CN107206580A - Power tool including locking mechanism and the method for engaging the locking mechanism - Google Patents

Abstract

A kind of power tool for being used to drive fastener, including cylinder (50) and the driving piston (54) in the cylinder (50).The driving piston (50) is by the driving force effect from pressure difference, and the driving piston (54) can be moved between initial position and activation point.The power tool also includes actuator (42), actuator is attached to the driving piston (54) and can be operable to drive fastener, and locking mechanism (300), the locking mechanism passes through at least two bayonet sockets (306,308) the fastener operation between at least two locking mechanisms (304,305).By using this pair of action locking gear (300), power tool is than for driving the common power tool of fastener significantly safer.

Description

Power tool including locking mechanism and the method for engaging the locking mechanism

Technical field

The present invention relates to a kind of power tool, and relate more specifically to a kind of powered fastener driver.

Background technology

It is well known in the art to have various for fastener (for example, nail, nail, staple etc.) to be driven into workpiece Fastener driver.These fastener drivers are using various devices well known in the prior art (for example, by air compressor The compressed air of generation, electric energy, flywheel mechanism) operation, but generally, these designs are using simple locking mechanism for anti- Only accidental trigger action, and therefore cause undesirable and usual dangerous fastener power.These simple locking machines Structure is generally less reliable over time, because they are prone to wear out and result in the failure of locking mechanism.

The content of the invention

One aspect of the present invention provides a kind of power tool for being used to drive fastener, including cylinder；In the gas Driving piston in cylinder, the driving piston is by the driving force effect from pressure difference, and the driving piston can be in initial position Moved between activation point；Actuator, is attached to the driving piston and can be operable to drive fastener, wherein, The power tool includes locking mechanism, and the locking mechanism passes through between at least two bayonet sockets and at least two locking mechanisms Fastener is operated.

Preferably, at least two bayonet socket is at least two recesses being integrally formed on the actuator.

In one embodiment, at least two recess includes protrusion.

In another aspect in this embodiment, at least two recesses formation is on the side of the actuator.

Preferably, at least two locking mechanism is at least two pins, and at least two pin is provided with keeper, institute Keeper is stated to separate with the actuator.

In one embodiment, the pin has circular or elliptic cross-section.

In another aspect in this embodiment, institute is bonded between at least two pins and at least two recesses State independent on the position of keeper.

In another embodiment, the keeper is biased by the component of elastically deformable, and it is arranged on described keep Between the structural portion of the lug boss of part and the power tool.

In another embodiment, the keeper can be pivoted between locked and unlocked positions.

In another embodiment, the keeper is pivoted in a first direction, so that when the raised quilt of the keeper During sharp component pressing, at least two pin moves away from least two recess.

In another embodiment, the keeper is pivoted in a second direction, thus when the keeper projection with During sharp component separation, closer at least two recess of at least two pins motion.

In another aspect in this embodiment, when the keeper is pivoted in this second direction, it is described extremely Few two pins depart from at least two recess.

In another aspect in this embodiment, when the keeper is pivoted in this second direction, it is described extremely Few two pins make great efforts to engage with least two recess.

In another aspect in this embodiment, one at least two pin will with it is described at least two recessed Mouthful engagement, and at least two pin the both only will be engaged with one of at least two recess.

Another aspect provides a kind of method for engaging locking mechanisms, including：Force by locking mechanism The actuator of locking is to activation point, so as to drive fastener；Keeper is forced to first direction and causes at least two locks Determine component and move away from least two bayonet sockets, to depart from the locking mechanism, so that the actuator can be operable to use In driving fastener.

Preferably, at least two locking component is at least two pins, and it is provided with the guarantor separated with the actuator Gripping member.

Preferably, at least two locking mechanism is at least two pins, and it is provided with keeper, keeper and actuator Separation.

In one embodiment, one of described at least two recess includes protrusion.

Preferably, the pin has circular or elliptic cross-section.

