JP3651086B2 - Portable cutting tool - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a portable cutting tool.
[0002]
[Prior art]
Conventionally, as shown in FIG. 6, the speed reduction block 2 in the cutting tool is housed in a speed reducer case 7, and the speed reducer case 7 separated from the main body housing 8 is fixed to the main body housing 8. The main body housing 8 is fixed to the base 6 applied to the member to be cut at the time of cutting.
[0003]
[Problems to be solved by the invention]
However, in the conventional example as described above, the speed reducer case 7 having the output shaft 4 is connected to the base 6 via the main body housing 8 of the molded product, and the main body housing 8 made of the molded product is interposed therebetween. Therefore, there is a drawback in that it is difficult to secure the perpendicularity of the saw blade 5 with respect to the base 6 because the connection error of the speed reducer case 7 with respect to the base 6 is likely to occur. In an operation circular saw or the like, an angle adjusting mechanism is provided, and the user needs to adjust the angle of the saw blade 5.
[0004]
Further, since the reduction gear case 7 is connected to the base 6 via a molded body housing 8, that is, a molded body housing 8 is interposed between the reduction gear case 7 and the base 6. Therefore, the heat generated by the speed reduction block 3 and the motor 1 cannot be radiated through the base 6, and there is a problem that the heat is trapped in the main body housing 8 of the molded product.
[0005]
The present invention aims to solve the above-mentioned problems. The first object of the present invention is to accurately ensure the perpendicularity between the saw blade and the base. The heat generated from the gear and motor is efficiently radiated through the base. It is an object of the present invention to provide a portable cutting tool for the second purpose.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, in the invention of claim 1, the motor 1, the reduction block 2 that decelerates the output of the motor 1, the reduction device case 7 that houses the reduction block 2, and the reduction device case 7 are housed. a housing 3, an output shaft 4 exiting from the deceleration block 2, a saw blade 5 attached to the output shaft 4, the portable cutting tool a consisting devoted base 6 to be cut member during cutting, the reducer case 7 The connecting arm 13 protrudes integrally, the connecting support piece 40 having the connecting hole 40a is protruded from the base 6, and the connecting hole 40a of the connecting support piece 40 and the connecting hole of the connecting arm 13 are matched to each connecting hole. A rigid base 6 and a reduction gear case 7 are directly coupled to each other by press-fitting a connection pin 41 to the rotary pin and rotatably connected to each other. Molding Therefore, the connecting error in connecting the base 6 and the speed reducer case 7 can be reduced as much as possible, and the perpendicularity between the saw blade 5 and the base 6 can be ensured accurately. it can.
[0007]
The invention according to claim 2 is characterized in that the base 6 and the speed reducer case 7 in claim 1 are made of a material having high thermal conductivity, and the heat generated from the gear or the motor 1 is reduced by the speed reducer case 7 and Heat can be efficiently radiated through the base 6.
The invention of claim 3 is characterized in that, in claim 2, the motor 1 is directly connected to the speed reducer case 7, and the accuracy of the installation position of the motor 1 with respect to the speed reduction block 2 can be improved.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
The portable cutting tool according to the present invention includes a main body 8 formed of a thin flat product as shown in FIG. 2, a lower side of the main body 8, and a cutting member when cutting the cutting member. A base 6 made of a metal material such as aluminum that is in contact with the outer surface is provided.
[0009]
A handle portion 9 is integrally provided at the rear portion of the main body 8, and a battery portion 11 to which a battery 10 is detachably attached is provided at the rear portion of the handle portion 9.
A motor 1 is installed on one side of the main body 8, and a saw blade 5 is installed on the front of the main body 8, and the saw blade 5 is connected to the motor 1 via a speed reduction block 2 provided on the other side of the main body 8. Can be driven to rotate.
[0010]
As shown in FIGS. 4 and 5, the speed reduction block 2 is housed in a speed reducer case 7 made of a metal material such as aluminum, and a motor holding portion 12 that holds the motor 1 at one end of the speed reducer case 7. Is integrally provided, and at the other end, a connecting arm 13 pivotally supported by the front end portion of the base 6 is integrally provided, and at the intermediate portion is formed in a receiving box shape and a case cover 14 is attached. A gear holding portion 15 is provided, and the speed reduction block 2 is rotatably held by the gear holding portion 15.
