JP4145728B2 - Driving machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to, for example, a gas-fired finishing nailing machine, and relates to a driving tool provided with a magazine for loading a number of driving tools.
[0002]
[Prior art]
For example, in a gas combustion type driving machine, when a driving tool is loaded into a magazine, it is necessary to prevent an inadvertent driving operation of the driving machine main body. For this purpose, it is not sufficient to be careful not to operate the trigger switch. Conventionally, the battery power supply for igniting the combustion chamber is disconnected to turn off the power, or the gas can is removed to the combustion chamber. The driving tool was loaded while the gas supply was interrupted.
[0003]
[Patent Document 1]
JP 2000-781 A
[0004]
[Problems to be solved by the invention]
Thus, in the conventional driving tool, when the driving tool is loaded into the magazine, it is necessary to remove the battery and the gas can in advance, and it is necessary to mount them again after loading the driving tool. The loading work of the driving tool was troublesome.
The present invention has been made in view of this problem, and an object of the present invention is to provide a driving tool that can safely and easily perform loading work of a driving tool into a magazine.
[0005]
[Means for Solving the Problems]
For this reason, the present invention provides a driving machine having the configuration described in the above claims.
According to the driving machine according to claim 1, when the lid of the magazine is opened to load the driving tool, By turning off the battery to supply the power necessary for driving operation, Since the driving operation of the driving machine main body is prohibited, it is not necessary to carry out preparatory work such as battery removal operation and gas can removal operation in the conventional gas combustion type driving machine. The loading operation of the driving tool can be performed safely and more easily than in the past.
Claim 2 According to the described driving machine, when the lid of the magazine is opened, the movement of the pressing operation detecting member is restricted by the driving operation prohibiting mechanism, and thus the driving operation of the driving machine main body is prohibited. The effect of this can be obtained.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of the present invention will be described with reference to FIGS. FIG. 1 shows the entire driving machine 1 of the present embodiment. In the present embodiment, a gas combustion type driving machine (nailing machine) is illustrated as an example of the driving machine 1. In the following description, each member and the direction of operation will be described with the direction in which the driving tool is driven out as the lower side (lower side in the drawing) and the opposite side as the upper side (upper side in the drawing). Therefore, it should not be understood that the driving machine 1 exemplified below is limited to the case where the driving direction is literally downward, and is used in the same manner when driving in the horizontal direction or upward. It goes without saying that it is possible.
First, the overall configuration of the gas combustion type driving machine 1 will be described. In FIG. 1, the code | symbol 2 has shown the driving machine main body. A handle portion 3 for a user to hold from the side portion of the driving machine main body 2 extends. The distal end side of the handle portion 3 is bent in an L shape. A trigger switch 4 is disposed on the lower surface side of the base portion of the handle portion 3. When the user holds the handle portion 3 and pulls the trigger switch 4 with the fingertip, the driving machine main body 2 operates.
[0007]
From the lower part of this driving machine main body 2, the nose part 40 is provided in the state protruded below. The nose portion 40 is formed by fixing two nose plates 41 and 42 so as to overlap each other, and the driver 8 is inserted into a driving passage 40a formed between the two nose plates 41 and 42 so as to reciprocate. Has been. Hereinafter, the left nose plate 41 is referred to as a first nose plate 41 and the right nose plate 42 is referred to as a second nose plate 42 in FIG.
The nose portion 40 is supported so as to be movable up and down (in the reciprocating direction of the driver 8) with respect to the driving machine main body 2. A magazine 50 for loading a number of driving tools (not shown) is mounted between the nose part 40 and the handle part 3 so as to hang over. The magazine 50 has a function of supplying the loaded driving tools one by one into the driving passage 40a in conjunction with the operation on the driving machine main body 2 side.
The magazine 50 is loaded with a plate-like shape in which a number of driving tools are connected in parallel. The magazine 50 includes a magazine main body 59 having a driving tool receiving portion 53 for receiving a large number of driving tools, and a lid 52 that is slidably supported with respect to the magazine main body 59 and can open and close the driving tool receiving portion 53. It has. The detailed configuration of the magazine 50 will be described later.
