TECHNICAL FIELD

The present invention relates to pruning tools, and more particularly to a pruning tool, such as a branch pruner, a lopper, and secateurs, with an elongated pole for pruning tree branches, twigs and shrubs.

BACKGROUND

Pruning tools, such as branch pruners, loppers, secateurs, with an elongated pole, are well known in the art and are generally used for pruning twigs and branches in gardening and forestry applications. These pruning tools offers an easier cutting experience of branches and leaves in dense bushes and trees which may be high-lying. Typically, a pruning tool includes a working implement with at least one movable component in the working implement, an elongated pole attached to the working implement, and a pull-cord having a first end operably connected to the working implement and a second end attached to a pulling member or an actuation handle. The actuation handle is configured to transmit a pulling force via the pull-cord to the cutting assembly to actuate the movable component.

Occasionally, an operator is require to adjust the pulling force applied on the pulling member or the actuation handle to sever twigs or branches with varying diametrical sizes and/or with irregular orientation. Customarily, to sever a relatively thick twig or branch may require a large pulling force as compared to the pulling force required to sever a relatively thin twig or branch. Moreover, based on the type of bush to be severed the operator is required to adjust the pulling force applied for similar diametrical size and/or orientation of the twig or branch. It is increasingly troublesome for the operator to occasionally adjust the pulling force while an ongoing pruning operation. Even for the skilled operators sudden adjustments required in the pulling forces, particularly while requiring an excessive force for pruning thick twigs or branches, may lead to less accuracy and sever the branch in the middle or a bud. This can cause more fatigue to the operator and also prolongs pruning operation cycle time per tree, shrub or bush.

U.S. Patent 5, 950, 315 (the '31 5 patent) issued on September 14,

1999 to Linden, discloses a lopper used to perform lopping, pruning and similar operations. The lopper includes a lopping head provided with a spring-biased blade cooperating with a jaw, a drive mechanism, and an elongate housing. The drive mechanism includes first and second wheels rotatable relative thereto about a first axis. A head line couples the first wheel to the blade at a connecting point, and the second wheel is coupled to a driving line. The first wheel is eccentric relative to the second wheel so that a distance separating a region of a guiding surface of the first wheel from the first axis is smallest at a predetermined point of blade travel across a bight. Thus, imparts a variable cutting force to a branch as the blade travels across the bight, the variable cutting force increases to a predetermined point of travel of the blade across the bight even when a constant force is applied to the driving line. The lopper also includes an intermediate handle and a lower handle selectively operable to actuate the blade relative to the jaw.

The '315 patent suggests a variable force mechanism that can provide an increased leverage at the predetermined point during the cutting stroke corresponding to the maximum resistance while cutting of the branch. However, the '315 patent does not teach or suggest by what means an adjustment to the pulling force is performed by the operator while severing the twigs or branches with varying diametrical sizes and/or with irregular orientation.

Therefore, in light of the foregoing, there is a need for an improved pruning tool for pruning twigs and branches in gardening and forestry applications. SUMMARY

In view of the above, it is an objective of the present invention to solve or at least reduce the problems discussed above. The objective is at least partially achieved according to a pruning tool according to an embodiment of the present invention. The pruning tool includes a working implement having at least one movable component. The pruning tool further includes an elongated pole attached to the working implement and a slidable pulley arrangement. The slidable pulley arrangement slidably disposed with respect to the elongated pole and wherein a sliding movement of the slidable pulley arrangement is configured to actuate the working implement. The slidable pulley arrangement supports pull-cord passing around thereof and have a first end and a second end. Further, a first actuation handle and a second actuation handle are provided with the pruning tool such that the first end of the pull-cord attached to the first actuation handle and the second end of the pull-cord attached to the second actuation handle. According to an embodiment of the present invention, during a first cutting action performed by pulling the first actuation handle the second actuation handle is configured to move along with the first actuation handle, and during a second cutting action performed by pulling the second actuation handle the second actuation handle is configured to move while the movement of the first actuation handle is restricted. During the first cutting action, an operator applies a less cutting force by pulling the first actuation handle to sever relatively thin and small branches. While, during the second cutting action, the operator applies a more cutting force by pulling the second actuation handle to sever relatively thick and large branches. However, according an aspect of the present disclosure, the pulling force or downward pull required during the first cutting action and the second cutting action is substantially equal and thus the operator is not require to adjust the pulling force applied on the first and second actuation handles to sever twigs or branches with varying diametrical sizes and/or with irregular orientation. The first and second actuation handles are embodied as movable sleeves which are configured to slide over the elongated pole. The pruning tool further includes a stopper means to restrict the movement of the first actuation handle during the second cutting action while the pull- cord transmits the tension around the pulley block. Further, the stopper means is an integral stopper means provided with the first actuation handle and facilitate a swift and smooth switch from the first cutting action to the second cutting action by dynamically locking the first actuation handle at a desired location on the elongated pole. In an alternative embodiment, the first and second actuation handles are embodied as actuation knobs which are configured to pull away from the elongated pole.