[0011]
As shown in FIGS. 1 and 3, a first gear 16 is disposed at one end of the gear holding portion 15 so that the whole is exposed to the outside of the reduction gear case 7, and the first gear 16 is a motor holding portion. 12 is engaged with an output gear 17 attached to the output shaft 1a of the motor 1 held by the motor 12. A second gear 19 is attached to the shaft 18 to which the first gear 16 is fixed. The second gear 19 is accommodated in the speed reducer case 7 so as to be located inward of the first gear 16. Yes. A third gear 20 is attached to an intermediate portion of the gear holding portion 15, and the second gear 19 is engaged with the third gear 20. A fourth gear 21 is arranged at the other end of the gear holding portion 15 so as to be hidden in the reducer case 7, and the third gear 20 is engaged with the fourth gear 21. Reference numeral 22 denotes a shaft that supports the third gear 20.
[0012]
The fourth gear 21 is connected to the output shaft 4. One end of the output shaft 4 is supported in a bearing provided on the case cover 14, and the other end of the output shaft 4 is outward from the outer surface of the speed reducer case 7. It is designed to protrude. As shown in FIG. 5, a cylindrical connecting cylinder 23 projects integrally from the outer surface of the reduction gear case 7 toward the side opposite to the mounting position of the case cover 14 at the portion where the output shaft 4 is disposed. A bearing is accommodated in the connecting cylinder 23, the output shaft 4 is supported by the bearing, and the tip of the output shaft 4 protrudes outward from the bearing and the connecting cylinder 23.
[0013]
As shown in FIG. 3 (b), a connecting hole 24 is provided at the lower front end of the main body 8. A connecting cylinder 23 projecting from the speed reducer case 7 is inserted into the connecting hole 24 and decelerated. The other end of the machine case 7 and the main body 8 are connected to each other. Further, the reduction gear case 7 has a connecting piece 25 projecting from the outer end of the gear holding portion 15 connected to the main body 8 by a fastener and a connecting piece 25 projecting from the outer end of the motor holding portion 12. The main body 8 is connected and fixed to each other by being connected to the main body 8 by a fixing tool.
[0014]
A disk-shaped saw blade support plate is attached to the output shaft 4 protruding from the connecting cylinder 23 of the speed reducer case 7 inserted and arranged in the connecting hole 24 of the main body 8 so as to protrude inside the main body 8. The support protrusion of the saw blade support plate is inserted into the connecting hole in the center of the saw blade 5, the pressing plate is inserted into the tip of the output shaft 4, and the fixing nut screwed into the tip of the output shaft 4 is attached. The saw blade 5 is attached to the output shaft 4 by tightening and holding the press plate with a fixing nut and holding the saw blade 5 between the press plate and the saw blade support plate.
[0015]
A reduction gear block cover 3 a as a housing 3 is attached to the other side of the main body 8 so as to cover the reduction gear case 7 in an attached state on the outer surface side of the reduction gear case 7 arranged on the other side of the main body 8. ing. The speed reducer block cover 3a as the housing 3 is provided with a lock button 26 for locking the speed reducer block 2. By pushing the lock button 26 inward, the speed reducer block 2 is locked and the output shaft 4 is locked. When the saw blade 5 is replaced, the lock button 26 is pushed inward to lock the speed reduction block 2 so that the fixing shaft is screwed to the output shaft 4. The saw blade 5 can be removed by loosening the bolt.