Another aspect provides a kind of method for engaging locking mechanisms, including：Actuator is forced to just Beginning position so that engaging locking mechanisms；Keeper is forced to second direction；So that at least two locking components are closer at least Two bayonet sockets, so that during actuator backstroke, at least two bayonet sockets at least one locking component and actuator One of contact, and at least two locking mechanisms and each bayonet socket are positioned, for engaging the locking mechanism.

Preferably, at least two locking component is at least two pins, and it is provided with the guarantor separated with the actuator Gripping member.

Preferably, at least two bayonet socket is at least two recesses, and it is integrally formed on the actuator.

In one embodiment, one of described at least two recess includes protrusion.

In another embodiment, the pin has circular or elliptic cross-section.

In another embodiment, methods described includes changing the position of the keeper, so as to control the pin and institute State the engagement between recess.

In another embodiment, the method for engaging locking mechanisms also includes：By at least two locking components and respectively Individual bayonet joint, so as to lock actuator to prevent the occasional motion of the actuator；By the first locking component and the first recess Engagement, then, first recess is deflected out by first locking component from protrusion；And by the first locking component and Two recesses are engaged, simultaneously so that the second locking component is engaged with the first recess, so as to complete locking mechanism engagement.

It is will be apparent by considering to elaborate with appended accompanying drawing, many aspects of the invention.

Present invention includes locking mechanism, and it can limit the motion of actuator securely, to prevent the not phase of fastener The driving of prestige.By using multiple abutments for locking mechanism, it is used for locking compared to a mostly just abutment Conventional locking mechanism, therefore, the life-span of the locking mechanism greatly improves.Because having at least two locking mechanisms and at least another Individual bayonet socket forms and is configured to act as locking mechanism, therefore is applied to the power on locking mechanism and actually halves, and this may lead Caused each locking component life-span be more than twice.Two pins work good under its threshold yield intensity now, so that this The probability for the failure sold a bit has been substantially reduced.Equally, double motion pins/recess mechanism forms other safety measure, at one In the case of pin destruction, still there is another pin to provide at sword of the temporary transient lock function into operation.

Before any embodiment of the present invention is at large illustrated, it is to be understood that the invention is not restricted to its application To the details of the construction and arrangement in the component that description below is proposed or is shown in the following figures.The present invention can have it His embodiment, and otherwise can put into practice or perform.

Brief description of the drawings

Fig. 1 is the perspective view of the powered fastener driver according to embodiments of the present invention；

Fig. 2 is with the partial cut-away with cylinder of the powered fastener driver of Fig. 2 shown in projection pattern；

Fig. 3 is the sectional view of the locking mechanism of Fig. 1 powered fastener driver；

Fig. 4 is the perspective view of the keeper of Fig. 3 locking mechanism；

Fig. 5 for the locking mechanism in Fig. 3 latched position in keeper sectional view；

The top view for the keeper moved in first position towards unlocked position that Fig. 6 is Fig. 4；

The top view for the impacting pin being in activation point that Fig. 7 is Fig. 4；

Fig. 8 is the top view of Fig. 4 impacting pin for returning to initial position；

Fig. 9 for Fig. 4 the second place in the top view of keeper that is moved towards latched position；

The top view for the keeper moved towards latched position that Figure 10 is Fig. 4；

The top view for the impacting pin for being in initial position, being locked by locking mechanism that Figure 11 is Fig. 4.

Embodiment

Fig. 1 shows vacuum power fastener driver 10, its operable fastener will remain in instrument cases 14 (for example, nail, nail or staple etc.) is driven into workpiece.Fastener driver 10 includes the shell with handle portion 22 18, and the trigger 26 that the user being installed in handle portion 22 activates.Fastener driver 10 does not need outside pneumatic supply, But also include the vacuum system 30 (as shown in Figure 2) on plate.Vacuum system 30 is powered by power supply (for example, battery pack 34), its It is attached to the battery package portion 38 of shell 18.In alternative embodiment, alternative power supply (for example, cable) can be used for carrying electric power Supply vacuum system 30.

