JP2014217927A - Reciprocative movement cutting tool - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a reciprocative movement cutting tool in which vibration can be suppressed without generating any backward or forward moment and the vibration can be further suppressed by making it possible to adjust a mechanism for suppressing the vibration, and which can be used in combination with an orbital motion mechanism for increasing a cutting force.SOLUTION: A jigsaw 1 comprises a motor 20, a rod 8 which is installed with a blade 6, a power transmission part 4 which converts rotation of the motor 20 into upward/downward movement of the rod 8 to allow the blade 6 to perform upward/downward movement, and a counter weight 12 which performs upward/downward movement in a direction of the upward/downward movement of the rod 8 outside the ranges of the upward/downward movement of the rod 8 and the blade 6. At least a part of the counter weight 12 is arranged to intersect an extension line of a locus of the upward/downward movement of the rod 8. Then, the counter weight 12 performs the upward/downward movement independently of the upward/downward movement of the rod 8 caused by the power transmission part 4.

Description

  The present invention relates to a reciprocating cutting tool for cutting a workpiece by reciprocating a blade, such as a jigsaw.

As shown in Patent Document 1 below, a saw blade (blade) can be attached and detached, and a plunger (rod) that can be linearly reciprocated along a vertical reference line, and a plunger along the reference line. 2. Description of the Related Art A reciprocating saw having a balance weight that can be linearly reciprocated upward is known.
The plunger and the balance weight each have a guide member protruding rearward. A gear for receiving these guide members with a common elliptical guide groove is arranged. Then, each guide member is guided in the guide groove by the rotation of the gear. The plunger and the balance weight are closest to each other when each guide member is located at each intersection with the short axis of the guide groove, and are farthest from each other when each guide member is located at each intersection with the long axis of the guide groove. Thus, the plunger and balance weight reciprocate at symmetrical positions.

Further, as shown in the following Patent Document 2, a gear eccentric part and a gear having a needle roller disposed on the opposite side thereof are rotated, and a plunger is moved up and down via a sleeve or connector for receiving the needle roller. A reciprocating tool is known that reciprocates and reciprocates a balance weight up and down through an elliptical hole that receives a gear eccentric part.
The gear eccentric roller has a gear eccentric portion that is shorter in the front-rear direction, and the balance weight is disposed behind the plunger and the blade.
Further, the balance weight is formed by dividing it into a base part and a weight part arranged on the front side thereof. By making the weight part relatively heavy, the entire center of gravity position is made to be the front part. Thus, the moment to the rear or the front as shown in FIGS. 10 and 11 of Patent Document 2 is suppressed.

JP 2001-347502 A JP 2011-115912 A

In the reciprocating saw of Patent Document 1, since the plunger, the saw blade and the balance weight are aligned vertically and are not displaced forward and backward, a backward or forward moment is not generated, and vibration is easily suppressed.
However, the plunger or balance weight and the gear must be adjacent to each other, and therefore the blade cannot be swung back and forth. Therefore, the blade cannot be orbital (swing back and forth with vertical movement), so that it becomes impossible to increase the cutting force. Moreover, since both the guide member of the plunger and the guide member of the balance weight are put into one guide groove formed in one gear, the vertical movement of the plunger and the balance weight is not independent. The movement and the movement of the plunger are subordinate to each other and cannot be adjusted separately.
In the reciprocating tool of Patent Document 2, the center of gravity of the balance weight is positioned at the front, but the balance weight and the plunger are not shifted back and forth. Moment is generated, and vibration and noise based on the moment are generated.
Therefore, the present invention can suppress vibration without generating a backward or forward moment, can be used in combination with an orbital motion mechanism that increases cutting force, and can adjust the mechanism for suppressing vibration. Therefore, the main object is to provide a reciprocating cutting tool that can further suppress vibration.