The working implement of the pruning tool is a cutting assembly having at least one movable blade and a stationary blade wherein the movable blade is pivotally connected to the stationary blade. Furthermore, a drive mechanism operatively connected to the at least one movable blade and configured to actuate the working implement during the first cutting action and the second cutting action.

BRIEF DESCRIPTION OF THE DRAWINGS

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

FIG. 1A illustrates a perspective view of a pruning tool, according to an embodiment of the present invention;

FIG. 1 B illustrates the pruning tool of FIG. 1A in during a first cutting action;

FIG. 1C illustrates the pruning tool of FIG. 1 A in during a second cutting action;

FIG. 2 illustrates an exploded view of a pruning tool, according to another embodiment of the present invention;

FIG. 3 illustrates an exploded view of a pruning tool, according to yet another embodiment of the present invention; and FIG. 4 illustrates a side view of a pruning tool, according to yet another embodiment of the present invention.

DESCRIPTION OF EMBODIMENTS

The present invention will be described more fully hereinafter with reference to the accompanying drawings, in which example embodiments of the invention incorporating one or more aspects of the present invention are shown. This invention 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 invention to those skilled in the art. For example, one or more aspects of the present invention can be utilized in other embodiments and even other types of structures and/or methods. In the drawings, like numbers refer to like elements.

FIGS. 1A to 1 C illustrate a perspective view of a pruning tool 100, according to an embodiment of the present invention. The pruning tool 100 as illustrated in FIGS. 1A to 1 C is a pruning lopper used for pruning twigs and branches of trees. In various other embodiments, the pruning tool 100 may be any other type of manually actuated tool with an elongated pole, for example, a lopper, secateurs, a plier, a gripper or manipulator etc. for performing trimming, cutting, or pruning operations.

The pruning tool 100 includes a working implement 102 mounted to an elongated pole 104 at a first end 106 thereof. The elongated pole 104 may be a unitary hollow tube like structure forming an elongated housing made of aluminum or any light-metal alloy and configured to provide quick and easy cutting action for the high-lying branches. In an embodiment, the elongated pole 104 may have a telescopic structure including one or more hollow tubes. In the illustrated embodiment, the working implement 102 is embodied as a cutting assembly and includes a blade arrangement with at least one movable component, embodied as a movable blade 108. The movable blade 108 is pivotally connected to a stationary blade 110 by a pivoting arrangement 112 such that the movable blade 108 is configured to perform a pivotal movement with respect to the stationary blade 110 about a pivot pin 114 during a cutting action.

The movable blade 108 may be biased towards an open position of the working implement 102 (as illustrated in FIG. 1 A) by an elastic member 116 disposed between a lower end 118 of the movable blade 108 and the stationary blade 110. In the illustrated embodiment, the elastic member 116 is embodied as a coil spring. However, the elastic member 116 may be any other type of resilient member known in the art, for example, a recoil spring, a volute spring, a rubber member, or the like. Alternatively, the movable blade 108 may be connected to the stationary blade 110 in such a way, so as to perform a linear movement with respect to the stationary blade 110 during the cutting action. Further, the stationary blade 110 and the movable blade 108 may include cutting edges 120 and 122, respectively. The cutting edges 120 and 122 may be sharpened and/or be serrated in order to cut the branches. In various other embodiments, the movable blade 108 may include two or more movable components. Furthermore, the various details of the working implement 102, as illustrated in the FIG. 1 , are exemplary in nature, and the working implement 102 may have any other type or design within the scope of the present invention.

