DE112014002011T5 - hammer tool - Google Patents

Abstract

Task: To provide a hammer tool improved with respect to a battery attachment and removal technique. Solution: A hammer tool has a motor 110 that drives a tool bit 119, a tool body 101, a handle 109 and a battery mounting part 160A to which a battery 170A is detachably mounted. The handle 109 extends in a handle extension direction crossing a longitudinal direction. The battery mounting part 160A has a battery engaging part 161, with which the battery 170A can be engaged. The battery 170 </ b> A is mounted to the battery mounting part by sliding against the battery engagement part 161 in an intersecting direction crossing both the longitudinal direction of the tool bit 119 and the extending direction of the handle 109.

Description

FIELD OF THE INVENTION

The present invention relates to a hammer tool which drives a tool bit at least linearly in its longitudinal direction and performs a predetermined operation on a workpiece.

BACKGROUND OF THE INVENTION

The Japanese Unexamined Patent Laid-Open Publication No. 2010-5751 discloses a hammer drill of the battery type in which the battery is provided as a power source. In this hammer drill, a battery mounting part is formed on a lower surface of a downwardly extending part connecting a tool body with a handle. A battery is inserted from the rear side to the front side of the hammer drill in the battery mounting part and mounted to the battery mounting part.

SUMMARY OF THE INVENTION

THE PROBLEM TO BE SOLVED BY THE INVENTION

In general, the hammer drill is a hammer tool that performs a hammering operation by applying a shock to a tool bit in the longitudinal direction. Thus, during the hammering operation, a periodic impact vibration is generated in the longitudinal direction of the tool bit or a front-to-back direction of the hammer drill.

In the hammer drill in the Japanese Unexamined Laid-Open Patent Publication No. 2010-5751 is described, since the battery is mounted by insertion from the rear side of the hammer drill, the battery can peel off due to the vibration in the front-to-back direction of the hammer drill.

Accordingly, in view of the above, it is an object of the present invention to provide a hammering tool improved with respect to a mounting and removing technique of a battery.

MEDIUM TO SOLVE THE PROBLEM

The problem described above is solved by the present invention. According to a preferred aspect of a hammer tool of the present invention, a hammer tool that drives a tool bit at least linearly on a drive axis extending in a predetermined longitudinal direction is provided. The hammer tool has a motor that drives the tool bit, a tool body that houses the motor, a handle that is connected to the tool body, and a mounting part to which a battery for supplying electric power is detachably mounted. The handle is provided so as to extend in a handle grip extension direction crossing the longitudinal direction. The mounting part has a battery engaging part, with which the battery is engageable, and the mounting part holds the battery by engaging the battery with the battery engaging part. Further, with respect to the battery engagement part, the battery is pushed in a crossing direction crossing both the longitudinal direction and the handle grip extension direction, and the battery is mounted to the mounting part.

The hammer tool performs a predetermined operation by linearly driving the tool bit on the drive shaft extending in the longitudinal direction, and causes vibration in the longitudinal direction during the operation. According to the present invention, the battery is mounted to the mounting member by moving in the crossing direction crossing both the longitudinal direction and the handle grip extension direction. Thus, a movement direction (removal direction) in which the battery is moved on the battery mounting part crosses with a vibration direction. As a result, the possibility of the battery falling out of the mounting part due to the vibration generated during the operation is reduced.

According to another aspect of the hammer tool of the present invention, the mounting part is provided so that the center of gravity of the battery mounted on the mounting part is in a plane containing the drive axle and a handle center axis extending in the handle grip extension direction.

According to this aspect, in a case where a front-rear direction is defined by the longitudinal direction, the battery can have a balanced weight distribution with respect to the crossing direction (also referred to as lateral direction) crossing the front-rear direction exhibit. Accordingly, the operability of the hammer tool is improved.

According to another aspect of the hammer tool of the present invention, the mounting part has a plurality of battery mounting parts to which a plurality of batteries are each detachably mounted. Furthermore, the plural battery mounting parts are arranged so as to be aligned in the longitudinal direction. Here are the several Batteries in the same type (size, shape, capacity, etc.) of the battery may be formed, or may be formed as different types of batteries to each other. Further, a number of the battery mounting parts are not limited as long as the number of the battery mounting parts is two or more. Further, a battery of a plurality of batteries may be used to drive the motor, while two or more batteries may be used to drive the motor.

According to this aspect, since the plural battery mounting parts are aligned in the longitudinal direction, a compact arrangement of a plurality of batteries is possible. In addition, handling (arrangement) of the electrical wiring with the battery mounting parts is simplified.

According to another aspect of the hammer tool of the present invention, the hammer tool has a partition wall disposed between at least two battery mounting parts under the plurality of battery mounting parts and extending in the handle grip extension direction. Further, in a case where a vertical direction is defined by the handle extension direction, a lower surface of the partition wall is set to be flush with a lower surface of the tool body.

According to this aspect, the partition wall is used as a stand when the hammer tool is put on the floor and the like. Accordingly, the hammer tool is stably turned off.