In order to achieve the above object, the invention according to claim 1 is a motor, a rod equipped with a blade, and a reciprocating mechanism for reciprocating the blade by converting the rotation of the motor into a reciprocating motion of the rod. And a counterweight that reciprocates along the direction of reciprocation of the rod outside the range of reciprocation of the rod and the blade, and at least part of the counterweight is reciprocating of the rod The counterweight reciprocates independently of the reciprocating motion of the rod by the reciprocating mechanism.
According to a second aspect of the present invention, in the above invention, the counterweight is reciprocated by a counterweight driving eccentric cam, and a part of the counterweight sandwiches the rod, and the counterweight driving eccentric cam It protrudes to the opposite side of.
The invention according to claim 3 is the above invention, wherein the counterweight has a weight portion and a plate portion that supports the weight portion,
The plate portion has a plate base portion along the reciprocating direction of the rod and a weight support portion protruding from the plate base portion.
According to a fourth aspect of the present invention, in the above invention, a counterweight guide for guiding the counterweight is provided.
The invention according to claim 5 is the above invention, wherein the reciprocating mechanism reciprocates with a rod driving eccentric cam rotated by the motor and the rod driving eccentric cam, and supports the end of the rod. And a slider.

According to the first aspect of the present invention, the reciprocating motion of the rod and the reciprocating motion of the counterweight can be adjusted separately, and the rod can be swung to make the blade perform an orbital motion. In addition, there is an effect that the counterweight can be operated in a state in which generation of a backward or forward moment is prevented to appropriately suppress vibration and noise.
According to the second aspect of the invention, in addition to the above effect, the center of gravity of the counterweight can be arranged on the extension line of the reciprocating locus of the rod or in the adjacent position thereof, and the moment of the backward or forward moment can be increased. There is an effect that generation of noise and vibration can be suppressed by preventing generation.
Further, according to the invention described in claim 3, in addition to the above-described effects, the center of gravity of the counterweight can be arranged on the extension line of the reciprocating locus of the rod or in the adjacent position with a simple configuration. There is an effect that generation of noise and vibration can be suppressed.
In addition, according to the invention described in claim 4, in addition to the above-described effect, it is possible to further suppress the generation of noise and vibration by stabilizing the reciprocation of the counterweight.
According to the fifth aspect of the invention, in addition to the above-described effect, the rod can be easily swung, and the rod is not reciprocated behind the slider so that a space is created. There is an effect that it is easy to arrange the weight at a position effective for suppressing vibration noise.

It is a center longitudinal cross-sectional view of the jigsaw which concerns on this invention. FIG. 2 is an enlarged view of the front part of FIG. 1. It is the sectional view on the AA line of FIG.1 and FIG.2. FIG. 3 is a cross-sectional view taken along line BB in FIG. 1 and FIG. 2.

  Hereinafter, embodiments of the present invention and modifications thereof will be described with reference to the drawings as appropriate. Note that the present invention is not limited to these forms and modifications.

FIG. 1 is a central longitudinal sectional view of a jigsaw 1 as an example of a reciprocating cutting tool, FIG. 2 is a front enlarged view of FIG. 1, and FIG. 4 is a cross-sectional view taken along the line BB. 1 and FIG. 2 is the front of the jigsaw 1, the top of FIG. 1 and FIG. 2 is the top of the jigsaw 1, the right of FIGS. 3 and 4 is the left of the jigsaw 1, and FIG. The upper part of FIG. 4 is the jigsaw 1.
The jigsaw 1 swings a power unit 2, a power transmission unit 4 as a reciprocating mechanism, a rod 8 that moves a mounted blade 6 up and down (up and down reciprocating operation), and a blade 6 that moves up and down. It has an orbital motion mechanism 10 that moves and moves on an elliptical locus, a counterweight 12 for a blade 6 and a rod 8 that move up and down, and a base 14.

The power unit 2 includes an electric motor 20. The rotating shaft 22 of the motor 20 is disposed at the front portion of the motor 20. Teeth are formed at the tip of the rotating shaft 22.
The motor 20 is accommodated in the motor housing 24.

  The power transmission unit 4 includes an intermediate gear 30 having teeth meshing with the teeth of the tip of the rotary shaft 22, a crank plate 32 disposed on the front side of the intermediate gear 30, and the front and rear passing through the central portion of the intermediate gear 30 and the crank plate 32. A support shaft 34 along the direction, a guide roller 36 attached so as to protrude forward from the front peripheral edge of the crank plate 32, a slider 38 that reciprocally moves the guide roller 36 to the left and right, and a vertical movement of the slider 38 It has a guide block 40 that accepts it.