A fixed plate portion 51 is provided at the base end portion (the end portion on the nose portion 40 side) of the magazine main body 59. The fixed plate portion 51 is attached to the lower portion of the driving machine main body 2 by fixing the upper end portion thereof to a pedestal portion 2a provided at the lower portion of the driving machine main body 2 with bolts 2b and 2b.
[0008]
The nose part 40 is supported via the fixed plate part 51 so as to be movable up and down. Although not shown, the nose portion 40 is spring-biased in a direction in which it moves downward relative to the driving machine main body 2. Moreover, this nose part 40 is cooperated with the opening-and-closing valve of the gas can 70 mentioned later. For this reason, when the nose portion 40 is pressed against the driving material against the spring biasing force and is moved upward with respect to the driving machine main body 2 (hereinafter, this position is referred to as an upward movement position), the gas can 70 is opened. As a result, gas is supplied to the combustion chamber 14, and then the trigger switch 4 is pulled to perform a driving operation. Conversely, in a state where the nose portion 40 is not moved with respect to the driving machine main body 2 (hereinafter, this position is referred to as an initial position), gas is not supplied to the combustion chamber 14, so driving is performed even if the trigger switch 4 is pulled. The operation cannot be performed. 4 and 5 show a state in which the nose portion 40 has moved to the upward movement position, and the other drawings show a state in which the nose portion 40 is located at the initial position.
From this, the nose portion 40 in the present embodiment can move relative to the driving machine body 2 in addition to the driving tool guiding function for guiding the driving tool to the launch port 40b by the driving passage 40a. By providing, it has the structure which has the function as a pressing operation detection member described in the claim.
The periphery of the nose portion 40 is covered with a protective cover 20. Further, the driving passage 40a of the nose portion 40 can be opened so that the clogged driving tool can be easily removed. These will be described later.
[0009]
A cylinder 6 is disposed inside the driving machine main body 2, and a piston 7 is accommodated in the cylinder 6 so as to be capable of reciprocating between a top dead center and a bottom dead center. In the following description, the movement of the piston 7 from the top dead center toward the bottom dead center is referred to as a downward movement, and the movement from the bottom dead center toward the top dead center is referred to as an upward movement.
A driver 8 is attached to the center of the lower surface of the piston 7. The driver 8 extends long downward, and its tip has a length that slightly enters the driving passage 40a even when the piston 7 is located at the top dead center. On the other hand, when the piston 7 reaches the bottom dead center, the driver 8 reaches the lower moving end position slightly protruding from the tip of the nose 40 (the tip of the driving passage 40a, hereinafter also referred to as the launch port 40b). Move down.
A cylinder head 10 having a generally disc shape is disposed on the upper portion of the driving machine main body 2. A fan 12 that is rotated by an electric motor 11 is disposed at the center of the cylinder head 10. A seal ring 13 is mounted around the cylinder head 10.
On the other hand, a cylindrical valve sleeve 9 is arranged on the outer periphery of the cylinder 6 so as to be movable up and down. When the valve sleeve 9 moves upward, the upper end of the valve sleeve 9 reaches the outer peripheral side of the cylinder head 10. The valve sleeve 9 and the cylinder head 10 that have moved upward are hermetically sealed by the seal ring 13. An airtight piston upper chamber, that is, a combustion chamber 14 is defined between the valve sleeve 9, the cylinder head 10, and the piston 7 that have moved upward. On the other hand, when the valve sleeve 9 moves downward, the upper end of the valve sleeve 9 is separated from the outer peripheral side of the cylinder head 10, thereby opening the combustion chamber 14 to the atmosphere. FIG. 1 shows this state.
[0010]
The valve sleeve 9 is connected to the nose portion 40 via a connecting lever (not shown). For this reason, when the driving machine 1 is pressed in the driving direction to move the nose portion 40 upward with respect to the driving machine main body 2, the valve sleeve 9 is moved upward to partition the piston upper chamber in an airtight manner. It is formed.