According to another aspect of the hammer tool of the present invention, the mounting part has an even number of battery mounting parts, to each of which an even number of batteries are detachably mounted. The battery is mounted on one half of the battery mounting parts provided with an even number by sliding the battery on the battery engaging part in one direction. On the other hand, the battery is mounted on the other half of the battery mounting parts provided with an even number by sliding the battery on the battery engaging part in a direction opposite to the one direction. An even number of the battery mounting parts of a plurality of battery mounting parts provided on the hammer tool can be applied to the construction described above, and therefore, a number of the battery mounting parts need not be limited to an even number. That is, this aspect preferably includes a structure in which an even number of battery mounting parts are provided and a construction in which an odd number of battery mounting parts are provided.

According to this aspect, in a state where the batteries are mounted to each of the even number of battery mounting parts, the common center position of the even number of batteries in a central area of the even number of batteries is defined with respect to a direction in which the batteries Battery is moved to the battery mounting part. Specifically, in a case where the common center position of the even number of batteries is in the plane containing the drive axis and a center axis of the handle extending in the handgrip stretch direction, the batteries are in the lateral direction. which crosses the longitudinal direction, automatically in equilibrium. Accordingly, the common center of gravity position of the even number of batteries need not be adjusted.

According to another aspect of the hammer tool of the present invention, the mounting part has an even number of battery mounting parts, to each of which an even number of batteries are detachably mounted. In each case, side by side positioned battery mounting parts are formed so that the battery is mounted by moving in one direction to the battery mounting part, which is opposite to a direction in which the battery is moved when it is mounted to another battery mounting part next to the battery mounting part. Further, in this aspect, an even number of battery mounting parts of the plural battery mounting parts provided in the hammer tool can be applied to the above-described structure, and therefore, a number of the battery mounting parts need not be limited to an even number. That is, this aspect preferably includes a structure in which an even number of battery mounting parts are provided, and includes a structure in which an odd number of battery mounting parts are provided.

According to this aspect, in a state where the batteries are mounted to each of the even number of battery mounting parts, the common center of gravity position of the even number of batteries within a central area of the even number of batteries is defined with respect to a direction in which the battery is moved on the battery mounting part. Specifically, in a case where the common center position of the even number of batteries is in the plane containing the drive axis and a center axis of the handle extending in the handgrip stretch direction, the batteries are in the lateral direction the longitudinal direction crosses, automatically in equilibrium. Accordingly, the common center of gravity position of the even number of batteries need not be adjusted.

According to another aspect of the hammer tool of the present invention, the plural battery mounting parts are formed such that the common center of gravity of a plurality of batteries mounted on the plurality of battery mounting parts is in a plane including the drive axle and a handle center axis located in the Handgriff stretch direction extends.

According to this aspect, in a case where a front-rear direction is defined by the longitudinal direction, a plurality of batteries may be balanced with respect to a lateral direction crossing the front-rear direction. Accordingly, the operability of the hammer tool is improved.

According to another aspect of the hammer tool of the present invention, the motor is arranged so that a rotation axis of the motor crosses with the drive shaft.

According to this aspect, a hammer drill is provided, in which the axis of rotation of the motor crosses with the drive axle.

EFFECTS OF THE INVENTION

Accordingly, an improved hammer tool is provided with respect to a mounting and removing technique of the battery.

Other objects, features and advantages of the present disclosure will be more readily understood upon reading the following detailed description, together with the accompanying drawings and claims.

BRIEF DESCRIPTION OF THE DRAWINGS

1 shows a partial cross-sectional view of an entire construction of a rotary hammer of a first embodiment according to the present invention.

2 FIG. 10 is an enlarged view showing a mounting state of battery packs attached to battery mounting parts. FIG.

3 shows one along an arrow A in 1 seen view, in which the battery packs are shown by a dashed line.

4 shows one along an arrow B in 1 Partial cross-sectional view seen.

5 shows a connection of the battery mounting part.

6 shows a perspective view of the battery pack.

7 shows a plan view of the battery pack.

8th shows one along an arrow C in 6 seen view.

9 shows one along an arrow D in 6 seen view.

10 shows a partial cross-sectional view of an entire construction of a rotary hammer of a second embodiment according to the present invention.

11 shows one along an arrow E in 10 seen view.

12 shows one from the back in 10 (left side in 10 ) seen partial cross-sectional view.

13 shows a partial cross-sectional view of an entire construction of a rotary hammer of a third embodiment according to the present invention.

14 shows one from the back in 13 (right side in 13 ) seen partial cross-sectional view.