The intermediate gear 30 is disposed above the rotation shaft 22 and can rotate around the support shaft 34. Bearings 41 and 41 are interposed between the intermediate gear 30 and the support shaft 34. The intermediate gear 30 is formed such that the first eccentric boss portion 30b protrudes forward from the front portion of the disk-shaped base portion 30a, and the second eccentric boss portion 30c protrudes rearward from the rear portion of the base portion 30a. The first eccentric boss portion 30b and the second eccentric boss portion 30c are eccentric to the same side with respect to the rotation center (support shaft 34) of the intermediate gear 30, and the first eccentric boss portion 30b is the second eccentric boss portion 30c. More eccentric than. The teeth of the intermediate gear 30 are formed on the peripheral surface of the base portion 30a. Since the diameter (number of teeth) of the base portion 30 a is larger than the diameter (number of teeth) of the rotating shaft 22 of the motor 20, the rotation of the rotating shaft 22 is decelerated by the intermediate gear 30.
The crank plate 32 is attached to a front end portion of the intermediate gear 30 (first eccentric boss portion 30 b), and can rotate around the support shaft 34 together with the intermediate gear 30.
The support shaft 34 is accommodated between the front gear housing 44a and the rear gear housing 44b, and is fixed to the rear gear housing 44b via the bush 42. The upper portions of the front gear housing 44 a and the rear gear housing 44 b are accommodated in the main body housing 46. The upper portion of the main body housing 46 is formed in a loop shape and is formed as a handle 47. The handle 47 houses a switch 48 and a trigger 49 for switching the switch 48. The lower part of the trigger 49 is exposed from the handle 47 (toward the loop). The switch 48 is electrically connected to the motor 20 and a power cord (not shown) by a lead wire (not shown).

The guide roller 36 is attached at a position eccentric with respect to the rotation center of the crank plate 32. The guide roller 36 is eccentric to the opposite side to the first eccentric boss portion 30b (arranged so as to have an angle of 180 ° with the first eccentric boss portion 30b). The guide roller 36 is rotatably supported by a shaft 32a integrated with the crank plate 32, which is attached so as to protrude forward from the front portion of the peripheral edge portion of the crank plate 32, and can be rotated to the left and right. .
The slider 38 is a horizontally long member extending in the left-right direction. The slider 38 has a groove portion with a U-shaped cross section that extends in the left-right direction and opens rearward. A guide roller 36 is placed in the groove portion. The guide roller 36 can move along the groove portion by rotating in the groove portion of the slider 38.
On both the left and right sides of the groove portion of the slider 38, there are provided protruding edges that protrude outward. In addition, support pieces 50 and 50 projecting downward are provided on the left and right sides at the center of the lower surface of the slider 38 (below the groove portion). ing.
The guide block 40 is a member having left and right guide groove portions 40a having a U-shaped cross section opened inward. Each guide groove 40a has a front wall portion, a side wall portion, and a rear wall portion (the front wall portion is shown in FIG. 3).
The guide block 40 is fixed to the front gear housing 44 a via bolts 52 and 52.
Each guide groove 40a is provided with a left or right protruding edge of the slider 38, and the slider 38 is combined with the guide block 40 so as to move up and down while being guided by the guide grooves 40a and 40a. Yes.
A single support shaft 54 is inserted in each support piece 50 of the slider 38 along the left-right direction. The diameter of the hole of each support piece 50 is equal to the diameter of the support shaft 54, and the support shaft 54 is fixed to the support pieces 50 and 50.
When the crank plate 32 rotates and the guide roller 36 is displaced (revolved), the vertical displacement component of the guide roller 36 is transmitted to the slider 38. Therefore, the slider 38 moves up and down along the guide block 40 via the guide roller 36. The displacement component in the left-right direction during the revolution of the guide roller 36 is not transmitted to the slider 38 as the guide roller 36 rotates in the slider 38 and reciprocates left and right.