The working implement 102 may include a drive mechanism 124 operatively connected to the movable blade 108 of the working implement 102. According to an embodiment of the present invention, the drive mechanism 124 may include a drive-cord 126 and a transmission mechanism such as a fixed pulley arrangement having a first fixed pulley 128 and a second fixed pulley 130. In the illustrated embodiment, the first fixed pulley 128 is mounted to the movable blade 108 at an upper end 132 thereof and the second fixed pulley 130 is mounted to the stationary blade 110. The first and second fixed pulleys 128, 130 include one or more grooves and the drive-cord 126 is wound around the grooves forming one or more loops between the first and second fixed pulleys 128, 130. In various other embodiments, the drive mechanism 124 may include a lever arrangement, a linkage system, a gear arrangement, a belt drive, a chain drive, a pneumatic arrangement, a hydraulic arrangement, or a combination thereof without limiting the scope of the present invention.

According to the illustrated embodiment of the present invention, the drive-cord 126 has a first end 134 secured to the stationary blade 110 and a second end 136 of the drive-cord 126 pass around the first and second fixed pulleys 128, 130 and secured to a slidable pulley arrangement 138 provided with the pruning tool 100. The slidable pulley arrangement 138 is slidably disposed with respect to the elongated pole 104 and wherein a sliding movement of the slidable pulley arrangement 138 is configured to actuate the working implement 102 via the drive mechanism 124. In an embodiment, the slidable pulley arrangement 138 may include a primary pulley block 140 disposed inside the hollow elongated pole 104 and the drive-cord 126 is connected to the primary pulley block 140 by a locking pin 142.

According to an embodiment of the present invention, the primary pulley block 140 includes a pulley member 144 to support a pull-cord, such as a primary pull-cord 146. The primary pull-cord 146 may pass around the pulley member 144 and has a first end 148 and a second end 150 (see FIG. 1C). The pruning tool 100 further includes a first actuation handle 152 and a second actuation handle 154. In an embodiment, the first end 148 of the primary pull-cord 146 is attached to the first actuation handle 152 and the second end 150 of the primary pull-cord 146 is attached to the second actuation handle 154 (see FIG. 1C). The first and the second actuation handles 152, 154 are embodied as movable sleeves fitted over the elongated pole 104 and are configured to slide over the elongated pole 104. Furthermore, an annular flange 164 of the first actuation handle 152 may conform to an annular flange 166 (see FIG. 1 C) of the second actuation handle 154. In an embodiment, the first and second ends 148, 150 of the primary pull-cord 146 may pass through a slot or opening 160 provided on the elongated pole 104 and run along an outer surface of the elongated pole 104. Moreover, the first and second ends 148, 150 may have loops to receive respective locking pins 156, 158 while attaching with the first actuation handle 152 and the second actuation handle 154, respectively. It will be apparent to a person having ordinary skill in the art that the attachment of the first and second ends 148, 150 of the primary pull-cord 146 with the first actuation handle 152 and the second actuation handle 154 in the illustrated embodiment is exemplary in nature and may vary based on the design and application of the pruning tool 100.

Furthermore, the elongated pole 104 may include a stopper means 162 to restrict an upward movement of the first actuation handle 152. The stopper means 162 may be a wedge-shaped member (as shown in FIGS. 1A to 1 C) or an annular protrusion integrally formed on the elongated pole 104 and configured to abut with the annular flange 164 of the first actuation handle 152. Otherwise, the stopper means 162 may be an external member such as an annular ring or band attached to the elongated pole 104. Alternatively, the stopper means 162 may be an integral stopper means provided with the first actuation handle 152. The integral stopper means may include an arrestor and release mechanism to dynamically lock the actuation handle 152 at a desired location on the elongated pole 104.