15 shows a schematic view of a hammer drill and an arrangement of the battery pack with respect to the hammer drill a fourth embodiment according to the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

Each of the additional features and method steps disclosed above and below may be used separately or in conjunction with other features and methods for providing and producing improved hammer tools and methods for using such hammer tools and devices used therein. Representative examples of the invention, using examples of many of these additional features and method steps in conjunction, will now be described in detail with reference to the drawings. This detailed description is merely intended to teach one skilled in the art further details for carrying out preferred aspects of the present teachings and is not intended to limit the scope of the invention. Only the claims define the scope of the claimed invention. Therefore, combinations of features and steps, the Within the following detailed description, it will not be necessary to embody the invention in a broad sense, and instead, are merely taught to more particularly describe some representative examples of the invention, which is given in detail with reference to the accompanying drawings.

First Embodiment of the Present Invention

A first embodiment of the present invention will be described below with reference to FIG 1 to 9 described. The first embodiment will be described using a batter-type hammer drill as an example of a hammer tool. As in 1 shown is a hammer drill 100 of the battery type, on which a hammer bit 119 attached, the power tool that performs a drilling operation or a chiseling operation, for example, on a workpiece in which causes the attached hammer bit 119 performs a hammering movement in its longitudinal direction and performs a rotational movement about its longitudinal direction. The hammer bit 119 FIG. 12 is an example of a feature corresponding to "a tool bit" in the present invention.

The hammer drill 100 is in an overall view mainly with a body 101 provided, which has an outer contour of the hammer drill 100 formed. At a front area of the main body 100 is the hammer bit 119 releasably attached thereto by means of a cylindrical tool holder 159 appropriate. The hammer bit 119 is in a bit insertion hole of the tool holder 159 introduced and held so that it allows him to move in his longitudinal direction with respect to the tool holder 159 to move back and forth, and it is prevented in its circumferential direction with respect to the tool holder 159 to turn.

The main body 101 is mainly with a motor housing 103 that has an electric motor 110 receives, and a transmission housing 105 provided that a motion conversion mechanism 120 , a hammer mechanism 140 and a power transmission mechanism 150 receives. A handle 109 Being held by a user is with the main body 101 at a the hammer bit 119 in the longitudinal direction of the hammer bit 119 connected opposite side. The main body 101 is an example of a feature corresponding to "a tool body" and the handle 109 is an example of a feature that corresponds to "a handle" in the present invention.

Further, in the first embodiment, for the sake of simplicity of explanation, the hammer bit side is 119 with respect to the longitudinal direction of the hammer bit 119 or a longitudinal direction of the main body 101 referred to as a front side, and the side of the handle 109 is referred to as a back page. Furthermore, an upper side is in 1 referred to as an upper side and a lower side in 1 is referred to as a lower side.

In the main body 101 is the gearbox 105 arranged on the front side and the motor housing 103 is at the rear side in the longitudinal direction of the hammer bit 119 arranged. Furthermore, the handle 109 on the back of the motor housing 103 arranged. The Motogehäuse 103 extends down deeper than a lower surface of the transmission housing 105 and the electric motor 110 is arranged in this extension area. The electric engine 110 is arranged so that an axis of rotation of the electric motor 110 so that it is inclined with respect to a vertical direction and that it is a hammer axis extending in the longitudinal direction of the hammer bit 119 extends, crosses. The electric engine 110 is an example of a feature corresponding to "a motor" in the present invention.

That is, the hammer drill 100 according to this embodiment, so that the hammer axis of the hammer bit 119 perpendicular to the axis of rotation of the electric motor 110 is. Furthermore, each of the motor housing 103 , the gearbox 105 and the handle 109 that the main body 101 forming, provided by connecting left and right housing components together, which are longitudinal in the longitudinal direction of the hammer bit 119 are separated.

A rotary output of the electric motor 110 becomes a linear motion through the motion conversion mechanism 120 converted, and then to the hammer mechanism 140 transferred, and causes a striking force in the longitudinal direction of the hammer bit 119 (lateral direction in 1 ) by means of the hammer mechanism 140 , Furthermore, the Drehregabe the electric motor 110 through the power transmission mechanism 150 slowed down and then to the hammer bit 119 transferred, and the hammer bit 119 is rotated in its circumferential direction. The electric engine 110 is powered and powered when a pusher 109a that with the handle 109 is arranged, is pressed.

The motion conversion mechanism 120 is above a motor shaft 111 of the electric motor 110 arranged and the motion conversion mechanism 120 converts the rotational output of the motor shaft 111 in the linear motion in a front-back direction of the hammer drill 100 around. The motion conversion mechanism 120 is mainly with one intermediate shaft 121 passing through the motor shaft 111 is rotationally driven, a rotary member 123 that on the intermediate shaft 121 is mounted, a vibrating component 125 in the front-to-back direction of the hammer drill 100 by rotation of the intermediate shaft 121 (of the rotary member 123 ), a cylindrical piston 127 in the form of a drive member extending in the front-to-back direction of the hammer drill 100 by the swinging motion of the swinging member 125 moved back and forth, and a cylinder 129 provided, which the piston 127 receives. The motor shaft 111 is arranged so that it is in relation to the intermediate shaft 121 is inclined. The cylinder 129 is integral with the tool holder 159 as a rear part of the tool holder 159 educated.