The rod 8 is a member in the shape of a prism that extends vertically (a quadratic prism having two surfaces along the front and back and two surfaces along the left and right), and has a hole in the rod upper end 60, and supports the slider 38 in the hole. A shaft 54 is passed. The diameter of the hole and the diameter of the support shaft 54 are equal, and the hole and the support shaft 54 are not fixed to each other. The rod 8 is attached to the slider 38 so as to be swingable around the support shaft 54, and the slider 38 supports the upper end portion of the rod 8 so as to be swingable. The distance between the support pieces 50 and 50 of the slider 38 is the same as the left and right width of the upper end of the rod 8, and the rod 8 (the left and right surfaces) are in contact with the corresponding support piece 50 (the inner surface). Shaking in is prevented.
The rod 8 is housed in the front gear housing 44a through the bush 62 in a state allowing predetermined swinging and vertical movement. The bush 62 has a cylindrical shape and is disposed so that the inner surface thereof is adjacent to the lower outer surface of the rod 8.
From the lower surface of the rod 8, a chuck hole that can receive and hold the upper end portion 6 a of the blade 6 is formed.
On the front side of the rod 8, a restriction roller 64 for restricting the forward swing of the rod 8 is disposed. The restriction roller 64 is attached to the tip of the leaf spring 66 and is always pressed against the front surface of the rod 8 with an appropriate pressing force. The leaf spring 66 is fixed together with the guide block 40 by bolts 52.

The orbital movement mechanism 10 is arranged in a cam plate 70 that moves up and down in conjunction with the second eccentric boss portion 30 c of the intermediate gear 30, a holder 72 that is disposed below the cam plate 70, and an upper side of the holder 72. A switching lever 74 and a back roller 76 that is rotatably supported by the holder 72 via a shaft 75 are provided.
The cam plate 70 is a plate-like member that extends vertically and horizontally, and has a hole having the same size as the second eccentric boss portion 30c in the upper portion, and the second eccentric boss portion 30c enters the hole. Yes. When the intermediate gear 30 rotates and the second eccentric boss 30c rotates, the cam plate 70 also rotates (up and down or left and right) around the upper hole. Since the amount of eccentricity of the second eccentric boss portion 30c is relatively small, the amount of movement of the cam plate 70 is also relatively small.
The holder 72 includes a J-shaped hold part 72a that bends forward and an arm piece 72b that extends rearward from the upper part of the hold part 72a. The holder 72 is swingably supported by a shaft 72c at the upper end portion of the hold portion 72a. The shaft 72c is fixed to the rear gear housing 44b. A back roller 76 is disposed at the lower front portion of the hold portion 72a. Further, the lower end portion of the cam plate 70 can contact the upper side of the arm piece 72b. By the vertical movement of the cam plate 70, the lower end portion of the cam plate 70 is repeatedly pressed by the arm piece 72b, and the holder 72 swings.
The switching lever 74 is a semi-cylindrical member extending in the left-right direction. When operated so that the curved surface is down (the plane is up), the curved surface hits the upper part of the arm piece 72b, and the holder 72 cannot swing. Be regulated. On the other hand, when the switching lever 74 is operated so that the curved surface is on the upper side, the switching lever 74 is separated from the upper portion of the arm piece 72b and allows the holder 72 to swing.
The back roller 76 can rotate along the rear side of the blade 6 and can push the blade 6 from the rear.
When the switching lever 74 is switched so as to allow the holder 72 to swing, the mounting position of the second eccentric boss 30c and the guide roller 36 is eccentric to the opposite side, so that when the rod 8 moves upward, the cam When the plate 70 descends, the back roller 76 swings forward through the holder 72, and the rod 8 moves downward, the cam plate 70 rises away from the holder 72, and the back roller 76 moves from the swing forward position. Return to the back swing start position. Therefore, the back roller 76 pushes the blade 6 forward as the blade 6 rises, and does not push the blade 6 when the blade 6 descends, but moves the blade 6 orbitally.

  The counterweight 12 includes a plate 80 as a plate portion that moves up and down in conjunction with the first eccentric boss portion 30 b of the intermediate gear 30, and a weight 82 as a weight portion supported by the plate 80.

The plate 80 has a cam plate portion 84 (plate base portion) that extends in the vertical and horizontal directions, and a horizontal weight attachment portion 86 (weight support portion) that protrudes forward from the upper portion of the cam plate portion 84.
The cam plate portion 84 has a cam hole 88 at the center. Horizontal cam pieces 90, 90 projecting rearward are provided above and below the opening of the cam hole 88. The cam pieces 90, 90 are in contact with the upper part or the lower part of the outer surface of the first eccentric boss part 30b. The left and right sizes of the cam hole 88 are such that the first eccentric boss 30b can be rotated (moved in the left-right direction). That is, the maximum eccentric portion of the first eccentric boss 30b is left (right). ), The first eccentric boss 30b is sized so that it can be positioned in the cam hole 88.
When the intermediate gear 30 rotates and the first eccentric boss portion 30 b is displaced, the vertical displacement component of the first eccentric boss portion 30 b is transmitted to the cam pieces 90, 90, and the plate 80 moves up and down together with the weight 82. The displacement component in the left-right direction of the first eccentric boss 30b is not transmitted to the plate 80 as the first eccentric boss 30b slides in the cam hole 88 along the cam pieces 90, 90.
The weight attaching portion 86 of the plate 80 is disposed so that there is a gap even when it is closest to the rod 8 and the slider 38 (the state shown in the figure), and moves up and down outside the range of vertical movement of the rod 8 and slider 38. Is arranged. Note that the upper portion of the front gear housing 44 a is located between the weight attaching portion 86 and the rod 8. Further, the weight attaching portion 86 of the plate 80 is not disposed below the rod 8 but moves up and down outside the range of vertical movement of the blade 6.