[0016]
The above-mentioned connecting arm 13 protrudes from the reducer block cover 3 a attached so as to cover the reducer case 7, and the tip of this connecting arm 13 is pivotally supported so that the front end portion of the base 6 does not rattle. A reduction gear case 7 that holds the motor 1 and the reduction block 2 and is attached to the other side of the main body 8 is directly coupled to the base 6. That is, a pair of connection support pieces 40 having a connection hole 40a project upward from the upper surface of the front end portion of the base 6, and a connection hole is provided in the tip of the connection arm 13 in the width direction. The tip of the connecting arm 13 is disposed between the pair of connecting support pieces 40, and the connecting hole of the connecting support piece 40 and the connecting hole of the connecting arm 13 are matched to press-fit the connecting pin 41 into each connecting hole. Thus, the tip of the connecting arm 13 is pivotally supported so that there is no backlash at the front end of the base 6 . The speed reducer case 7 and the base 6, both of which are made of a metal such as aluminum, are directly coupled, and the speed reduction block 2 and the motor 1 are connected to the base 6 via the speed reducer case 7. Here, the reduction gear case 7 and the base 6 are directly coupled to each other, and the reduction gear case 7 and the base 6 are made of a metal material such as aluminum as a material having high thermal conductivity, so that a gear or a motor is used. 1 can efficiently dissipate heat through the speed reducer case 7 and the base 6, and the heat resistance and reliability of the mechanism can be improved.
[0017]
Here, the reason why the connecting arm 13 is pivotally supported by the front end portion of the base 6 is to allow the base 6 to rotate and move with the pivotal support portion as a fulcrum. The amount of protrusion of the saw blade 5 protruding downward from the long groove 27 of the base 6 can be reduced by rotating the portion away from the main body 8, and the rear end portion of the base 6 approaches the main body 8. So that the protruding amount of the saw blade 5 protruding downward from the long groove 27 of the base 6 can be increased, and the cutting depth of the member to be cut by the saw blade 5 can be arbitrarily adjusted. It is to do. Here, when the base 6 is rotated, the base 6 is fixed at a predetermined position after the base 6 is rotated by a support member 28 provided at the rear end portion of the base 6. The support member 28 has a support bar 30 having a long hole 29 projecting upward from the rear end of the base 6, and the support bar 30 is slidably inserted into the lower portion of the main body 8. The support bar 30 can be fixed at a predetermined position by tightening the screw 31 attached to the main body 8 so as to pass through the long hole 29, and fixed at an arbitrary position obtained by rotating the base 6 by a predetermined angle. Can be done.
[0018]
From the front end of the handle portion 9 provided on the main body 8, a protrusion 32 is integrally protruded toward both sides orthogonal to the main body 8, and an auxiliary grip 33 is formed by the protrusion 32.
A fixed cover 34 is provided at the front portion of the main body 8, and the substantially upper half of the saw blade 5 is covered by the fixed cover 34. The substantially lower half of the saw blade 5 is a base as described above. 6 protrudes downward from a long groove 27 provided in the groove 6. A movable cover 35 is provided at the lower part of the main body 8, and the movable cover 35 covers the substantially lower half of the saw blade 5 protruding downward from the long groove 27. The movable cover 35 includes a connecting ring. When the connecting cylinder 23 of the reducer case 7 is connected to the connecting hole 24 of the main body 8, the movable cover 35 is connected to the connecting cylinder 23 of the reducer case 7 protruding from the connecting hole 24. The connecting ring is pivotably engaged, and the retaining ring is engaged with the front end of the connecting cylinder 23 so that the retaining ring is prevented from coming off and is connected to the connecting cylinder 23 of the speed reducer case 7 together with the main body 8. Has been. When the saw blade 5 is not rotated, the lower half of the saw blade 5 protruding downward from the base 6 is covered, and when the saw blade 5 is rotated, the blade 5 is rotated and stored inside the fixed cover 34. The substantially lower half of the blade 5 is exposed. Here, the movable cover 35 is spring-biased by a spring material so that the movable cover 35 is always disposed at a position covering substantially the lower half of the saw blade 5, and the member to be cut becomes the front end portion of the movable cover 35 when the member to be cut is cut. In this case, when the member to be cut is cut by the saw blade 5, the movable cover 35 rotates and moves against the spring force of the spring material and enters the fixed cover 34.
[0019]
The fixed cover 34 is formed of a transparent resin plate or the like, so that the position at which the member to be cut starts can be easily confirmed from above the main body 8 via the fixed cover 34.