FIGS. 1 B and 1C illustrate the pruning tool 100 of FIG. 1 A during a first cutting action and a second cutting action, respectively. Referring to FIG. 1 B, the first cutting action (shown by arrow PF1 ) performed by an operator by pulling the first actuation handle 152 to sever a thin twig or branch. According to an aspect of the present invention, as the annular flanges 164, 166 of the first and second actuation handles 152, 154 are conforming, during the first cutting action the second actuation handle 154 is configured to move along with the first actuation handle 152 as an unitary handle. Thus, apply a downward pull on the primary pulley block 140 by the primary pull-cord 146 without transmitting a tension in the primary pull-cord 146 around the primary pulley block 140. According to an embodiment of the present invention, a first pulling force PF1 applied on the first actuation handle 152 during the first cutting action is approximately equally divided and carried by two sections of the primary pull-cord 146 via the primary pulley block 140, as the primary pulley block 140 is pulled downward by both the ends 148, 150 of the primary pull-cord 146. Thus, exert a first cutting force CF1 on the drive-cord 126 substantially equivalent to the first pulling force PF1.

As customarily, to sever relatively thick twigs or branches may require an increased cutting force as compared to the first cutting force CF1 exerted by the first pulling force PF1 applied during the first cutting action performed by pulling the first actuation handle 152. According to an aspect of the present invention, the operator may perform the second cutting action by pulling the second actuation handle 154 to sever the relatively thick twigs or branches. Referring to FIG. 1 C, during the second cutting action (shown by arrow PF2) the second actuation handle 154 is configured to move and apply the downward pull on the primary pulley block 140 by pulling the second end 150 of the primary pull-cord 146. Further, during the second cutting action, the first end 148 of the primary pull-cord 146 apply an upward pull on the first actuation handle 152 while the upward movement of the first actuation handle 152 is restricted by the stopper means 162, and thus the primary pull-cord 146 transmits the tension around the primary pulley block 140. According to an embodiment of the present invention, a second pulling force PF2 applied on the second actuation handle 154 during the second cutting action is equally transmitted around the primary pulley block 140 by the primary pull-cord 146. Thus, exert a second cutting force CF2 on the drive-cord 126 which is approximately twice of the second pulling force PF2.

According to an aspect of the present invention, the operator is not require to adjust the pulling force applied on the actuation handles 152, 154 of the pruning tool 100 to sever twigs or branches with varying diametrical sizes and/or with irregular orientation. During an ongoing pruning operation, to sever the thin twig or branch using the pruning tool 100, the operator may perform the first cutting action (see FIG. 1 B) by pulling the first actuation handle 152 and apply a comparable cutting force while not transmitting the tension in the primary pull-cord 146 around the primary pulley block 140. Advantageously, to sever a relatively thick twig or branch using the pruning tool 100, the operator may perform the second cutting action (see FIG. 1 C) by pulling the second actuation handle 154 and apply a double cutting force while transmitting the tension in the primary pull-cord 146 around the primary pulley block 140. It is more convenient for the operator to occasionally not adjust the pulling force while the ongoing pruning operation. As, even for the skilled operators sudden adjustments required in the pulling forces, particularly while applying excessive force for pruning thick twigs or branches, may lead to less accuracy and sever the branch in the middle or a bud. Also, this can contribute to more fatigue to the operator and prolongs pruning operation cycle per tree, shrub or bush. The pruning tool 100, according to an aspect of the present invention, not only increases accuracy while pruning but also causes less fatigue to the operator and reduces overall pruning operation cycle time per tree, shrub or bush.

Moreover, in case of the integral stopper means provided with the first actuation handle 152 a switch from the first cutting action to the second cutting action is swift and smooth by dynamically locking the first actuation handle 152 at a desired location on the elongated pole 104 and quickly moving hand to the second actuation handle 154. Moreover, due to presence of the integral stopper means provided with the first actuation handle 152 also reduces and/or optimizes a movement span for the second actuation handle 154 while performing the second cutting action. FIG. 2 illustrates an exploded view of a pruning tool 200, according to another embodiment of the present invention. The pruning tool 200 includes a working implement 202 mounted to an elongated pole 204 at a first end 206 thereof. As illustrated, the working implement 202 is embodied as a cutting assembly and includes a blade arrangement with at least one movable component, embodied as a movable blade 208. The movable blade 208 is pivotally connected to a stationary blade 210 by a pivoting arrangement 212. Further, the movable blade 208 may be biased towards an open position of the working implement 202 (as illustrated in FIG. 2) by an elastic member 214 disposed between the movable blade 208 and the stationary blade 210.

