial", "circumferential", or the like, merely describe the configuration shown in the Figures. Indeed, the components may be oriented in any direction and the terminology, therefore, should be understood as encompassing such variations unless specified otherwise.

FIG. 1 illustrates a perspective view of a tool 100 in a working position. The tool 100 can be used for various gardening operation such as removing weeds and the like from a ground surface of a lawn, a garden, and the like. In the present invention, the tool 100 is illustrated as a weed puller. However, the tool 100 may include any type of tool, without limiting scope of the present invention. The tool 100 includes a handle 102. The handle 102 includes a first part 104 and a second part 106. The first part 104 of the handle 102 may include a knurling portion or different gripping features for better grip during gardening operations. The handle 102 allows a user to hold the tool 100 and manipulate the tool 100 by hands. The handle 102 is ergonomically designed to allow efficient operation of the tool 100. The handle 102 may include any shape or size depending upon application requirements. The handle 102 may be made up of any suitable material, such as plastic, metal, and the like.

The handle 102 also includes a handlebar 108. The handlebar 108 includes a first portion 110 coupled to the second part 106 of the handle 102 and a second portion 112 opposite to the first portion 110. The handlebar 108 defines a first pin hole (not shown) proximate the second portion 112 of the handlebar 108. The handlebar 108 may be made up of any material, such as plastic, metal, and the like. In the illustrated embodiment, the handlebar 108 includes a circular cross-section. It should be noted that the handlebar 108 may include any other cross-section, without limiting the scope of the present invention. In some embodiments, one or more of the second part 106 and the first part 104 may include a button, switch, and the like to allow change in size of the first portion 110 of the handlebar 108 (or even for the second portion 112). This may allow to have different lengths i.e., linear dimensions of the first portion 110 and the second portion 112 coupled with the handle 102. For example, the handlebar 108 may include a telescopic design.

Referring to FIG. 2, the tool 100 further includes one or more blades 116 operatively coupled with the handle 102. The one or more blades 116 perform one or more gardening operations based on operation of the handle 102. In the illustrated embodiment, the tool 100 includes four blades 116. In some other embodiments, the tool 100 may include any number, type, dimension, arrangement of blades 116, without limiting the scope of the present invention. The blade 116 may be made up of carbon steel, stainless steel, alloy steel, and the like. The handle 102 is actuated by a turning action “Tl” for closing of the one or more blades 116. Specifically, the one or more blades 116 perform one or more gardening operations based on the turning action “Tl” of the handle 102. In the illustrated embodiment, the turning action “Tl” of the handle 102 performs the cutting/removing action of the weed from the ground surface. Moreover, the turning action “Tl” of the handle 102 allows the blades 116 to firmly grip the weed for allowing removing/cutting of the weed from the ground surface. Due to the turning action “Tl” of the handle 102, the blades 116 move towards each other to shackle the weed. In some embodiments, the tool 100 may include any other mechanism to perform cutting/removing of the weed from the ground surface, without limiting the scope of the present invention.

The tool 100 includes a foot lever 120 operatively coupled with the handle 102. The foot lever 120 in the working position is substantially perpendicular to the handle 102. The foot lever 120 includes a first end 122. The foot lever 120 also includes a second end 124. The foot lever 120 is disposed proximate the second portion 112 of the handlebar 108. The foot lever 120 defines a substantially rectangular shaped structure having a fork shaped design. Specifically, the foot lever 120 includes a pair of forks 126 (best shown in FIGS. 3, 5). The forks 126 are spaced apart from each other to define a hollow portion 128 therebetween. Dimensions of the hollow portion 128 are decided such that the foot lever 120 can be moved between the working position and the storage position without interfering with the blades 116.

The foot lever 120 further includes a top 130 and a bottom 132. The top 130 of the foot lever 120 may define a number of ridges or knurled portions to avoid slipping of the foot of the user during the gardening operation. Further, the foot lever 120 is used to press the tool 100 by a foot of the user on the ground surface during the gardening operation. In some embodiments, the bottom 132 of the foot lever 120 may have a shape or design that allows engagement of the foot lever 120 with the ground surface during the gardening operations.