The hammer mechanism 140 is above the motion conversion mechanism 120 and back of the tool holder 159 arranged, and the hammer mechanism 140 transmits a linear output in the front-to-back direction of the hammer drill 100 that comes from the rotational output of the electric motor 110 through the motion conversion mechanism 120 was converted to the hammer bit 119 as a hammer force. That means the hammer mechanism 140 mainly with a percussion piston 143 in the form of a striking element inside the cylindrical piston 127 slidably disposed, and a striker 145 provided at the front of the percussion piston 143 is arranged and with the percussion piston 143 collided. Furthermore, an inner space forms the back of the percussion piston 143 in the piston 127 an air chamber 127a out, which is a sliding movement of the piston 127 to the percussion piston transmits by air pressure fluctuation.

The power transmission mechanism 150 is at the front of the motion conversion mechanism 120 arranged and the power transmission mechanism 150 transfers the rotational output of the electric motor 110 that from the intermediate shaft 121 the motion conversion mechanism 120 is transmitted to the tool holder 159 , That is, the power transmission mechanism 150 is provided mainly with a gear reduction mechanism having a plurality of gears, which is a first gear 151 that is integral with the intermediate shaft 121 is rotated, a second gear 153 that with the first gear 151 engages and combs and the tool holder 159 is mounted (the cylinder 129 ), etc. included.

The handle 109 is mainly with a handle part 109A provided in a vertical direction perpendicular to the longitudinal direction of the hammer bit 119 or an extension direction of the drive axle extends in a single plane. The vertical direction described above is an example of a feature corresponding to "a hand grip extension direction" in the present invention. The handle part 109A is at a predetermined distance in the longitudinal direction of the hammer bit 119 with respect to an upper part of the motor housing 103 arranged, and its upper part is with an upper connecting part 103a extending rearward in a substantially horizontal manner from a rear, upper end portion of the motor housing 103 extends, connected, and its lower part is with a lower connecting part 103b connected to the rear in a substantially horizontal manner from an intermediate area in the vertical direction of the motor housing 103 extends. Further, in the first embodiment, as in FIG 1 shown, the upper connecting part 103a and the lower connecting part 103b extended and integral with the motor housing 103 formed, however, these parts can be extended and integral with the handle part 109A be formed.

The lower connecting part 103b of the motor housing 103 extends from a substantially intermediate region in the vertical direction of the motor housing 103 to the rear and has a mounting part 160 for mounting battery packs on its lower surface part. The mounting part 160 FIG. 12 is an example of a feature corresponding to "a mounting part" in the present invention. The mounting part 160 has two battery mounting parts 160A . 160B on, in the longitudinal direction of the hammer bit 119 are aligned. These two battery mounting parts 160A . 160B are at the lower connection part 103b in a non-detachable manner from the hammer drill 100 fixed. Furthermore, every battery pack 170A . 170B for providing electric drive current to the electric motor 110 individually detachable on the respective battery mounting part 160A . 160B appropriate. Two battery mounting parts 160A . 160B are an example of a feature corresponding to "multiple battery mounting parts" in the present invention and the battery pack 170A . 170B is an example of a feature that corresponds to "a battery" in the present invention.

6 to 9 show the details of the battery pack 170A . 170B (Figures show a battery pack). As shown, the battery pack is 170A . 170B mainly with a rectangular, cuboid battery housing 171 and a plurality of battery cells (not shown) housed in the battery case 171 are included, provided. The battery pack 170A . 170B is detachable at the respective battery mounting part 160A . 160B by a sliding technique by moving horizontally along a lower surface of the respective battery mounting part 160A . 160B in a lateral direction, which is both the longitudinal direction of the hammer bit 119 as well as the extension direction of the handle 109 crosses, or in a direction from one side towards another side of the hammer drill, mounted. Furthermore, each of the two battery packs 170A . 170B the same construction and is on both of the two battery mounting parts 160A . 160B mountable.

For attaching / removing the battery pack 170A . 170B on the battery mounting part 160A . 160B each is one of a pair of sliding guides 173 extending in a longitudinal direction of the battery pack 170A . 170B extends, on a respective side surface of an upper side of the battery case 171 provided and a hook 175 to lock and a push button 177 for unlocking are provided at a central part on the upper side. The hook 175 for locking is at a rear side with respect to a mounting direction of the battery pack 170A . 170B is provided and biased by a spring (not shown), so that it from an upper surface of the battery case 171 protrudes. The push button 177 For unlocking is on a rear side in Berg on the mounting direction of the battery case 171 provided and the push button 177 is mechanical with the hook 175 connected, so that is the hook 175 when a user presses the button 177 presses, moving in one direction, in which the hook 175 from the upper surface of the battery case 171 is pulled down.