After the gas is supplied to the combustion chamber 14, the piston 7 is moved down by an explosion generated by operating the trigger switch 4 to ignite the gas injected into the combustion chamber 14. The gas is supplied from a gas can 70 loaded near the base of the handle portion 3. The gas can 70 is exchanged by opening and closing the lid 5 provided at the rear part (the upper part in the figure) of the driving machine main body 2. The ignition is performed using a battery 60 described later as a power source. Note that the configuration for supplying gas to the combustion chamber 14 and igniting the gas only needs to use a conventionally known technique as it is, and no particular change is required in the present embodiment.
When the piston 7 moves down in the cylinder 6, the driver 8 moves down in the driving passage 40a of the nose portion 40. One driving tool (not shown) is supplied in advance from the magazine 50 into the driving path 40a. The driving tool supplied by the driver 8 moving down in the driving passage 40a is hit, and this driving tool is driven out from the tip (launch port 40b) of the nose portion 40.
When the driving tool is launched and the piston 7 reaches bottom dead center, the piston lower chamber 17 (which is always in communication with the atmosphere) and the combustion chamber 14 (negative pressure when the piston 7 reaches bottom dead center) The piston 7 is moved up by the differential pressure and returned to the top dead center.
[0011]
Next, in FIG. 2 and subsequent figures, details of the periphery of the nose portion 40 are shown. The periphery of the nose portion 40 is covered with a protective cover 20. The protective cover 20 is formed by bending an iron plate into a generally U-shape, and includes a front shielding portion 20a that covers the front of the nose portion 40 (left side in FIG. 2) and a left side (left side toward the launch direction). And a right shielding part 20c covering the right side (right side in the launch direction). The lower end portion (tip portion) of the protective cover 20 reaches the vicinity of the tip end of the nose portion 40. Accordingly, only a certain range L of the front end portion of the nose portion 40 protrudes from the lower end portion of the protective cover 20. The protrusion range L is set to be as small as possible within a range that does not impair the function of the nose portion 40 as a pressing operation detection member. That is, when the tip of the nose part 40 is pressed against the driving material and the nose part 40 is moved upward by a distance L relative to the driving machine main body 2, the driving in the driving machine main body 2 is performed by pulling the trigger switch 4. Operation is possible.
As described above, the nose portion 40 is covered with the protective cover 20 while leaving the necessary minimum range L of the tip portion of the nose portion 40, so that a fingertip of a user or the like touches the nose portion 40, Or it is prevented that this nose part 40 interferes with another site | part, and this prevents the nose part 40 from moving carelessly, and thus malfunction of the driving machine main body.
[0012]
The protective cover 20 is provided so as to be openable and closable with respect to the nose portion 40. In other words, the upper end portion of the protective cover 20 is rotatably supported on the upper portion of the fixed plate portion 51 via the support shafts 21 and 21. As a result, the protective cover 20 can be rotated between a closed position that covers the nose portion 40 and an open position that is rotated upward from the closed position and separated from the nose portion 40. . 2 and 4 show a state in which the protective cover 20 is closed with respect to the nose portion 40, and FIGS. 6 and 8 show an opened state. When the protective cover 20 is opened, the movement of the nose portion 40 is restricted, and accordingly, the nose portion 40 cannot be driven.
A claw portion 20 d is provided on the inner surface side of the protective cover 20 so as to protrude toward the nose portion 40. In the present embodiment, as shown in the drawing, the claw portion 20d is formed by bending a portion where a part of the protective cover 20 is cut out with a constant width. A restriction pin 25 is disposed below the tip of the claw portion 20d.
The restriction pin 25 is movably accommodated in a support hole 59 a provided on the back side of the magazine 50. The restriction pin 25 is supported so as to be movable along the driving tool feeding direction (or the direction perpendicular to the driving passage 40a). A compression spring 26 is interposed between the regulation pin 25 and the bottom of the support hole 59a. For this reason, the restriction pin 25 is urged by the compression spring 26 in a direction approaching the claw portion 20d (leftward in FIG. 2). A restriction protrusion 25 a is formed at the tip of the restriction pin 25. The restricting protrusion 25a is always guided in the insertion hole portion 51a provided in the fixed plate portion 51 with almost no backlash, and in this state, the unlocked position where the tip side is drawn into the insertion hole portion 51a, It moves between the lock position protruding from the insertion hole 51a to the left in the figure.