The weight 82 is a block-shaped metal member, and is mounted by inserting bolts 92 and 92 from below with the weight 82 mounted on the upper side of the weight mounting portion 86 of the plate 80.
The weight 82 is disposed above the rod 8.
The weight of the weight 82 is set as follows. That is, the weight of the weight 82 and the plate 80 (total weight of members moved up and down based on the first eccentric boss portion 30b) and the weight of the rod 8, blade 6 and slider 38 (members moved up and down based on the guide roller 36). The total weight) is set to be balanced.
The weight 82 and a part of the weight attaching portion 86 are arranged in front of the rod 8, that is, protrude to the front side of the rod 8 on the opposite side across the rod 8 and the side where the first eccentric boss portion 30 b is arranged. The center position (center of gravity position) of the weight 82 in the front-rear direction is disposed on the front side of the center position of the rod 8 in the front-rear direction. With such an arrangement, the position of the center of gravity when the weight 82 and the plate 80 are combined is substantially directly above the rod 8. That is, at least a part of the counterweight 12 is arranged so as to intersect with an extension line (reference line) of the trajectory of the vertical movement of the rod 8 (considering swinging). It is arranged on the extension line of the movement trajectory or in the adjacent location.
Further, on the front side of the weight 82, a metal guide plate 94 extending in the vertical and horizontal directions is arranged. The guide plate 94 has a rear surface (counter weight guide surface) corresponding to the front surface (plane) of the weight 82, and the front surface of the weight 82 is in contact with the rear surface of the guide plate 94. The guide plate 94 is attached to the main body housing 46 by fixing the lower end portion to the main body housing 46. The guide plate 94 is disposed in front of the front gear housing 44a.

The first eccentric boss 30b and the mounting position of the guide roller 36 are eccentric to the opposite side. Therefore, when the rod 8 moves upward, the counterweight 12 moves downward (as shown in the figure), and when the rod 8 moves downward, the counterweight 12 moves upward. Move up and down (in phase). Therefore, the rod 8 and the weight attaching portion 86 and the weight 82 of the counterweight 12 move up and down so as to have a symmetrical positional relationship with respect to an intermediate horizontal plane. The weight attaching portion 86 of the counterweight 12 is disposed above the rod 8 and is spaced from the rod 8 and the slider 38, so that the counterweight 12 does not contact the blade. 6 and the rod 8 move up and down outside the range of vertical movement.
Further, the counter weight 12 (the weight attaching portion 86 and the weight 82 of the plate 80) is disposed above the rod 8 so as to intersect with the vertical movement direction of the rod 8.
The weight of the rod 8 and the weight of the counterweight 12 are substantially equal.
For these reasons, the vibration generated by the vertical movement of the rod 8 is canceled and suppressed by the vertical movement of the counterweight 12.
The crank plate 32 and the guide roller 36 (rod driving eccentric cam) and the first eccentric boss portion 30b (counterweight driving eccentric cam) of the intermediate gear 30 can be set separately in the amount of eccentricity, phase, and the like. The vertical movement of the rod 8 by the guide roller 36 is independent of the vertical movement of the counterweight 12 by the first eccentric boss portion 30b. In other words, in the jigsaw 1, the counterweight 12 is moved up and down by a second eccentric cam (counterweight drive eccentric cam) different from the first eccentric cam (rod drive eccentric cam) that moves the rod 8 up and down. It is moving.
The counterweight 12 is moved up and down while the front surface of the weight 82 is in contact with the rear surface of the guide plate 94. Even if the weight 82 receives a forward moment, it is supported by the guide plate 94 in the vertical direction. The vertical movement along is maintained.