On the other hand, as in 1 and 2 is shown in each of the two, front and rear, battery mounting parts 160A . 160B a pair of front and rear guide rails 161 which extend in a lateral direction which is the longitudinal direction of the hammer bit 119 (Hammer axis) crosses, each provided. The guide rails 161 are integral with the lower connecting part 103b educated. The guide rails 161 form a substantially U-shaped cross section in the lateral direction and an end in an extending direction of the guide rails 161 is as an insertion opening for the guide rails 161 opened and the assembly guide 173 of the battery pack 170A . 170B will be on the guide rails 161 shifted in one direction, affecting both the longitudinal direction of the hammer bit 119 as well as the extension direction of the handle 109 crosses, and introduced. That means the guide rail 161 Functions as a guide during assembly of the battery pack 170A . 170B on the battery mounting part 160A . 160B and as a means for preventing the battery pack 170A . 170B from the battery mounting part 160A . 160B falls out. The guide rail 161 FIG. 12 is an example of a feature corresponding to "a battery engagement part" in the present invention.

Furthermore, as in 4 shown, each battery mounting part 160A . 160B a recessed engaging part 163 on, with which the hook 175 of the battery pack 170A . 170B can engage. The engaging part 163 is between the front and the rear guide rail 161 disposed on a battery insertion opening side and is integral with the lower connection part 103b trained, and if the battery pack 170A . 170B on the battery mounting part 160A . 160B is mounted, is the engaging part 163 with the hook 173 to lock, as in 4 shown in engagement. That's why the battery pack is 170A . 170B on the battery mounting part 160A . 160B fixed and a movement in a direction of removal or falling out of the battery pack 170A . 170B is prevented. Furthermore, when mounting the battery pack 170A . 170B on the battery mounting part 160A . 160B a wedge-shaped part of the hook 173 through the engaging part 163 pressed and simultaneously moved down, and then comes the hook 173 with the engaging part 163 by returning to its original position.

Every battery pack 170A . 170B , on the respective battery mounting part 160A . 160B is mounted, is placed so that an outer surface except for a top surface as a mounting surface on the battery mounting part 160A . 160B is mounted, exposed, and at least its lower surface is with a lower surface of the motor housing 103 flush formed. With such a construction, the lower surfaces of the battery pack 170A . 170B and the motor housing 103 formed as a Abstampeberfläche and thereby the hammer drill 100 Stable placed on the floor or floor.

Thus, the battery packs 170A . 170B at the back of the electric motor 110 and below the handle 109 arranged and aligned in the front-back direction in series, so that the longitudinal direction of the battery pack 170A . 170B parallel to a crossing direction, which is both the longitudinal direction of the hammer bit 119 as well as the hand grip extension direction crosses. That means that the battery pack 170A . 170B is held so that its length in the longitudinal direction of the hammer bit 119 shorter than its length in one direction, which is the longitudinal direction of the hammer bit 119 crosses.

Further, in the first embodiment, with respect to the two of the front and rear battery mounting parts 160A . 160B if from the back of the hammer drill 100 seen, an attachment direction of the battery pack 170A . 170B by a moving direction (sliding direction) from a left side to a right side of the hammer drill 100 (a direction through an arrow F in 3 and 4 is shown) while a removal direction of the battery pack 170A . 170B is defined by its opposite direction of movement. That means that the respective battery packs 170A . 170B to the two of the front and rear battery mounting parts 160A . 160B be mounted by moving in the same direction to each other.

Furthermore, both of the front and the rear battery mounting part 160A . 160B designed so that each center of gravity of the battery pack 170A . 170B to the respective battery mounting part 160A . 160B is mounted, located in a plane which is the drive axis of the hammer bit 119 and the central axis of the handle 109 contains.

Furthermore, each battery mounting part 160A . 160B a connection 165 (please refer 5 ) on. The connection 165 is between the front and the rear guide rail 161 in each battery mounting part 160A . 160B arranged and to the lower surface of the lower connecting part 103b fixed, and if the battery packs 170A . 170B to the battery mounting parts 160A . 160B are mounted, every connection is 165 with the respective connection 179 (please refer 6 and 7 ) of the battery packs 170A . 170B electrically connected. Accordingly, it allows electrical power of the battery pack 170A . 170B the electric motor 110 and the controller 130 provide.

Furthermore, as in 3 are shown on the lower surface of each battery mounting part 160A . 160B four cylindrical rubber pins 167 provided so that each of them is arranged at the respective corner of a virtual square. These four rubber pins 167 Stand down with a predetermined length and clamp four Stellem on an upper surface of the battery pack 170A . 170B at the battery mounting part 160A . 160B is mounted, down elastic before. With such a construction can cause a wobble of the battery 170A . 170B be prevented due to vibration. Furthermore, the rubber pins 167 may be formed in a different form than the cylindrical shape and, alternatively, a spring element, such as a flat spring and the like instead of the rubber pin 167 be used.