The working implement 202 may include a drive mechanism 216 operatively connected to the movable blade 208 of the working implement 202. According to an embodiment of the present invention, the drive mechanism 216 may include a drive-cord 218 and a fixed pulley arrangement having a first fixed pulley 220 and a second fixed pulley 222. The first and second fixed pulleys 220, 222 include one or more grooves and the drive-cord 218 is wound around the grooves forming one or more loops between the first and second fixed pulleys 220, 222.

According to the illustrated embodiment of the present invention, the drive-cord 218 has a first end 224 secured to the stationary blade 210 and a second end 226 of the drive-cord 218 pass around the first and second fixed pulleys 220, 222 and secured to a slidable pulley arrangement 228 provided with the pruning tool 200. The slidable pulley arrangement 228 is slidably disposed with respect to the elongated pole 204 and wherein a sliding movement of the slidable pulley arrangement 228 is configured to actuate the working implement 202 via the drive mechanism 216. In an embodiment, the slidable pulley arrangement 228 may include a primary pulley block 230 and a secondary pulley block 232 disposed inside the hollow elongated pole 204, and the second end 226 of the drive-cord 218 is connected to the primary pulley block 230 by a locking pin.

According to an embodiment of the present invention, the primary pulley block 230 includes a pulley member (not shown) to support a primary pull-cord 234. The primary pull-cord 234 may pass around the pulley member of the primary pulley block 230 and has a first end 236 and a second end 238. The first end 236 of the primary pull-cord 234 is attached to the secondary pulley block 232 by a locking pin. The second end 238 of the primary pull-cord 234 run inside the elongated pole 204 and is attached to a first actuation knob 240 by another locking pin. The first actuation knob 240 is disposed at a second end 242 of the elongated pole 204 and may act as first actuation handle and configured to pull away from the elongated pole 204 to increase the reach for the working implement 202 from the ground in the pruning tool 200. Further, an upward movement of the first actuation knob 240 is restricted by the annular flange (not shown) of the elongated pole 204 at the second end 242 thereof.

The secondary pulley block 232 also includes a pulley member (not shown) to support a secondary pull-cord 244. The secondary pull-cord 244 may pass around the pulley member of the secondary pulley block 232 and has a first end 246 and a second end 248. The pruning tool 200 further includes a first actuation handle 250 and a second actuation handle 252. In an embodiment, the first end 246 of the secondary pull- cord 244 is attached to the first actuation handle 250 and the second end 248 of the secondary pull-cord 244 is attached to the second actuation handle 252. The first and the second actuation handles 250, 252 are embodied as movable sleeves fitted over the elongated pole 204 and are configured to slide over the elongated pole 204. Furthermore, an annular flange 254 of the first actuation handle 250 may conform to an annular flange 256 of the second actuation handle 252.

In an embodiment, the first and second ends 246, 248 of the secondary pull-cord 244 may pass through a slot 258 provided on the elongated pole 204 and run along an outer surface of the elongated pole 204. Moreover, the first and second ends 246, 248 of the secondary pull- cord 244 have loops to receive respective locking pins while attaching with the first actuation handle 250 and the second actuation handle 252, respectively. Furthermore, the elongated pole 204 may include a wedge- shaped stopper means 260 to restrict an upward movement of the first actuation handle 250.

According to an aspect of the present invention, the operator is not require to adjust the pulling force applied on the actuation handles 250, 252 and the actuation knob 240 of the pruning tool 200 to sever twigs or branches with varying diametrical sizes and/or with irregular orientation. During a pruning operation, to sever the twig or branch using the pruning tool 200, the operator may perform the first cutting action by pulling either the first actuation handle 250 or the first actuation knob 240 by a first force and apply a double cutting force while transmitting the tension in the primary pull-cord 234 around the primary pulley block 230 only and not transmitting the tension in the secondary pull-cord 244 around the secondary pulley block 232. Moreover, to sever a relatively thick twig or branch using the pruning tool 200, the operator may perform the second cutting action by pulling the second actuation handle 252 by the same first force and apply a quadrupled cutting force while transmitting the tension in both of the primary pull-cord 234 and the secondary pull-cord 244 around the primary pulley block 230 and the secondary pulley block 232.