[0013]
As shown in FIGS. 2 and 4, by closing the protective cover 20, the claw 20d is abutted against the restricting protrusion 25a, and the restricting pin 25 is pushed to the unlock position. On the other hand, when the protective cover 20 is opened as shown in FIGS. 6 and 8, the claw portion 20d is separated from the restricting pin 25 and the pushed state is released. As a result, the restricting protrusion 25a moves to the lock position where it enters the insertion hole 42a of the second nose plate 42. In the insertion hole portion 42a, a restriction portion 42b is provided so as to protrude toward the restriction protrusion portion 25a. For this reason, when the restricting protrusion 25a reaches the lock position, the restricting protrusion 25a enters the movement path of the restricting portion 42b as the nose portion 40 moves. For this reason, when the restriction pin 25 is moved to the lock position, the tip of the restriction portion 42b is abutted against the restriction protrusion 25a as shown in FIGS. As a result, the movement of the nose 40 is restricted.
As shown in FIGS. 3, 5 and 7, the width of the first nose plate 41 is smaller than that of the second nose plate 42. For this reason, when the claw portion 20d of the protective cover 20 is closed with respect to the nose portion 40, it passes through the side of the first nose plate 41 and is inserted into the insertion hole portion 42a of the second nose plate 42, and It abuts against the restricting protrusion 25a. As shown in FIGS. 3 and 5, the tip of the claw portion 20 d is inserted into a position shifted in the width direction from the regulating portion 42 b of the second nose plate 42. For this reason, even when the claw portion 20d enters the insertion hole portion 42a, the claw portion 20d and the restricting portion 42b do not interfere with each other, and therefore the claw portion 20d moves the second nose plate 42 and thus the nose portion 40. Is not regulated.
[0014]
As described above, the protective cover 20 covers the periphery of the nose portion 40 to prevent inadvertent movement of the nose portion 40 as a pressing operation detection member. The protective cover 20 can be opened and closed with respect to the nose portion 40, and when the protective cover 20 is in the closed state, other articles can be prevented from interfering with the nose portion 40. The movement can be prevented.
When the protective cover 20 is closed, the regulation pin 25 is pushed into the unlocked position so that the movement of the nose portion 40 is allowed. Therefore, the tip of the nose portion 40 protruding from the protective cover 20 is used as a driving material. By pressing, it can be moved with respect to the driving machine main body 2 (appropriate movement operation), and thereby a driving operation can be performed.
On the other hand, as shown in FIGS. 6 and 8, the protective cover 20 can be opened with respect to the nose portion 40. By opening the protective cover 20, the first nose plate 41 can be opened with respect to the second nose plate 42, thereby opening the driving passage 40 a so that the driving tool clogged in the driving passage 40 a can be easily obtained. It can be removed (driving passage opening mechanism). Further, when the protective cover 20 is opened, the restriction pin 25 moves to the locked position, and the movement of the nose portion 40 is restricted, thereby preventing an inadvertent driving operation. When removing the driving tool clogged in 40a, the removal operation can be performed with confidence without worrying about an inadvertent driving operation of the driving machine main body 2. Hereinafter, the driving path opening mechanism will be described.
[0015]
The upper part of the first nose plate 41 is rotatably supported on the upper part of the second nose plate 42 via the support shaft 43. The first nose plate 41 is tilted up and down via the support shaft 43, so that the first nose plate 41 is overlapped with the second nose plate 42 as shown in FIG. 6, and the second nose plate as shown in FIG. It can be moved between the open positions separated from the plate 42. When the first nose plate 41 is opened, the driving passage 40a formed on the inner surface thereof (the surface facing the second nose plate 42) is exposed, whereby the driving tool clogged in the driving passage 40a can be easily removed. it can.