With reference to Fig. 1, fastener driver includes actuator 42, and it is activated fastener being driven into work by vacuum system 30 In part.Vacuum system 30 includes the vacuum chamber 46 for the variable volume being limited in cylinder 50, and it is filled in driving piston 54 and lifting Put or reciprocating-piston 58 between.Actuator 42 is attached to driving piston 54, and vacuum chamber 46 is due to acting on driving piston Pressure difference on 54 and form driving force.Reciprocating-piston 58 drives (not shown) by drive component in a reciprocal manner.In fastening In the embodiment shown of part driver 10, drive component includes motor 74, transmission device, and it is received from motor 74, small The moment of torsion of gear 66, and be connected to driving piston 54 to reciprocally move.

With reference to Fig. 2, by moving away from reciprocating-piston 58 to drive piston 54, vacuum is formed in vacuum chamber 46, together When driving piston position be kept or maintain.Buffer 76 is located in the bottom of cylinder 50, and absorbs from past resurrection The impulsive force of plug 58 and driving piston 54.Buffer 76 includes projection 77, and projection 77 is contained in be formed in reciprocating-piston 58 Corresponding recess (not shown).

In order to ensure the processing safety of fastener driver 10, design and implement locking mechanism.With reference to Fig. 3, locking Mechanism 300 includes keeper 302, and it also includes multiple components, and component is designed to cooperate with the axle portion 301 of actuator, So as to there is provided for preventing the lock function of accidental activation fastener driver 10.Keeper 302 is pivoted around axle 310, its Front-end configuration close to fastener driver 10 is in fixed position.Keeper 302 is also by resiliency deformable members 314 and together One fixed part is connected, and it is arranged between the fixed part on keeper 302 and finger section 312.In this embodiment, spring 314 are used to provide bias force, so that keeper is forced in first position.Keeper 302 can include multiple locking mechanisms, And in this embodiment, keeper 302 includes the locking mechanism 304,305 two in the form of pin, and it is designed and driven The bayonet socket interaction formed in the axle portion 301 of moving part.Keeper 302 also has lug boss 318 for being brought back to life from past The point 316 of plug 58 is engaged, and keeper 302 is forced in second direction.

The automatic engagement that locking mechanism 300 is depended between the pin 304,305 on keeper 302 and bayonet socket 306,308, its It is integrally formed on actuator 42.Pin 304,305 can have circular cross-section or in some cases elliptic cross-section.Pin 304,305 are made up of high-strength material, or preferably, are made up of alloy, and alloy being capable of high confrontation impact load and fatigue.Together Sample, used material should also have high ductibility, so as to allow user to have leeway to notice such situation：Pin 304, 305 actuator 42 from initial position is positioned.Fragile material should be avoided, because snap-in pin 304,305 may allow Fastener drives or therefore user is caused harm by accident.

Pin 304,305 is designed to and bayonet joint, and it is integrally formed on actuator 42.In this embodiment, block Mouthful it is to be connected two bayonet sockets to be formed along the longitudinal direction of actuator.Two bayonet sockets are made up of the first bayonet socket and the second opening. First bayonet socket is that the first bayonet socket includes sloping edge with the second opening difference, and it is protrusion 307 in this embodiment (as shown in Figure 3).Second bayonet socket 308 only has the profile being symmetrically formed.Two bayonet sockets are spaced apart from each other, and protrusion Seamlessly transitting between 307 the first bayonet sockets 306 of formation and the second bayonet socket 308.

Now, in the operation for returning to above-mentioned device, Fig. 4 shows the locking mechanism 300 in being in the locked position, together When actuator 42 be in initial position in.Keeper 302 is forced by spring (not shown), and as a result, two small by 304,305 With the first bayonet socket, the second bayonet socket 306,308 is completely combined.In initial position, lengthwise movement of the actuator 42 along its longitudinal axis Limited completely by locking mechanism 300, ensure that maximum security.With reference to Fig. 5, the section view of locking mechanism 300 exposes , each pin 304,305 is engaged with each recess, and pin 304,305 is locked by keeper 302 by spring (not shown) direction Positioning, which is put, to be forced, for limiting the motion of actuator 42.