As described above, according to the first embodiment, the battery mounting parts 160A . 160B in two parts, as a front and a rear part at the lower connecting part 103b of the motor housing 103 provided, and every battery pack 170A . 170B is detachable at the respective battery mounting parts 160A . 160B assembled. This is why, for example, in the hammer drill 100 with a 36 V specification two 18 V battery packs 170A . 170B mounted and electrically connected in series. The 18V battery packs have a much lighter weight compared to a 36V battery pack. Accordingly, a user can change the battery pack 170A . 170B or a mounting / removing operation of the battery pack 170A . 170B to / from the battery mounting part 160A . 160B easy to carry out and the ease of use of the attachment / removal process of the battery pack 170A . 170B is improved. Furthermore, in the hammer drill 100 18 V specifications two 18 V battery packs 170A . 170B electrically connected in parallel with each other. In such a case is a long-term driving of the hammer drill 100 possible. Furthermore, in the hammer drill 100 36 V / 18 V specification a connection mode of battery packs 170A . 170B be switched between the row mode and the parallel mode. In such a case, a change-over switch operated by a user for switching the connection mode is preferably provided.

Furthermore, the battery pack 170A . 170B generally formed as a substantially rectangular, cuboidal shape, which is elongated in one direction. Accordingly, in the first embodiment, the 18 V battery packs 170A . 170B aligned in the front-rear direction and are at the lower connecting part 103b of the motor housing 103 arranged so that these longitudinal directions are perpendicular to the longitudinal direction of the hammer bit 119 are. That means every battery pack 170A . 170B when the battery packs 170A . 170B to the battery mounting parts 160A . 160B are mounted, arranged so that its length in the longitudinal direction of the hammer bit 119 shorter than its length in one direction crossing the longitudinal direction. With such a construction, the length of an arrangement space of the battery pack becomes 170A . 170B in the longitudinal direction of the hammer bit 119 shorter in comparison to a construction in which the longitudinal direction of the battery packs 170A . 170B parallel to the longitudinal direction of the hammer bit 119 and a compact rotary hammer in which its length is shortened in the front-rear direction or its entire length can be constructed.

Furthermore, according to the first embodiment, the battery pack 170A . 170B on the battery mounting part 160A . 160B by insertion into the battery mounting part 160A . 160B from the side of the hammer drill (in one direction, both the longitudinal direction of the hammer bit 119 as well as an extension direction of the handle 109 crosses) mounted. Therefore, crosses at the battery pack 170A . 170B the direction of removal of the battery pack 170A . 170B the hammer axis of the hammer bit 119 or a direction of vibration caused by the hammer movement of the hammer bit 119 is generated, and a possibility of falling out of the battery pack 170A . 170B due to the vibration of the hammer drill 100 is reduced.

Further, according to the first embodiment, in both of the front and the rear battery mounting parts 160A . 160B in a state in which the batteries 170A . 170B each mounted, each center of gravity of the battery 170A . 170B in the plane that the drive axis of the hammer bit 119 and the center axis of the handle 109 contains. With such a design, the batteries can 170A . 170B with respect to the lateral direction of the hammer drill 100 Being in balance while doing so will prevent the drill from functioning 100 is damaged.

Furthermore, according to the first embodiment, the battery pack 170A . 170B on the battery mounting part 160A . 160B by sliding the mounting guide 173 of the battery pack 170A . 170B along the guide rail 161 of the battery mounting part 160A . 160B assembled. Accordingly, the battery pack 170A . 170B be easily mounted.

Furthermore, according to the first embodiment, there are two battery mounting parts 160A . 160B Arranged side by side, two battery packs 170A . 170B arranged in a compact manner. Accordingly, the arrangement of the electrical wiring connected to the respective terminals 165 the battery mounting parts 160A . 160B connected to which the battery packs 170A . 170B electrically connected, simplified.

Furthermore, according to the first embodiment, the battery pack 170A . 170B on the back of the motor housing 103 and below the handle 109 arranged. In the hammer drill 100 , in which the axis of rotation of the electric motor 110 extending in the vertical direction crossing the drive axis is due to structural characteristics in which a portion of the motor housing 103 that the electric motor 110 extends downwardly, a free space at the back of the downwardly extending portion, which is below the handle 109 is provided. In the first embodiment, the battery packs 170A . 170B rationally arranged through the use of free space. Furthermore, such a position of the battery pack 170A . 170B away from a processing point of the hammer bit 119 and thereby disrupt the battery packs 170A . 170B not the work process.

Furthermore, according to the first embodiment, the battery packs 170A . 170B on the back of the motor housing 103 and below the handle 109 arranged, and the bottom surface of the battery packs 170A . 170B is with the bottom surface of the motor housing 103 flush formed. That is why the hammer drill 100 stably placed when the hammer drill 100 placed on the floor or floor.

Furthermore, as in 4 is shown, according to the first embodiment is an elastomer 104 , which is formed as an elastic member for vaporizing, on lateral outer surfaces of the lower connecting part 103b of the motor housing 103 installed and provided so as to extend in the front-rear direction. When the hammer drill 100 placed on the floor in a sideways position, in which its side surface touches the ground, contacts the tip end of the elastomer 104 the ground. With such a construction, end surfaces are in the longitudinal direction of the battery packs 170A . 170B prevented from directly touching the ground. Accordingly, the battery packs 170A . 170B protected from damage due to contact with the ground.