The base 6 that has a shape in plan view has a reinforcing piece 38 projecting upward from an appropriate position on the upper surface of a flat plate member 37 having a long groove 27 provided in the center, and is formed upward at the peripheral portion. A flange piece 39 protrudes toward the base 6, and a cutting guide ruler for guiding the cutting direction when cutting the member to be cut can be detachably attached to the base 6.
[0020]
Thus, the speed reduction block 2, the motor 1, and the main body 8 are connected and fixed to the speed reducer case 7, and the connecting arm 13 protruding from the speed reducer case 7 is directly supported by the base 6 and further rotated. The saw blade 5 is connected to the output shaft 4 projecting from the speed reducer case 7 to form a portable cutting tool A. That is, the base 6 is directly coupled to the speed reducer case 7 using the speed reducer case 7 as a base. In addition, the portable cutting tool A is formed by attaching the main body 8 and the saw blade 5 to the speed reducer case 7, and is formed of a molded product between the base 6 and the speed reducer case 7. No intervening member, and can minimize the connection error when connecting the base 6 and the speed reducer case 7 and can ensure the squareness of the saw blade 5 and the base 6 accurately. It is.
[0021]
【The invention's effect】
The invention of claim 1 includes a motor, a deceleration block that decelerates the output of the motor, a housing that houses the deceleration block, an output shaft that comes out of the deceleration block, a saw blade attached to the output shaft, and a workpiece that is to be cut when cutting In a portable cutting tool comprising a base applied to a member, a connecting arm is integrally protruded from the reduction gear case, a connecting support piece having a connecting hole is provided on the base, and the connecting hole of the connecting support piece is connected to the connecting arm. The base and the reducer case are directly connected to each other by matching the connecting holes and press-fitting the connecting pins into the connecting holes so that they can rotate freely. There is no molded product in between, the connection error when connecting the base and the reducer case can be minimized, and the squareness of the saw blade and the base is accurate. Are those that can be secured, not required angle adjusting mechanism or the like, the reliability is high, in which and lightweight, it is possible to provide an inexpensive portable cutting tool.
[0022]
In the invention of claim 2, since the base and the reducer case are formed of a material having high thermal conductivity in claim 1, in addition to the effect of claim 1, the heat generated from the gear and the motor is reduced. In addition, the heat can be efficiently radiated through the base, and the heat resistance and reliability of the mechanism can be improved.
In the invention of claim 3, since the motor is directly connected to the speed reducer case in claim 2, in addition to the effect of claim 2, the accuracy of the installation position of the motor with respect to the speed reduction block can be improved. is there.
[Brief description of the drawings]
FIG. 1 is a perspective view of an example of the present invention with a housing removed.
FIG. 2 is an external perspective view of the same.
FIG. 3A is a side cross-sectional view showing a disposition state of a speed reduction block and a speed reducer case, partly omitted, and FIG. 3B is a partial side view of a main body showing a connection hole.
FIG. 4 is an explanatory diagram for explaining a combined state of a reduction gear case and a base.
FIG. 5 is an explanatory diagram for explaining a combined state of a reduction gear case and a base.
FIG. 6 is a side sectional view showing a conventional example.
[Explanation of symbols]
A Portable cutting tool 1 Motor 2 Reduction block 3 Housing 4 Output shaft 5 Saw blade 6 Base 7 Reduction gear case

Claims (3)

A motor, a speed reduction block that decelerates the output of the motor, a speed reducer case that houses the speed reduction block, a housing that houses the speed reducer case, an output shaft coming out of the speed reduction block, a saw blade attached to the output shaft, In a portable cutting tool comprising a base applied to a member to be cut at the time of cutting, a connecting arm is integrally protruded from the reduction gear case, a connecting support piece having a connecting hole is protruded from the base, and a connecting hole of the connecting support piece And a connecting pin of the connecting arm, and a connecting pin is press-fitted into each connecting hole so as to be rotatably connected to each other so that the rigid base and the speed reducer case are directly coupled together. Cutting tool.   2. The portable cutting tool according to claim 1, wherein the base and the speed reducer case are made of a material having high thermal conductivity.   2. A portable cutting tool according to claim 1, wherein the motor is directly connected to the reduction gear case.

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