A fixing tool 45 for fixing the first nose plate 41 to the second nose plate 42 in a closed state is provided on the outer surface of the first nose plate 41 (the surface facing the protective cover 20). The fixing tool 45 is a turnbuckle-type fixing tool, and is provided on the outer surface of the first nose plate 41 so as to be rotatable via a support shaft 46, and on the rotation tip side of the operating plate 47. A hook spring 48 is provided, and latching portions 49, 49 are provided on the inner surface of the second nose plate 42 (the surface facing the first nose plate 41).
[0016]
As shown in FIGS. 3, 5, and 7, the hook spring 48 is formed by bending an elastic steel wire in a generally U shape when seen in a plan view, and has hook portions 48 a and 48 a at both ends thereof. is doing. The hook spring 48 has a substantially central portion that is pivotably connected to the pivoting tip side of the operating plate 47.
Further, a knob portion 47 a is provided on the rotation tip side of the operation plate 47 for the convenience of the rotation operation of the operation plate 47.
The two latching portions 49, 49 provided on the second nose plate 42 are arranged symmetrically corresponding to both the latching portions 48 a, 48 a of the latching spring 48. As shown in FIG. 8, a lock hole 49 a for hooking the hook portion 48 a of the hook spring 48 is provided on the lower surface side of both the hook portions 49, 49.
2-7, with the first nose plate 41 closed with respect to the second nose plate 42, the hooking portions 48a and 48a of the hooking spring 48 are respectively connected to the lock holes 49a of the hooking portion 49. The first nose plate 41 is locked in a closed state with respect to the second nose plate 42 by rotating the operation plate 47 upward with respect to the support shaft 46 in this hooked state. In this closed state, the operating plate 47 is held in the closed position (position shown in FIGS. 2 to 7) by the urging force generated by the hook spring 48 being pressed by the support shaft 46 and deformed into an arcuate shape. The first nose plate 41 is locked in the closed position with respect to the second nose plate 42.
[0017]
In this closed position locked state, the knob portion 47a is picked and the operation plate 47 is unlocked in the unlocking direction (in the counterclockwise direction in FIGS. 2, 4 and 6) against the urging force of the hook spring 48 around the support shaft 46. ), The pressing state of the hook spring 48 against the support shaft 46 can be released and the urging force can be eliminated. The state where the operating plate 47 is raised and the hook spring 48 is deformed into an arcuate shape is released, and the operating plate 47 is further rotated to the unlocking side so that both the hook portions 48a and 48a of the hook spring 48 are hooked. 49 can be removed from the lock holes 49a. The first nose plate 41 is rotated (opened) in a direction away from the second nose plate 42 by removing both hook portions 48a, 48a of the hook spring 48 from the lock holes 49a of the hook portions 49, respectively. Can do. FIG. 8 shows a state where the first nose plate 41 is opened. In this state, the driving path 40a is exposed, so that the driving tool clogged in the driving path 40a can be easily removed.
[0018]
Next, when the lid is opened to load the magazine 50 with a driving tool, the driving machine 1 of the present embodiment automatically enters a state in which the driving operation of the driving machine main body 2 is prohibited. An inadvertent driving operation during loading of the driving tool is prevented.
The magazine 50 has a magazine main body 59 provided with a driving tool receiving portion 53 for receiving a number of driving tools on the front side thereof, and a slide door type lid for opening and closing the driving tool receiving portion 53 of the magazine main body 59. 52. Further, as shown in FIG. 10, a battery accommodating portion 61 for accommodating the battery 60 is provided on the back side (the right side surface in FIG. 10) of the magazine main body 59. The battery housing 61 and the driving tool housing 53 are partitioned by a bottom plate 54.
The lid 52 is locked in a closed state with respect to the magazine main body 59 by a lock claw (not shown). This locked state can be released by pushing down a push button type knob 52a (see FIG. 1). Two engagement arms 52b and 52b are integrally provided on the inner surface side (side surface facing the driving tool housing portion 53) of the lid 52 and at both upper and lower ends thereof. Both the engagement arms 52b and 52b enter the battery accommodating portion 61 through insertion grooves 54a and 54a formed in the bottom plate 54. The lengths of the insertion grooves 54 a and 54 a are formed in an appropriate range in accordance with the movement range of the lid 52.