FIG. 3 illustrates an exploded view of a pruning tool 300, according to yet another embodiment of the present invention. The pruning tool 300 includes a working implement 302 mounted to an elongated pole 304 at a first end 306 thereof. As illustrated, the working implement 302 is embodied as a cutting assembly and includes a blade arrangement with at least one movable component, embodied as a movable blade 308. The movable blade 308 is pivotally connected to a stationary blade 310 by a pivoting arrangement 312. Further, the movable blade 308 may be biased towards an open position of the working implement 302 (as illustrated in FIG. 3) by an elastic member 314 disposed between the movable blade 308 and the stationary blade 310.

The working implement 302 may include a drive mechanism 316 operatively connected to the movable blade 308 of the working implement 302. According to an embodiment of the present invention, the drive mechanism 316 may include a drive-cord 318 and a fixed pulley arrangement having a first fixed pulley 320 and a second fixed pulley 322. The first and second fixed pulleys 320, 322 include one or more grooves and the drive-cord 318 is wound around the grooves forming one or more loops between the first and second fixed pulleys 320, 322.

According to the illustrated embodiment of the present invention, the drive-cord 318 has a first end 324 secured to the stationary blade 310 and a second end 326 of the drive-cord 318 pass around the first and second fixed pulleys 320, 322 and secured to a slidable pulley arrangement 328 provided with the pruning tool 300. The slidable pulley arrangement 328 is slidably disposed with respect to the elongated pole 304 and wherein a sliding movement of the slidable pulley arrangement 328 is configured to actuate the working implement 302 via the drive mechanism 316. In an embodiment, the slidable pulley arrangement 328 may include a primary pulley block 330, a secondary pulley block 332 and a tertiary pulley block 333 disposed inside the hollow elongated pole 304, and the second end 326 of the drive-cord 318 is connected to the primary pulley block 330 by a locking pin.

According to an embodiment of the present invention, the primary pulley block 330 includes a pulley member (not shown) to support a primary pull-cord 334. The primary pull-cord 334 may pass around the pulley member of the primary pulley block 330 and has a first end 336 and a second end 338. The first end 336 of the primary pull-cord 334 is attached to the secondary pulley block 332 by a locking pin. The second end 338 of the primary pull-cord 334 run inside the elongated pole 304 and is attached to the tertiary pulley block 333 by another locking pin.

Further, the secondary pulley block 332 also includes a pulley member (not shown) to support a secondary pull-cord 344. The secondary pull-cord 344 may pass around the pulley member of the secondary pulley block 332 and has a first end 346 and a second end 348. The pruning tool 300 includes a first actuation handle 350 and a second actuation handle 352. In an embodiment, the first end 346 of the secondary pull-cord 344 is attached to the first actuation handle 350 and the second end 348 of the secondary pull-cord 344 is attached to the second actuation handle 352. The first and the second actuation handles 350, 352 are embodied as movable sleeves fitted over the elongated pole 304 and are configured to slide over the elongated pole 304. Further, an annular flange 354 of the first actuation handle 350 may conform to an annular flange 356 of the second actuation handle 352.

In an embodiment, the first and second ends 346, 348 of the secondary pull-cord 344 may pass through a slot 358 provided on the elongated pole 304 and run along an outer surface of the elongated pole 304. Moreover, the first and second ends 346, 348 of the secondary pull- cord 344 have loops to receive respective locking pins while attaching with the first actuation handle 350 and the second actuation handle 352, respectively. The elongated pole 304 may include a wedge-shaped stopper means 360 to restrict an upward movement of the first actuation handle 350.

Furthermore, the tertiary pulley block 333 also includes a pulley member (not shown) to support a tertiary pull-cord 362. The tertiary pull- cord 362 may pass around the pulley member of the tertiary pulley block 333 and has a first end 364 and a second end 366. In an embodiment, the first end 364 of the tertiary pull-cord 362 is attached to a first actuation knob 340 by a locking pin and the first end 366 of the tertiary pull-cord 362 is attached to a second actuation knob 341 by another locking pin. The first and second actuation knobs 340, 341 are disposed at a second end 342 of the elongated pole 304 and may act as first actuation handle and the second actuation handle, respectively, and configured to pull away from the elongated pole 304 to increase the reach for the working implement 302 from the ground in the pruning tool 300. Further, an upward movement of the first actuation knob 340 is restricted by the annular flange (not shown) of the elongated pole 304 at the second end 342 thereof and the upward movement of the second actuation knob 341 is restricted by the annular flange (not shown) of the first actuation knob 340.

