JP2011115912A - Reciprocating tool - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the vibration of a tool body generated in cutting work of a reciprocating tool. <P>SOLUTION: This reciprocating tool has a balance weight 10 reciprocating a motion (opposite phase)dislocated by a 180-degree phase to a plunger 7 by interlocking with reciprocating motion of the plunger 7. The balance weight 10 is constituted of a base part 10c and a weight part 10d, reducing the vibration of the tool body. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a reciprocating tool for converting a rotary motion of a motor into a reciprocating motion of a tip tool and performing operations such as cutting.

  A conventional reciprocating tool will be described with reference to FIGS.

  As shown in FIG. 8, a jigsaw 1A, which is a reciprocating tool, has a motor 2 that is an electric motor built in a housing 1, a handle 3 is provided above the housing 1, and a switch 4 is provided on the handle 3. Have. The housing 1 incorporates a reciprocating conversion mechanism 5 for converting the rotational force of the motor 2 into a reciprocating motion in the vertical direction shown in the figure. A plunger 7 for holding a cutter 6 is attached to the reciprocating conversion mechanism 5. It has been. The reciprocating conversion mechanism unit 5 includes a speed reducing unit 5 a for reducing the rotation of the motor 2, and a converting unit 5 b for converting the rotation transmitted from the speed reducing unit 5 a into the reciprocating motion of the plunger 7. 1 is supported. Further, a base 9 serving as a guide member at the time of cutting work is attached below the housing 1.

  In order to drive the jigsaw 1A having such a configuration, when the operator grips the handle 3 and turns on the switch 4, the motor 2 rotates, and this rotation is converted with the speed reducing unit 5a constituting the reciprocating conversion mechanism unit 5. The portion 5 b is converted into a reciprocating motion in the vertical direction of the housing 1, and the plunger 7 holding the cutter 6 is reciprocated by the converting portion 5 b, and the cutter 6 reciprocates together with the plunger 7. A base 9 that comes into contact with the workpiece is attached to the housing 1 or the holder 4, and the base 9 slides on the workpiece while the blade 6 is reciprocated, so that the cutting work can be performed. ing.

  Here, a balance weight 10 is attached to the reciprocating conversion mechanism 5 so as to be positioned near the plunger 7 and shifted in the front-rear direction of the drawing. As shown in FIGS. 10 and 11, two pin portions 8 a are fixed to the holder 8, and this pin portion 8 a is inserted into a long hole portion 10 a provided in the balance weight 10. When the motor 2 rotates, the balance weight 10 reciprocates with a phase (opposite phase) shifted by 180 degrees from the plunger 7 to relieve the vertical inertia force generated by the reciprocating motion of the plunger 7. It is configured to reduce vibration.

JP 2006-175524 A

  In the above-described reciprocating tool (jigsaw 1A), the vertical reciprocating motion of the plunger 7 that holds the blade 6 and the balance weight 10 that reduces the inertial force of the plunger 7 is not on the same axis, that is, FIG. 10 and FIG. As shown in FIG. 3, the balance weight 10 is arranged so as to be displaced in the front-rear direction (the left-right direction in the drawing) with respect to the plunger 7. Therefore, as shown in FIG. 10, when the plunger 7 moves to the top dead center side and the balance weight 10 moves to the bottom dead center side, the inertia force indicated by the arrow A is generated on the plunger 7 and the inertia force indicated by the arrow B is generated on the balance weight 10. As a result, the rotational force indicated by the arrow C is generated. Conversely, as shown in FIG. 11, when the plunger 7 moves to the bottom dead center and the balance weight 10 moves to the top dead center, the inertia force indicated by the arrow A ′ is applied to the plunger 7 and the inertia force indicated by the arrow B ′ is applied to the balance weight 10. As a result, a rotational force indicated by an arrow C ′ is generated.

  Accordingly, when the plunger 7 and the balance weight 10 move to the top dead center side and the bottom dead center side, a rotational force is generated, and this rotational force causes vibration in the reciprocating tool body.

  An object of the present invention is to provide a reciprocating tool that relieves the inertial force (rotational force) described above and reduces vibration of the main body.

  In order to solve the above problems, the present invention includes an electric motor, a housing that houses the electric motor, a reciprocating motion conversion mechanism that is incorporated in the housing and converts the rotational motion of the electric motor into a reciprocating motion, and a reciprocating motion to the housing. A blade that is held in such a manner as to reciprocate in the vertical direction of the housing by using the rotational force of the electric motor as a power source, cuts the cutting material, a plunger that holds the blade, and is displaced in the front-rear direction with respect to the plunger. A reciprocating tool having a balance weight that reciprocates in the vertical direction between the top dead center and the bottom dead center in reverse phase, wherein the balance weight moves up and down in reverse phase with the plunger, and the gear eccentric part A base portion that is guided from above and below and a weight portion that is provided in front of the base portion and is made of a material having a specific gravity greater than that of the base portion. And wherein the Rukoto.