[0019]
On the other hand, the battery accommodating part 61 is opened (opening part 61a) at the end part on the handle part 3 side. The battery 60 can be loaded into the battery housing 61 through the opening 61a (see FIG. 11). The opening 61a is closed by a fixed lid 62 for preventing the battery from falling off. The fixing lid 62 is fixed to the battery housing 61 by an engaging claw (not shown) having an appropriate engaging force.
Terminal plates 63 and 63 are disposed in the inner part of the battery housing 61. When the battery 60 is loaded in the battery housing 61, the terminal plate 63 comes into contact with the contacts 60a, 60a of the battery 60, and thereby an electric circuit using the battery 60 as a power source is conducted. By this electric circuit, the combustion chamber 14 is ignited in the driving machine body 2, and the motor 11 for rotating the fan 12 for stirring the air-fuel mixture in the combustion chamber 14 or forcibly exhausting is started. Since it is sufficient to apply a conventionally known configuration as it is to this electric circuit, explanation and illustration are omitted.
[0020]
As shown in FIGS. 11 and 12, when the lid 52 of the magazine 50 is closed, the engaging arms 52b and 52b are positioned at the conduction position closest to the nose portion 40 in the insertion grooves 54a and 54a. In a state in which the engagement arms 52b and 52b are located at the conduction position, both the terminal plates 63 and 63 are pressed by the engagement arms 52b, respectively, whereby the terminal plate 63 is pressed against the contacts 60a and 60a of the battery 60, respectively. Maintained in a state.
On the other hand, when the lid 52 is slid in the opening direction as shown in FIG. 13, both the engaging arms 52 b and 52 b move integrally with the lid 52 and come out of the conducting position. For this reason, both the terminal plates 63 and 63 are separated from the contact 60a of the battery 60 by the elastic force (spring property), and thus the conduction state is interrupted.
From the above, when the lid 52 is opened to load the driving tool into the magazine 50, the engagement arms 52b and 52b are detached from the conducting position, and the terminal plates 63 and 63 are separated from the contacts 60a and 60a of the battery 60. An electric circuit using the battery 60 as a power source is cut off. For this reason, since the combustion chamber 14 is not ignited when the lid 52 is opened, the inadvertent driving operation is surely prohibited even if the battery 60 is not removed from the battery housing 61 as in the prior art. The driving tool can be loaded with peace of mind.
[0021]
In the embodiment described above, when the lid 52 of the magazine 50 is opened, the power supply to the electric circuit that uses the battery 60 as a power source is interrupted, thereby preventing an inadvertent driving operation. The same effect can be obtained depending on the configuration. For example, when the lid 52 of the magazine 50 is opened, the power supply is not interrupted but the movement of the nose portion 40 is prohibited, thereby preventing an inadvertent driving operation when the driving tool is loaded. Hereinafter, this another type of driving operation prohibiting mechanism will be described. This driving operation prohibiting mechanism can be set in place of or in addition to the battery power shut-off mechanism described above.
As shown in FIG. 14, a lock member 55 is supported on the fixed plate portion 51 of the magazine 50 via a support shaft 56 so as to be tiltable. The support shaft 56 is disposed substantially at the center in the longitudinal direction of the lock member 55. For this reason, the lock member 55 is supported in a seesaw state via the support shaft 56. On the rear surface of the second nose plate 42 (the right side surface in FIGS. 14 to 16) corresponding to the lower end of the lock member 55 with respect to the support shaft 56 (hereinafter referred to as the front end 55 a) A lock recess 42c is formed. The lock recess 42c is set at a position facing the front end portion 55a of the lock member 55 in a state where the nose portion 40 is located at the initial position.