According to an aspect of the present invention, the operator is not require to adjust the pulling force applied on the actuation handles 350, 352 and the actuation knobs 340, 341 of the pruning tool 300 to sever twigs or branches with varying diametrical sizes and/or with irregular orientation. During a pruning operation, to sever the twig or branch using the pruning tool 300, the operator may perform the first cutting action by pulling either the first actuation handle 350 or the first actuation knob 340 by the first force and apply a double cutting force while transmitting the tension in the primary pull-cord 334 around the primary pulley block 330 only and not transmitting the tension in the secondary and tertiary pull- cords 344, 362 around the secondary and tertiary pulley blocks 332, 333. Moreover, to sever a relatively thick twig or branch using the pruning tool 300, the operator may perform the second cutting action by pulling the second actuation handle 352 or the second actuation knob 341 by the same first force and apply a quadrupled cutting force while transmitting the tension in the primary pull-cord 334 around the primary pulley block 330 and either of the secondary pull-cord 344 or the tertiary pull-cord 362 around the secondary pulley block 332 or the tertiary pulley block 333.

In an alternative embodiment, the pruning tools 200, 300 may be embodied with a combination of one actuation handle as the movable sleeve on the elongated poles 204, 304 and two actuation knobs, an upper actuation knob and a lower actuation knob, disposed at the second end 242, 342 of the elongated pole 204, 304. In this alternative embodiment, the first cutting action is performed by pulling either of the actuation handle or the upper actuation knob and the second cutting action is performed by pulling the lower actuation knob.

FIG. 4 illustrates a side view of a pruning tool 400, according to yet another embodiment of the present invention. The pruning tool 400 as illustrated in FIG. 4 is a manually operable pruning shear. The pruning tool 400 includes a working implement 402 mounted to an elongated pole 404 at a first end 406 thereof. The elongated pole 404 may be a unitary tube like structure made of aluminum or any light-metal alloy and configured to provide quick and easy cutting action for the high branches. In an embodiment, the elongated pole 404 may have a telescopic structure including one or more tubular sections. As illustrated, the working implement 402 is embodied as a cutting assembly and includes a pair of movable blades 408, 410. The blades 408, 410 may extend backward of a first pivoting connection 412 to form respective arm 414, 416. Each of the arm 414, 416 further coupled to a linkage system 418 having a first pivoted-link 420 and a second pivoted-link 422 with a second pivoting connection 424 such that the second pivoting connection 424 may be disposed in and projecting through a longitudinal slot 426 on the elongated pole 404. Thus a sliding movement of the second pivoting connection 424 is configured to actuate the working implement 402 via the linkage system 418. The various details of the working implement 402, as illustrated in the FIG. 4, are only exemplary in nature, and the working implement 402 may have any other type or design within the scope of the present invention.

According to an embodiment of the present invention, the second pivoting connection 424 is a slidable pulley arrangement and includes a pulley member 428 to support a pull-cord 430. The pull-cord 430 may pass around the pulley member 428 and has a first end 432 and a second end 434. The pruning tool 400 further includes a first actuation handle 436 and a second actuation handle 438. In an embodiment, the first end 432 of the pull-cord 430 is attached to the first actuation handle 436 and the second end 434 of the pull-cord 430 is attached to the second actuation handle 438 by respective locking pins 440, 442. The first and the second actuation handles 436, 438 are embodied as movable sleeves fitted over the elongated pole 404 and are configured to slide over the elongated pole 404. Furthermore, an annular flange 444 of the first actuation handle 436 may conform to an annular flange 446 of the second actuation handle 438. In an embodiment, the first and second ends 432, 434 of the pull- cord 430 may run along an outer surface of the elongated pole 404 and have loops to receive respective locking pins 440, 442 while attaching with the first actuation handle 436 and the second actuation handle 438, respectively. It will be apparent to a person having ordinary skill in the art that the attachment of the first and second ends 432, 434 of the pull-cord 430 with the first actuation handle 436 and the second actuation handle 438 in the illustrated embodiment is exemplary in nature and may vary based on the design and application of the pruning tool 400.