The foot lever 120 includes an indent 134 at the bottom 132 of the foot lever 120. Further, the indent 134 of the foot lever 120 has a shape corresponding to a shape of the handle 102. In the illustrated embodiment, the indent 134 defines a semicircular cross-section. It should be noted that the indent 134 allows form-fit connection of the foot lever 120 in the storage position and the handle 102. This feature of the indent 134 allows receipt of the handlebar 108 within the indent 134 of the foot lever 120, thereby further decreasing a storage space required for the tool 100. The form-fit connection of the foot lever 120 in the storage position may also eliminate an inadvertent rotational movement of the foot lever 120 during storage or transportation of the tool 100, thereby increasing safety. In some examples, the handlebar 108 may be received within the indent 134 by a snap fit connection that locks the handlebar 108 and the foot lever 120.

The foot lever 120 is pivotally coupled to the handlebar 108 at a pivot point 136. Specifically, each of the pair of forks 126 of the foot lever 120 is coupled to the handlebar 108. A number of mechanical fasteners 138 and a pivot pin 140 may be used for pivotable coupling of the foot lever 120. The mechanical fasteners 138 may include bolts, screws, pins, rivets, and the like. The foot lever 120 also includes a number of second pin holes 142 (as shown in FIGS. 4 and 5) proximate the second end 124 of the foot lever 120. In some embodiments, the foot lever 120 may be made up of a wear resistant and durable material as it regularly contacts the ground surface.

FIG. 3 illustrates the tool 100 with the foot lever 120 in the working position. As illustrated, the tool 100 includes a slider 144 to remove the weed engaged with the one or more blades 116. The slider 144 defines a gripping part that allows gripping of the slider 144 by the user. In some embodiments, the gripping part may include a knurled surface to promote gripping. In the working position of the foot lever 120 of the tool 100, the slider 144 remains at an initial position. The slider 144 is slidable along a length of the handlebar 108. The slider 144 is slidable in a direction “Dl” for removal of the weed. In order to eject the weed from the tool 100, the slider 144 slides to a final position proximate the second portion 112 of the handlebar 108. The slider 144 may be provided with a spring member (not shown) to enable a pump action motion. As the user pushes the slider 144 towards the second portion 112 of the handlebar 108, the spring member biases (say retracts) the slider 144 to its initial position. Further, the pump action motion of the slider 144 allows ejection of the weed from the blades 116. The tool 100 includes a push member 146 (as shown in FIG. 5) disposed around the blades 116 proximate the second portion 112 of the handlebar 108. In some embodiments, the slider 144 may be coupled with the push member 146. As the slider 144 moves, the push member 146 pushes the weed to eject the weed from the blades 116. Further, the push member 146 may move forward as the slider 144 is pushed by the user, and it returns to its initial position based on the retracting action of the spring member.

The tool 100 also includes a pin 150 (best shown in FIG. 5) at least partially removably coupled to the foot lever 120 and the handle 102. The pin 150 is coupled to the foot lever 120 and the handle 102 when the foot lever 120 is in the storage position. Further, the pin 150 may be easily removed with bare hands (i.e., say without any external tools, accessories, and the like) when the foot lever 120 is to be moved between the storage and working positions. The pin 150 defines a number of elongated parts 152 and a head 154. In the illustrated embodiment, the pin 150 defines three elongated parts 152 having a circular cross-section. In some embodiments, the pin 150 may include any number of the elongated part 152 with any other shape, size, and cross-section, without limiting the scope of the present invention. The elongated part 152 is partially received by the foot lever 120 and the handlebar 108. Further, the elongated parts 152 of the pin 150 is partially received by the first pin hole of the handlebar 108 and the second pin holes 142 of the foot lever 120.