[0022]
The lock member 55 is biased by the torsion spring 57 in a direction in which the tip end portion 55a enters the lock recess 42c. On the other hand, the position of the upper end portion of the lock member 55 (hereinafter referred to as the rear end portion 55b) is set so as to be pushed by the upper end portion 52c (the end portion on the nose portion 40 side) of the lid 52 of the magazine 50. Yes. 14 and 15, when the lid 52 of the magazine 50 is closed, the rear end portion 55b side of the lock member 55 is pushed toward the second nose plate 42 side by the upper end portion 52c of the lid 52. As a result, the lock member 55 is tilted counterclockwise in the figure, and the tip end portion 55a is detached from the lock recess 42c. In the state where the lock member 55 is located at this unlock position, the nose portion 40 is allowed to move upward. On the other hand, when the lid 52 of the magazine 50 is opened as shown in FIG. 16, the upper end portion 52c of the magazine 50 is detached from the rear end portion 55b of the lock member 55. In this way, the tip 55a enters the lock recess 42c of the second nose plate 42. In the state where the lock member 55 is located at this lock position, the movement of the nose portion 40 is restricted, and thus the driving operation cannot be performed.
Thus, in the state where the lid 52 of the magazine 50 is closed, the lock member 55 is positioned at the unlock position, thereby allowing the nose portion 40 to move and performing a driving operation. On the other hand, when the lid 52 of the magazine 50 is opened to load the driving tool, the restraint of the rear end portion 55b is released, so that the lock member 55 is moved to the lock position by the torsion spring 56 and the nose portion 40 is moved upward. As a result, the driving operation is prohibited. As a result, the user can safely load the driving tool in a state where the inadvertent driving operation is prevented.
[0023]
According to the driving machine 1 of the present embodiment configured as described above, when the lid 52 of the magazine 50 is opened, the engagement arms 52b and 52b move, and the terminal plates 63 and 63 are connected to the contacts 60a and 60a of the battery 60. Accordingly, the power supply of the battery 60 is cut off. For this reason, when the lid 52 of the magazine 50 is opened, the power for igniting the combustion chamber 14 is not supplied, so that the driving operation is automatically prohibited.
When the lid 52 of the magazine 50 is opened, the lock member 55 is engaged with the second nose plate 42 and the movement of the nose portion 40 is restricted, and as a result, the supply of gas to the combustion chamber 14 is shut off. Then, the driving operation is automatically prohibited.
From the above, without loading the battery 60 or removing the gas can 70 as in the prior art when loading the driving tool into the magazine 50, without worrying about inadvertent driving operation in the driving machine main body 2. The driving tool can be loaded with peace of mind, and therefore the driving tool can be loaded more easily than before.
[0024]
Various modifications can be made to the embodiment described above. For example, the nose part 40 is provided so as to be movable with respect to the driving machine body 2 and the nose part 40 itself has a function as a pressing operation detection member. However, the nose part for guiding the driving tool is illustrated. May be provided so as to be fixed to the main body of the driving machine, and separately, a similar protective cover may be provided for the driving machine in which the pressing operation detecting member is movably provided near the tip of the nose portion. Further, in this case, when the lid 52 of the magazine 50 is opened, the driving operation may be prohibited by engaging the lock member 55 with a pressing operation detecting member provided separately from the nose portion.
Further, the magazine 50 is exemplified by the driving tool 1 having a form in which a large number of driving tools are connected in parallel to form a plate (so-called stick nails) one by one. The present invention can be similarly applied to a driving machine provided with a magazine that is loaded with a sheet or wire (so-called coil connection nails) wound in a coil shape.
Furthermore, although the configuration in which the energization of the battery 60 is cut off and the movement of the nose portion 40 is restricted by the lock member 55 when the lid 52 of the magazine 50 is opened, either one of the mechanisms may be omitted. .
Further, the protective cover 20 and the nose opening mechanism can be omitted.
Furthermore, the gas combustion type nailing machine is illustrated as an example of the driving machine. However, the driving apparatus can be applied to a nailing machine using compressed air as a driving source. The same applies to the machine.
[Brief description of the drawings]
FIG. 1 is a side view of an embodiment of the present invention and a gas combustion type driving machine. In this figure, the internal structure of the driving machine main body is shown.