Furthermore, the elongated pole 404 may include a stopper means

448 to restrict an upward movement of the first actuation handle 436. The stopper means 448 may be a wedge-shaped member (as shown in FIG. 4) or an annular protrusion integrally formed on the elongated pole 404 and configured to abut with the annular flange 444 of the first actuation handle 436. Otherwise, the stopper means 448 may be an external member such as an annular ring or band attached to the elongated pole 404.

According to an aspect of the present invention, the operator is not require to adjust the pulling force applied on the first and second actuation handles 436, 438 of the pruning tool 400 to sever twigs or branches with varying diametrical sizes and/or with irregular orientation. During a pruning operation, to sever the twig or branch using the pruning tool 400, the operator may perform the first cutting action by pulling the first actuation handle 436 by the first force and apply a comparable shearing force while not transmitting the tension in the pull-cord 430 around the pulley member 428. Moreover, to sever a relatively thick twig or branch using the pruning tool 400, the operator may perform the second cutting action by pulling the second actuation handle 438 by the same first force and apply a double shearing force while transmitting the tension in the pull-cord 430 around the pulley member 428.

The pruning tools 100, 200, 300, 400, according to illustrated embodiments of the present invention, are configured to provide a desired cutting force based on the application of a fixed pulling force while severing the twigs or branches with varying diametrical sizes and/or with irregular orientation.

In the drawings and specification, there have been disclosed preferred embodiments and examples of the invention 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 invention being set forth in the following claims.

PART LIST

100 pruning tool

102 working implement

104 elongated pole

106 first end of elongated pole

108 movable blade

110 stationary blade

112 pivoting arrangement

114 pivot pin

116 elastic member

118 lower end of movable blade

120 cutting edge of stationary blade

122 cutting edge of movable blade

124 drive mechanism

126 drive-cord

128 first fixed pulley

130 second fixed pulley

132 upper end movable blade

134 first end of drive-cord

136 second end of drive-cord

138 slidable pulley arrangement

140 primary pulley block

142 locking pin

144 pulley member

146 primary pull-cord

148 first end of pull-cord

150 second end of pull-cord

152 first actuation handle

154 second actuation handle

156 locking pin 158 locking pin

160 slot

162 stopper means

164 annular flange of first actuation handle

166 annular flange of second actuation handle

PF1 first pulling force

CF1 first cutting force

PF2 second pulling force

CF2 second cutting force

200 pruning tool

202 working implement

204 elongated pole

206 first end of elongated pole

208 movable blade

210 stationary blade

212 pivoting arrangement

214 elastic member

216 drive mechanism

218 drive-cord

220 first fixed pulley

222 second fixed pulley

224 first end of drive-cord

226 second end of drive-cord

228 slidable pulley arrangement

230 primary pulley block

232 secondary pulley block

234 primary pull-cord

236 first end of primary pull-cord

238 second end of primary pull-cord

240 first actuation knob

242 second end of elongated pole secondary pull-cord

first end of secondary pull-cord second end of secondary pull-cord first actuation handle

second actuation handle

annular flange of first actuation handle annular flange of second actuation handle slot

stopper means

pruning tool

working implement

elongated pole

first end of elongated pole

movable blade

stationary blade

pivoting arrangement

elastic member

drive mechanism

drive-cord

first fixed pulley

second fixed pulley

first end of drive-cord

second end of drive-cord

slidable pulley arrangement

primary pulley block

secondary pulley block

tertiary pulley block

primary pull-cord

first end of primary pull-cord

second end of primary pull-cord first actuation knob second actuation knob

second end of elongated pole

secondary pull-cord

first end of secondary pull-cord second end of secondary pull-cord first actuation handle

second actuation handle

annular flange of first actuation handle annular flange of second actuation handle slot

stopper means

tertiary pull-cord

first end of tertiary pull-cord

second end of tertiary pull-cord pruning tool

working implement

elongated pole

first end of elongated pole

blade

blade

first pivoting connection

arm

arm

linkage system

first pivoted-link

second pivoted-link

second pivoting connection

longitudinal slot

pulley member

pull-cord

first end of pull-cord second end of pull-cord

first actuation handle

second actuation handle

locking pin

locking pin

annular flange of first actuation handle annular flange of second actuation handle stopper means