  The base 14 is a member having a substantially flat bottom surface, and is installed by connecting the upper part thereof to the lower part of the rear gear housing 44b.

An operation example of such a jigsaw 1 will be described.
The operator sets the blade 6 on the rod 8 in a stopped state so that the saw blade is in front, and touches the lower surface front portion of the base 14 to the workpiece. When the power cord is connected to the power source and the handle 47 is gripped and the switch 48 is turned on by operating the trigger 49, power is supplied to the motor 20, the rotating shaft 22 rotates, the intermediate gear 30 and the crank The plate 32 rotates as a unit.
As the crank plate 32 rotates, the rod 8 moves up and down via the guide roller 36 and the slider 38. The counterweight 12 moves up and down by the rotation of the first eccentric boss 30b of the intermediate gear 30. When the cam plate 70 is moved up and down by the rotation of the second eccentric boss 30 c of the intermediate gear 30 and the switching lever 74 is switched to the swing allowable position, the back roller 76 swings through the holder 72. These vertical movements and swings are performed the same number of times (once every rotation of the intermediate gear 30 and the crank plate 32).
The swinging back roller 76 pushes the blade 6 forward as the blade 6 rises, and does not push the blade 6 when the blade 6 descends, but makes the blade 6 orbital.

The rod 8 moves up and down in a state in which vibration is suppressed by a counterweight 12 that moves up and down symmetrically.
When the operator pushes the handle portion 38 forward while the rod 8 or the blade 6 is operating, the saw blade on the front side of the blade 6 that moves up and down hits the workpiece, and the workpiece is cut with the front-rear direction as the cutting direction. To go. If the workpiece is cut while the blade 6 is pushed by the back roller 76 and orbitally moved, the blade 6 is moved upward and pushed forward, so that the cutting force is larger than the case where the orbital movement is not performed (pressing operation). Becomes lighter). When the orbital movement is performed, the blade 6 pushed forward receives the elastic force of the leaf spring 66 via the restriction roller 64, and the restriction roller 64 restricts the excessive travel forward. When cutting the workpiece, the blade 6 receives a backward force (cutting resistance) from the workpiece.
When the operator turns off the switch 48 by operating the trigger 49, the rotating shaft 22 of the motor 20 stops and various vertical movements and swings stop.

The above jigsaw 1 includes a motor 20, a rod 8 equipped with a blade 6, a power transmission unit 4 that moves the blade 6 up and down by converting the rotation of the motor 20 into the vertical movement of the rod 8, the rod 8 and the blade 6. And a counterweight 12 that moves up and down along the direction of vertical movement of the rod 8, and at least a part of the counterweight 12 is an extension line of the locus of vertical movement of the rod 8. The counterweight 12 moves up and down independently of the up and down movement of the rod 8 by the power transmission unit 4.
Therefore, the vertical movement of the counterweight 12 can be adjusted without depending on the vertical movement of the rod 8, and the generation of vibration and noise due to the vertical movement of the rod can be further suppressed. Further, the rod 8 can be moved up and down without depending on the up and down movement of the counterweight 12. Even if the rod 8 can be swung in addition to the up and down movement to make the blade 6 orbital, It can be operated in a state in which the generation of a moment in the rearward or forward direction is prevented, and vibration and noise that can be generated based on the vertical movement of the rod 8 and the like can be suppressed. Further, since the stroke amount of the rod 8 and the stroke amount of the counterweight 12 can be set separately, it is possible to generate a sufficient centrifugal force with the lighter counterweight 12 and effectively suppress vibration and noise.