The head 154 of the pin 150 restricts advancement of the pin 150 completely into the foot lever 120 and the handlebar 108. Further, the head 154 of the pin 150 allows the user to removably couple the pin 150 to the foot lever 120 and the handle 102. The head 154 of the pin 150 defines a slot 156 which allows the user to hold the pin 150 for removable coupling of the pin 150 to the foot lever 120 and the handle 102. The pin 150 includes a key member 158 to engage into one of the second pin hole 142 of the foot lever 120. The pin 150 may be manufactured using a wear resistant material as the pin 150 is subject to wear.

FIG. 4 illustrates the tool 100 in an intermediate position, particularly the foot lever 120. When the pin 150 is at least partially removed, the foot lever 120 is pivotably rotatable between the working position and the storage position. Furthermore, the foot lever 120 may rotate about the pivot point 136. In the intermediate position, the foot lever 120 can be approximately rotated about 90 degrees from the working position or 180 degrees from the storage position. Moreover, in the intermediate position, the foot lever 120 is substantially in-line or in alignment with the handlebar 108.

FIG. 5 illustrates the tool 100 in the storage position, particularly the foot lever 120. For moving the foot lever 120 to the storage position, the foot lever 120 can be approximately rotated about 270 degrees from the working position. The foot lever 120 in the storage position is substantially parallel to the handle 102. In the storage position of the foot lever 120 the pin 150 is inserted back into one or more of the foot lever and the handle. Further, the pin 150 is then coupled with the foot lever 120 and the handle 102. The coupling of the pin 150 to the foot lever 120 and the handle 102 in the storage position locks the foot lever 120 in place thereby restricting the rotational movement of the foot lever 120 about the pivot point 136. As the foot lever 120 is moved to the storage position, a portion of the handlebar 108 is received within the indent 134 of the foot lever 120, thereby providing the form- fit connection therebetween. Further, the pin 150 can be removed to change the position of the foot lever 120 from the storage position to the working position. In some embodiments, the pin 150 is fully removable. This arrangement desired servicing, maintenance, or disassembly of the tool 100. Such fully removable nature of the pin 150 may also allow ease of maintenance or replacement thereof.

The present invention provides an improved design of the tool 100 with the pin 150 that may be removably coupled to the foot lever 120 and the handle 102. By virtue of the pin 150, in the working position of the foot lever 120, the foot lever 120 is substantially perpendicular to the handle 102, and in the storage position of the foot lever 120, the foot lever 120 may be disposed substantially parallel to the handle 102. Further, the pin 150 can be easily engaged and removed from the foot lever 120 and the handlebar 108 without requirement of any additional tools, accessories and the like. A simple and cost-effective design of the tool 100 allows the user to pivotally rotate the foot lever 120 between the working position and the storage position. Further, the substantially parallel arrangement of the foot lever 120 reduces storage space requirements in the storage position. Thus, the tool 100 may have a smaller footprint and can be accommodated in compact spaces. Further, in the storage position of the foot lever 120, the one or more blades 116 are closed (as shown in FIG. 5) which thereby increases safety while storage or transportation of the tool 100. Such closing of the one or more blades 116 in the storage position of the foot lever 120 may also lower spatial footprint of the tool 100, among other implementation benefits. Furthermore, the parallel arrangement of the foot lever 120 in the storage position provides improved aesthetics to the tool 100 in the storage position. Moreover, the parallel arrangement of the foot lever 120 in the storage position improves safety during storage or transportation of the tool 100.

In the drawings and specification, there have been disclosed preferred embodiments and examples of the disclosure and, although specific terms are employed, they are used in a generic and descriptive sense only and not for the purpose of limitation of the scope of the disclosure being set forth in the following claims.

LIST OF ELEMENTS

100 Tool

102 Handle

104 First Part

106 Second Part

108 Handlebar

110 First Portion

112 Second Portion

116 Blades

120 Foot Lever

122 First End

124 Second End

126 Fork

128 Hollow Portion

130 Top

132 Bottom

134 Indent

136 Pivot Point

138 Mechanical Fasteners

140 Pivot Pin

142 Second Pin Hole

144 Slider

146 Push Member

150 Pin

152 Elongated Part 154 Head

156 Slot

158 Key Member

T1 Turning Action

D1 Sliding Direction of Slider