Second Embodiment of the Present Invention

Hereinafter, a second embodiment of the present invention will be described with reference to FIG 10 to 12 described. As in 10 to 12 are shown according to the second embodiment, in a construction in which both of the front and the rear battery pack 170A . 107B by inserting it from the side of the hammer drill 100 (in one direction, both the longitudinal direction of the hammer bit 119 as well as an extension direction of the handle 109 crossed) are mounted, this insertion direction set so that they are opposite to each other. Other constructions than those described above are the same as those in the hammer drill 100 according to the first embodiment. Thus, the same reference numerals are used with respect to the structures similar to those of the first embodiment, and an explanation thereof will be omitted.

In the second embodiment, with respect to the components of the both of the front and the rear battery mounting parts 160A . 160B the arrangement and direction of the engaging part 163 and the connection 165 of the front battery mounting part 160A designed so that the opposite to those of the rear battery mounting part 160 are. With such a construction as indicated by arrows F in FIG 11 shown is a (front) battery pack 170A on the battery mounting part by moving the battery pack 170A mounted from the right side to the left side of the hammer drill, and the other (rear) battery pack 170B is attached to the battery mounting part by moving the battery pack 170B from the left side to the right side of the hammer drill 100 assembled.

According to the second embodiment, two (an even number) of the battery packs become 170A . 170B in corresponding directions on the hammer drill 100 moved and mounted. With such a construction is the common focus of the battery packs 170A . 170B in a plane containing the drive axis of the hammer bit 119 and the center axis of the handle 109 contains. Therefore, it is not necessary, the battery mounting parts 160A . 160B adjust to the common focus of the battery packs 170A . 170B in the plane that the drive axis of the hammer bit 119 and the center axis of the handle 109 contains, to place. Furthermore, except as described above, similar advantages are achieved as in the first embodiment.

Third Embodiment of the Present Invention

Hereinafter, a third embodiment of the present invention will be described with reference to FIG 13 and 14 described. In the third embodiment, a battery mounting part 160A on the lower surface of the lower connecting part 103b of the motor housing 103 intended. There is also a battery pack 170A to the battery mounting part 160A by moving the battery pack 170A from the side of the hammer drill 100 (in a crossing direction, both the longitudinal direction of the hammer bit 119 as well as an extension direction of the handle 109 crosses) mounted.

According to the third embodiment, since an arrangement space for the battery pack 170A is reduced, a lower part of the electric motor 110 be moved backwards. Therefore, as in 13 shown, the rotary shaft of the electric motor 110 be arranged so that it is perpendicular to the drive axle and thereby the motor housing 103 compact design and a downsizing of the hammer drill 100 is possible. Furthermore, except as described above, similar advantages are achieved as in the first embodiment.

Fourth Embodiment of the Present Invention

Hereinafter, a fourth embodiment of the present invention will be described with reference to FIG 15 described. As in 15 is shown, according to the fourth embodiment, a rib 103 which extends downwardly at the central area of the lower surface of the lower connecting part 103b of the motor housing 103 intended. The rib 103c is between the front battery mounting part 160A and the rear battery mounting part 160B arranged. The lower surface of the rib 103c is with the bottom surface of the hammer drill 100 (the lower surface of the motor housing 103 ) formed flush. The rib 103c is an example of a feature corresponding to "a partition wall" in the present invention. Furthermore, constructions other than those described above are the same as those of the hammer drill 100 according to the first embodiment.

According to the fourth embodiment, when the hammer drill 100 put on the ground, the rib 103c as a stand together with the lower surface of the motor housing 103 used. Thus, the hammer drill 100 stably placed. Furthermore, except as described above, similar advantages are achieved as in the first embodiment. Furthermore, in the fourth embodiment, the insertion directions of the battery packs 170A . 170B on the battery mounting parts 160A . 160B as the same directions as defined in the first embodiment or as opposite directions to each other as defined in the second embodiment.

Furthermore, in each embodiment described above, the guide rails 161 and the engaging part 163 as the components of the battery mounting part 160A . 160B integral with the motor housing 103 trained, but this is not limited thereto. For example, the guide rail 161 and the engaging part 163 separate from the motor housing 103 be formed and firmly installed on the motor housing. Furthermore, three or more battery mounting parts may be formed.

Further, in each embodiment described above, as an example of the hammering tool, the hammer drill performing the hammering operation and the turning operation has been used for description, however, the present invention is applicable to a hammer that performs only the hammering operation by means of the hammer bit 119 performs.

With reference to an aspect of the present invention, the following feature is provided as the hammer tool according to the present invention.