  By adopting such a configuration, it is possible to make the weight part, which is heavy among the balance weights, approach the plunger side, so that the rotational moment generated by the reciprocation of the plunger and the balance weight is reduced, and the housing Vibration can be reduced.

  Further, the weight portion may be provided using a fixing means as a separate body in front of the base portion. By adopting such a configuration, the balance weight is configured as a separate member made of a material having a different specific gravity depending on each member, so that the center of gravity of the entire balance weight is alternatively placed on the side of the center of gravity of the plunger. Since it can be made to approach, an operativity favorable for an operator can be provided. Further, by attaching the base portion and the weight portion as separate members, it is possible to improve the strength of the boundary surface between the members as compared with the case where they are integrally formed.

  Moreover, you may make it a structure which provides a wall part in the width direction edge part ahead of the said balance weight along the up-and-down reciprocating motion direction of the said plunger.

  With such a configuration, the center of gravity position of the entire balance weight can be brought closer to the plunger center of gravity position, so that a reciprocating tool with even lower vibration can be provided.

  Moreover, you may make it the structure which the central axis of the up-down direction of the said plunger is located in the said base part side from the same plane in the anti-base part side end surface of the said wall part. By adopting such a configuration, the plunger is configured to be covered with the balance weight in a U shape or a U shape when viewed from above. The center of gravity position of each of the plungers and the balance weight can be designed to be substantially the same straight line, and the rotational moment generated by the difference in the center of gravity positions of the plungers and the balance weight can be minimized.

  The balance weight may have an elastic material at an upper end portion or a lower end portion with respect to the upper and lower reciprocating directions. With such a configuration, damage to the balance weight member can be reduced, and high-frequency noise generated near the dead center can be suppressed.

  According to the present invention, the balance weight is configured to approach the plunger, and the positions of the balance weight gravity center and the plunger gravity center are brought close to each other. It is possible to provide a reciprocating tool that can reduce the rotational force and has less vibration.

It is sectional drawing which fractures | ruptures and shows a part of Embodiment 1 which applied the reciprocating tool of this invention to the jigsaw 1A. It is explanatory drawing of the balance weight of Embodiment 1 which applied the reciprocating tool of this invention to the jigsaw 1A. It is explanatory drawing which shows the effect | action of Embodiment 1 which applied the reciprocating tool of this invention to the jigsaw 1A. It is a partial cross section figure in case the plunger of the reciprocating tool of this invention exists in a top dead center. It is a partial cross section figure in case the plunger of the reciprocating tool of this invention exists in a bottom dead center. It is explanatory drawing which shows the structure of Embodiment 2 which applied the reciprocating tool of this invention to the jigsaw 1A. It is explanatory drawing of the balance weight of Embodiment 2 which applied the reciprocating tool of this invention to the jigsaw 1A. It is a partial cross section figure in case the plunger of the conventional reciprocating tool exists in a top dead center. It is a partial cross section figure in case the plunger of the conventional reciprocating tool exists in a bottom dead center. It is principal part sectional drawing which shows the inertia force when the plunger of the conventional reciprocating tool moves to the top dead center. It is principal part sectional drawing which shows the inertial force at the time of the plunger of the conventional reciprocating tool moving to the bottom dead center.

  Hereinafter, an embodiment in which the reciprocating tool of the present invention is applied to a jigsaw will be described with reference to FIGS. FIG. 1 is a sectional view showing a part of a jigsaw 1A to which the reciprocating tool of the present invention is applied. FIG. 2 is an exploded perspective view of a balance weight of the jigsaw 1A to which the reciprocating tool of the present invention is applied. In the drawings, parts having the same functions as those of the prior art are denoted by the same reference numerals.