FIG. 2 is a side view of a nose portion located in an initial position and its periphery. In this figure, the closed protective cover is shown in a longitudinal section. In addition, the upper end portion of the magazine and the periphery of the restriction pin are shown broken.
FIG. 3 is a plan view of a nose portion located in an initial position and its periphery. In this figure, the protective cover in a closed state is shown in cross section.
FIG. 4 is a side view of the nose portion located in the upward movement position and its periphery. In this figure, the closed protective cover is shown in a longitudinal section. In addition, the upper end portion of the magazine and the periphery of the restriction pin are shown broken.
FIG. 5 is a plan view of the nose portion located in the upward movement position and its periphery. In this figure, the protective cover in a closed state is shown in cross section.
FIG. 6 is a plan view of the nose portion located in the initial position and its periphery. In this figure, the protective cover in the opened state is shown in a longitudinal section.
FIG. 7 is a plan view of the nose portion located in the initial position and its periphery. In this figure, the protective cover is omitted.
FIG. 8 is a side view of the nose portion and its periphery with the first nose plate opened. In this figure, the opened protective cover is shown in a longitudinal section.
FIG. 9 is a plan view of the nose portion and its periphery in a state where the first nose plate is opened. In this figure, the protective cover is omitted.
10 is a view taken in the direction of arrows (10)-(10) in FIG. 1, and is a longitudinal sectional view of the magazine.
FIG. 11 is a side view of a nose portion and a magazine. This figure shows the battery on the back side of the magazine with the lid closed.
FIG. 12 is a partial side view of a nose portion and a magazine. This figure shows the battery on the back side of the magazine with the lid closed.
FIG. 13 is a partial side view of a nose portion and a magazine. In this figure, the battery on the back side of the magazine with the lid opened is shown.
FIG. 14 is a side view of a nose portion and a magazine. This figure shows the magazine with the lid closed. The nose portion is shown in a state located at the initial position.
FIG. 15 is a side view of a nose portion and a magazine. This figure shows the magazine with the lid closed. In addition, the nose portion is located at the initial position, and the protective cover is shown in a closed state.
FIG. 16 is a side view of a nose portion and a magazine. This figure shows the magazine with the lid open. Further, the nose portion is located at the initial position, and the protective cover is shown in a closed state.
[Explanation of symbols]
1 ... Driving machine
2 ... The main body of the driving machine
4 ... Trigger switch
7 ... Piston
14 ... Combustion chamber
20 ... Protective cover, 20d ... Claw
25 ... Regulation pin
40 ... Nose part, 40a ... Driving path
41. First nose plate
42 ... Second nose plate
42a ... insertion hole portion, 42b ... regulation portion, 42c ... lock recess
45. Fixing tool
48 ... Hanging spring
50 ... Magazine
51 ... Fixed plate
52 ... Lid
53. Driving tool receiving portion
55 ... Lock member
59 ... Magazine body
60 ... Battery
63 ... Terminal board
70 ... Gas can
L: Projected from the protective cover of the nose at the initial position

Claims (2)

A driving machine body, a nose portion for firing the driving tool, and a magazine for supplying the driving tool to the nose portion;
The magazine includes a magazine main body provided with a driving tool storage portion for storing the driving tool, a slide-type lid for opening and closing the driving tool storage portion, and a power source necessary for performing the driving operation of the driving machine main body. A battery accommodating portion for accommodating a battery for supply ;
When the lid of the magazine is closed, the terminal plate is pressed against the contact point of the battery by the engagement arm provided integrally with the lid, and the power supply state is maintained.
When the lid of the magazine is slid in the opening direction, the engagement arm is detached from the terminal plate and the terminal plate is separated from the contact point of the battery, so that the power supply to the driving machine body of the battery is cut off. configuration and the driving machine driving operation of the previous Symbol driving machine body is prohibited is. A claim 1 driving tool according the pressing operation detection member to be in a state of moving the driving operation of the driving tool main body is not made to the driving tool main body by pressing the driving member, the magazine A driving machine provided with a driving operation prohibiting mechanism that restricts movement of the pressing operation detecting member when the lid is slid in the opening direction .

Images