(Feature)

Hammer tool that drives a tool bit at least linearly on a drive axle extending in a predetermined longitudinal direction, with
a motor that drives the tool bit,
a tool body that houses the engine, and
a mounting part to which a battery for supplying electric power for the motor is detachably attached,
wherein the mounting part has a battery engaging part, with which the battery is engageable, and the mounting part holds the battery by engaging the battery with the battery engaging part, and
the battery is displaced in a normal direction of a virtual plane defined by the drive axis and a rotation axis of the motor, and the battery is mounted to the mounting part.

Correspondence Relationships between the Components of Present Embodiments and the Components of the Present Invention

The correspondence relationships between elements of the embodiments and elements of the present invention are as follows. Furthermore, the embodiments describe only examples of configurations for carrying out the present invention, and the present invention is not limited to these configurations of the embodiments.

The main body 101 FIG. 12 is an example of a configuration corresponding to "a tool body" of the present invention.

The hammer bit 119 FIG. 12 is an example of a configuration corresponding to "a tool bit" of the present invention.

The electric engine 110 FIG. 10 is an example of a configuration corresponding to "a motor" of the present invention.

The mounting part 160 FIG. 14 is an example of a configuration corresponding to "a mounting part" of the present invention.

The battery mounting part 160A . 160B FIG. 12 is an example of a configuration corresponding to a "battery mounting part" of the present invention.

The battery pack 170A . 170B FIG. 12 is an example of a configuration corresponding to "a battery" of the present invention.

The guide rail 161 FIG. 12 is an example of a configuration corresponding to "a battery engagement part" of the present invention.

The rib 103c FIG. 12 is an example of a configuration corresponding to "a partition wall" of the present invention.

LIST OF REFERENCE NUMBERS

100

Rotary Hammer

101

main body

103

motor housing

103a

upper connecting part

103b

lower connection part

103c

rib

104

elastomer

105

gearbox

107

storage component

109

handle

109A

handle part

109a

handle

110

electric motor

111

motor shaft

119

hammer bit

120

Motion conversion mechanism

121

intermediate shaft

123

rotating member

125

resonant device

127

cylindrical piston

127a

air chamber

129

cylinder

140

hammer mechanism

143

percussion piston

145

firing pin

150

Power transmission mechanism

151

first gear

153

second gear

159

toolholder

160

mounting part

160A, 160B

Battery mounting part

161

guide rail

163

engaging part

165

connection

167

rubber pen

170A, 170B

battery Pack

171

battery case

173

mounting guide

175

Hook for locking

177

Push-button for unlocking

179

connection

Claims (8)

A hammer tool that drives a tool bit at least linearly on a drive axis extending in a predetermined longitudinal direction, with a motor that drives the tool bit, a tool body that receives the motor, a handle that is connected to the tool body, and a mounting part to which a battery for releasing electric power for the motor is detachably mounted, wherein the handle is provided so as to extend in a handle extension direction crossing the longitudinal direction, the mounting part has a battery engaging part with which the battery is engageable, and the mounting part holds the battery by engaging the battery with the battery engaging part, and Battery in an intersecting direction, which crosses both the longitudinal direction and the handgrip extension direction, is shifted with respect to the mounting engagement part and the battery is mounted on the mounting part. The hammer tool according to claim 1, wherein the mounting part is provided so that the center of gravity of the battery mounted on the mounting part is in a plane containing the drive axle and a handle center axis extending in the handle grip extension direction. Hammer tool according to claim 1 or 2, wherein the mounting part has a plurality of battery mounting parts, on which a plurality of batteries are detachably mounted, and the plurality of battery mounting parts are arranged so that they are aligned in the longitudinal direction. A hammer tool according to claim 3, further comprising a partition wall disposed between at least two battery mounting parts of the plurality of battery mounting parts and extending in the handle grip extension direction, wherein a vertical direction is defined by the handgrip stretch direction, and a lower surface of the partition wall is formed flush with a lower surface of the tool body. Hammer tool according to claim 3 or 4, wherein the mounting part has an even number of battery mounting parts, to each of which an even number of batteries are detachably mounted, the battery is mounted on one half of the battery mounting parts of the even number of battery mounting parts by sliding the battery on the battery engaging part in one direction, and the battery is mounted to the other half of the battery mounting parts of the even number of battery mounting parts by sliding the battery on the battery engaging part in a direction opposite to the one direction. Hammer tool according to one of claims 3 to 5, wherein the mounting part has an even number of battery mounting parts, to each of which an even number of batteries are detachably mounted, and respectively juxtaposed battery mounting parts are formed such that the battery by moving in an opposite direction is mounted, which is opposite to a direction in which the battery is moved when it is mounted on another battery mounting part adjacent to the battery mounting part. A hammer tool according to any one of claims 3 to 6, wherein the plurality of battery mounting parts are formed such that the common center of gravity of a plurality of batteries mounted on the plurality of battery mounting parts is in a plane including the drive axle and a handle center axis which extends extends in the Handgrifferstreckungsrichtung. Hammer tool according to one of claims 1 to 7, wherein the motor is arranged so that an axis of rotation of the motor with the drive axis crosses.

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