As shown in FIG. 1, the jig 2 has a motor 2 that is a rotational drive source accommodated in a housing 1, and a pinion 20 is provided on an output shaft 2 a of the motor 2. A spindle 15 parallel to the output shaft 2 a is fixed to the gear holder 16. A gear 14 is rotatably supported on the spindle 15, and the gear 14 meshes with a pinion 20. Further, a gear eccentric portion 14a is provided on the front side of the main body of the gear 14 (right side in the figure). The balance weight 10 has an elliptical hole portion 10b, is arranged so that the elliptical hole portion 10b and the gear eccentric portion 14a are fitted, and is supported so as to be able to reciprocate in the vertical direction of the main body (vertical direction in the figure). The balance weight 10 includes a base portion 10c and a weight portion 10d, and the weight portion 10d is made of a material having a higher density than the base portion 10c. The weight portion 10d is fixed to the base portion 10c, and the weight portion 10d protrudes from the base portion 10c to the front side of the main body within a range that does not interfere when the weight holder 8 rotates. The eccentric amount of the gear eccentric portion 14 a from the spindle 15 becomes the reciprocating amount of the balance weight 10.
Further, a weight holder 8 for holding the balance weight 10 is fixed to the front side of the gear 14 by a bolt 19, and is opposite to the gear eccentric part 14 a with respect to the front side of the weight holder 8 and the spindle 15. A needle roller 17 is press-fitted at the position. A sleeve 11 is rotatably supported on the outer periphery of the needle roller 17.
A plunger 7 is supported on the front side of the main body so as to be reciprocally movable in the vertical direction of the main body. A connector 13 having a U-shaped cross section is fixed to the plunger 7, and a sleeve 11 is slidably engaged with the connector 13. A cutter 6 as a tip tool is detachably attached to the lower end of the plunger 7, and the cutter 6 passes through an opening 9 a of a base 9 that is horizontally attached to the lower portion of the housing 1 and is substantially perpendicular to the lower side of the base 9. It extends to. The eccentric amount of the needle roller 17 from the spindle 15 becomes the reciprocating amount of the plunger 7.
A handle portion 3 is provided above the housing 1, and a switch mechanism 4 is provided on the handle portion 3.
The reciprocating motion conversion mechanism 5 is constituted by the pinion 20, the gear 14, the weight holder 8, the needle roller 17, the sleeve 11, and the connector 13 described above, and the rotational motion of the motor 2 is reciprocated between the plunger 7 and the blade 6 as will be described later. Convert to motion.

  Next, the operation of the housing 1 to which the present invention is applied will be described. After an operator connects the power cord 18 to an external power source (not shown), the handle 2 is gripped and the switch mechanism 4 is operated to supply power to the motor 2 so that the motor 2 rotates. The rotation of the motor 2 is transmitted to the gear 14 via the pinion 20 and decelerated, and the gear 14 rotates around the spindle 15. The needle roller 17 and the sleeve 11 rotate while sliding along the connector 13 with the amount of eccentricity from the spindle 15 as a diameter, whereby the plunger 7 reciprocates, and the blade 6 cuts a material to be cut (not shown). Further, the gear eccentric portion 14a is guided while sliding up and down between the guide pins 21 to which the base portion 10c is fixed by rotating while sliding in the elliptical hole 10b of the base portion 10c in the balance weight 10. The balance weight 10 reciprocates. The balance weight 10 is designed to reciprocate in a phase opposite to that of the plunger 7, and thereby has a function of canceling vibration caused by the reciprocation of the plunger 7 and the blade 6.

Here, the balance weight 10 of the jigsaw 1A to which the present invention is applied will be described.
FIG. 2 is an explanatory view of the balance weight 10 of the housing 1 to which the present invention is applied, and FIG. 3 is an explanatory view of a moment generated in the housing 1. Since the plunger 7 and the balance weight 10 reciprocate in the same cycle and in opposite phases, the mass mw and the reciprocation amount dw of the balance weight 10 are expressed by the following equation (1). By designing so as to be generally satisfied, the vibration in the vertical direction of the main body generated by the reciprocating motion of the plunger 7 can be canceled.
(1) mw × dw = mp × dp
On the other hand, in order to cancel the moment generated around the center of gravity 1a of the housing 1 by the reciprocating motion of the plunger 7 and the balance weight 10, it is necessary to satisfy the following equation (2). The moment can be suppressed by bringing the difference between the distance lp from the housing gravity center 1a to the plunger gravity center 7a and the distance lw from the housing gravity center 1a to the balance weight gravity center 10a close to 0, that is, by bringing the plunger gravity center 7a and the balance weight gravity center 10a closer. It becomes possible.
(2) mw × dw × lw = mp × dp × lp
In the present invention, the balance weight 10 is composed of a base portion 10c and a weight portion 10d, and the weight portion 10d is made of a material having a specific gravity greater than that of the base portion 10c, and protrudes toward the front side of the main body. Compared to the case where the balance weight is made of a single material, the balance weight gravity center 10a can be brought closer to the plunger gravity center 7a, and vibration due to the moment generated in the housing 1 can be reduced (FIG. 4, FIG. 4). A part of the weight portion is shown in FIG. 5).