The counterweight 12 moves up and down by the first eccentric boss portion 30b, and a part of the counterweight 12 protrudes to the opposite side of the first eccentric boss portion 30b with the rod 8 interposed therebetween.
Therefore, while driving the counterweight 12 independently of the rod 8, the center of gravity of the counterweight 12 can be arranged on the extension line of the vertical movement locus of the rod 8, or can be arranged as close as possible to the extension line. Generation of a moment in the rod 8 or the counterweight 12 in the rearward or forward direction can be prevented, and generation of noise and vibration in the jigsaw 1 can be suppressed.
Further, the counterweight 12 includes a weight 82 and a plate 80 that supports the weight 82. The plate 80 includes a cam plate portion 84 that extends in the vertical movement direction of the rod 8 and a weight attachment that protrudes from the cam plate portion 84. Part 86.
Therefore, the center of gravity of the counterweight 12 can be arranged in the vertical movement direction of the rod 8 with a simple configuration, and noise and vibration can be suppressed.
Furthermore, a guide plate 94 for guiding the counterweight 12 is provided.
Therefore, it is possible to effectively suppress the occurrence of noise and vibration by making the vertical movement of the counterweight 12 stable (by preventing the occurrence of a moment that deviates from the designed vertical movement range). .
In addition, the power transmission unit 4 includes a crank plate 32 and a guide roller 36 rotated by the motor 20, and a slider 38 that reciprocates by the crank plate 32 and the guide roller 36 and supports the upper end portion of the rod 8.
Therefore, the rod 8 can be easily oscillated, and the rod 8 is not disposed above the slider 38 and a space is created, so that the counterweight 12 (a part of) can be easily disposed.

In addition, this invention is not limited to the said form, For example, the following changes can be given suitably.
The intermediate gear and the crank plate may be supported by different shafts. The intermediate gear and the crank plate may be rotated by separate drive sources. The intermediate gear and the crank plate may be integrated. The various eccentric bosses may be separate from each other, supported by different shafts, or driven by separate drive sources.
The reciprocating direction may be the front-rear direction, and a part of the counterweight may be arranged behind the rod. At this time, the counterweight driving eccentric cam can be disposed above the rod, and a part of the counterweight can be projected below the rod.
The weight may be fixed by adhering to the plate. The plate and the weight may be integrated. The plate base portion and the weight attaching portion of the plate may be separated and combined with each other. The plate and weight may be made of synthetic resin.
The counterweight guide may be a curved surface that matches the front surface of the weight, may be a protrusion that enters a groove formed in the weight, may guide a portion other than the weight, and may be various types including the main body housing. It may be the inner surface of the housing.
A bearing may be added to the support shaft between the slider and the rod, and the bearing may be placed in the guide groove of the guide block.
About a rod, it can be set as columnar shape, elliptical column shape, hexagonal column shape, etc.
The blade may have a blade other than a saw blade.
Instead of power supply by the power cord, power supply by a battery may be used, and the battery may be mounted on a main body housing or the like.

  1 ・ ・ Jigsaw (reciprocating cutting tool), 4 ・ ・ Power transmission part (reciprocating mechanism), 6 ・ ・ Blade, 8 ・ ・ Rod, 12 ・ ・ Counter weight, 20 ・ ・ Motor, 30 ・ ・ Intermediate gear, 30b ··· First eccentric boss portion (eccentric cam for counterweight drive), 32 · · Crank plate (part of eccentric cam for rod drive), 36 · · Guide roller (part of eccentric cam for rod drive), 38 ..Slider, 80 .. Plate (plate part), 82 .. Weight (weight part), 84 .. Cam plate part (plate base part), 86 .. Weight attachment part (weight support part), 94. (Counter weight guide).

Claims (5)

A motor,
A rod fitted with a blade;
A reciprocating mechanism for reciprocating the blade by converting rotation of the motor into reciprocating movement of the rod;
A counterweight that reciprocates along the direction of reciprocation of the rod outside the range of reciprocation of the rod and the blade,
At least a part of the counterweight is arranged so as to intersect with an extension line of a reciprocating locus of the rod,
The reciprocating cutting tool characterized in that the counterweight reciprocates independently of the reciprocating movement of the rod by the reciprocating mechanism. The counterweight reciprocates by a counterweight drive eccentric cam,
2. The reciprocating cutting tool according to claim 1, wherein a part of the counterweight protrudes to the opposite side of the eccentric cam for driving the counterweight with the rod interposed therebetween. The counterweight has a weight portion and a plate portion that supports the weight portion,
3. The reciprocating cutting tool according to claim 1, wherein the plate portion includes a plate base portion along a reciprocating direction of the rod and a weight support portion protruding from the plate base portion. . The reciprocating cutting tool according to any one of claims 1 to 3, wherein a counterweight guide for guiding the counterweight is provided. The reciprocating mechanism is
An eccentric cam for rod driving rotated by the motor;
The reciprocating cutting tool according to any one of claims 1 to 4, further comprising a slider that reciprocates by the eccentric cam for driving the rod and supports an end portion of the rod.

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