  Further, the weight portion 10d is mounted in front of the base portion 10c using a fixing means, and various means such as welding, tightening with a bolt member, and brazing can be considered as the fixing means. Further, in addition to mounting with two or more members, a unit may be integrally formed using a mold, and different specific gravity may be formed depending on the portion of the balance weight 10. Further, the weight portion 10d may be installed on the base portion 10c on the lower side (only the member below the portion 10d in FIG. 2). In this way, the balance weight center of gravity 10a can be moved not only to the plunger 7 side (front side) but also to the lower side in the vertical direction, so that a reciprocating tool having a low center of gravity and good operability can be obtained. It becomes possible to provide.

  As shown in FIGS. 6 and 7, as a second embodiment, the entire balance weight 10 is configured to surround the sliding shaft of the plunger 7, and the details will be described below. Wall portions 10e may be provided on both front end surfaces of the balance weight 10 along the up and down reciprocation of the plunger 7. As in the first embodiment, the gear eccentric portion 14a rotates while sliding in the elliptical hole 10b of the base portion 10c of the balance weight 10, whereby the base portion 10c is guided by the guide pin 21, and the base 10c or the weight portion The wall part 10e provided in 10d reciprocates integrally. The balance weight 10 is designed to reciprocate in a phase opposite to that of the plunger 7, and thereby has a function of more counteracting the vibration caused by the reciprocation of the plunger 7 and the blade 6. The wall portion 10e is not limited to a type in which the wall portion 10e is attached to the balance weight 10 formed by the base portion 10c and the weight portion 10d. For example, the base portion 10c, the weight portion 10d, and the wall portion 10e are formed by integrally forming a mold. May be formed integrally. When the balance weight 10 formed in this way is viewed from above in the plunger axial direction, it has a U shape or a U shape (see FIG. 6).

  Further, the structure of the wall portion 10e alone may be formed using a member having a curved surface or unevenness in addition to a planar member. In addition, various combinations are conceivable as materials of the base portion 10c, the weight portion 10d, and the wall portion 10e, including resin materials, aluminum materials, steel materials, zinc materials, and other rare metal materials. About the combination of the material of the base part 10d, the weight part 10d, and the wall part 10e, and a fixing means, it can select arbitrarily by mass required for balancing or required intensity | strength.

In addition, a part of the member at the upper end portion or the lower end portion may be made of an elastic material with respect to the up and down reciprocating motion direction of the balance weight 10.
The elastic material is a method of pressing the balance weight 10 with a material such as rubber, flexible resin, spring material, or rubber. In addition, the elastic body and the balance weight 10 may be molded integrally without being crimped separately.

  By adopting the above-described configuration, it is possible to suppress damage, wear, and the like due to an impact when the balance weight 10 reaches each dead center. In addition, since the elastic body can absorb vibrations, it is possible to suppress the generation of noise due to minute vibrations.

  Although the embodiment of the present invention has been described by taking the jigsaw 1A as an example, it can also be applied to other reciprocating tools such as a saver saw.

1 is a housing, 2 is an electric motor (motor), 3 is a handle, 4 is a switch, 5 is a reciprocating conversion mechanism (part), 6 is a cutter, 7 is a plunger, 8 is a holder, 9 is a base, 10 is a balance weight, 10c Is a base part, 10d is a weight part, 14 is a gear eccentric part, 21 is a guide pin

Claims (5)

An electric motor,
A housing containing the electric motor;
A reciprocating motion conversion mechanism built in the housing for converting the rotational motion of the electric motor into a reciprocating motion;
A blade that is reciprocally held in the housing and reciprocates in the vertical direction of the housing using the rotational force of the electric motor as a power source, and cuts the cutting material;
A plunger for holding the blade;
A balance weight that is displaced in the front-rear direction with respect to the plunger and reciprocates in the vertical direction between the top dead center and the bottom dead center in an opposite phase;
In a reciprocating tool having
The balance weight moves up and down in the opposite phase to the plunger, and is formed of a base portion that is transmitted from the gear eccentric portion and guided up and down, and is provided in front of the base portion and has a higher specific gravity than the base portion. Reciprocating tool characterized by having a weight part   The reciprocating tool according to claim 1, wherein the weight portion is provided in front of the base portion using a fixing means.   The reciprocating tool according to claim 1, wherein a wall portion is provided at an end in a width direction in front of the balance weight along a vertical reciprocating direction of the plunger.   The reciprocating tool according to claim 3, wherein a central axis in the vertical direction of the plunger is located closer to the base portion than the same plane in the end surface on the side opposite to the base of the wall portion.   The reciprocating tool according to any one of claims 1 to 4, wherein the balance weight has an elastic material at an upper end portion or a lower end portion with respect to a vertical reciprocating direction thereof.