In order to which using locking mechanism (such as Fig. 6-11), for fastener is driven into workpiece, user's actuating fastener drives The trigger (not shown) of dynamic device is for electric on motor.The actuating of trigger will cause reciprocating-piston to be transported towards keeper It is dynamic, and allow the tip on reciprocating-piston to be engaged with the lug boss 318 on keeper 302.Keeper 302 will be forced to first On direction, it is in this embodiment for counterclockwise.The motion of keeper 302 will also cause at least two locking mechanisms fortune The dynamic motion that actuator 42 is simultaneously therefore limited away from least two bayonet sockets.Fig. 7 shows the actuator in activation point to be in 42 for driving fastener.As shown in drawings, at least two locking machines of at least two bayonet sockets just on keeper 302 Structure.

Once fastener is driven into workpiece by actuator 42, then in this embodiment, reciprocating-piston will opened Moved on the direction of the initial position of dynamic sword, therefore so that the lug boss 318 of point and keeper 302 on reciprocating-piston Depart from.Any bias force that the disengaging will be also broken away from the lug boss 318 for acting on keeper 302.Therefore, keeper 302 exists It will be forced in the embodiment in second direction, it is clockwise direction, so that at least two locking mechanisms are driving Moved on the direction of moving part 42.When actuator 42 is returned towards its initial position, first locking mechanism 305 will be by the first bayonet socket 306 occlusions (as shown in Figure 8).However, as shown in figs. 9-10, the locking mechanism that is engaged by the first bayonet socket 306 and then will be along grand Play portion 307 and slide out the first bayonet socket 306, protrusion formation is between the first bayonet socket 306 and the second opening 308.With actuator Its initial position is continued back to, then locking mechanism will slide towards the second bayonet socket 308.

Once actuator 42 has completed to return to its initial position (as shown in figure 11), two locking mechanisms 304 are distinguished Engage with the first bayonet socket, the second opening 306,308, and complete the lock function of locking mechanism 300.As shown in figure 11, two Locking mechanism 304,305 is urged towards the longitudinal edge of bayonet socket 306,308, to ensure that actuator 42 may be limited securely System, to prevent any occasional motion.

In another embodiment unshowned in the accompanying drawings, another fastener driver can have locking mechanism, and it is wrapped Include two or more locking mechanism and two or more bayonet socket.Locking mechanism and bayonet socket will be similarly formed (the reality in such as Fig. 3-11 Apply mode) because equally there is pin in locking mechanism, it has circular cross-section or with elliptic cross-section profile.Card Mouth is also possible to be integrally formed on actuator, except situations below：If three bayonet sockets, then there will be at least two protrusion shapes Into.

Although at large elaborating the present invention with reference to some preferred embodiments, in described of the invention one In the scope and spirit of individual or multiple independent aspects, there are various variants and modifications.

Claims (26)

1. a kind of power tool for being used to drive fastener, including：Cylinder；Driving piston in the cylinder, the driving Piston can be moved by the driving force effect from pressure difference, the driving piston between initial position and activation point；Driving Part, is attached to the driving piston and can be operable to drive fastener, wherein, the power tool includes locking machine Structure, the locking mechanism is operated by the fastener between at least two bayonet sockets and at least two locking mechanisms.

2. power tool as claimed in claim 1, wherein, at least two bayonet socket is to be integrally formed on the actuator At least two recesses.

3. power tool as claimed in claim 2, wherein, at least two recess includes protrusion.

4. power tool as claimed in claim 3, wherein, at least two recesses formation is in the side of the actuator On.

5. power tool as claimed in claim 1, wherein, at least two locking mechanism is at least two pins, it is described extremely Few two pins are provided with keeper, and the keeper is separated with the actuator.

6. power tool as claimed in claim 5, wherein, the pin has circular or elliptic cross-section.

7. the power tool as described in claim 5 or 6, wherein, connecing between at least two pins and at least two recesses Close independent on the position of the keeper.

8. power tool as claimed in claim 5, wherein, the keeper is biased by the component of elastically deformable, and it is pacified Between the lug boss of the keeper and the structural portion of the power tool.

9. power tool as claimed in claim 5, wherein, the keeper being capable of pivot between locked and unlocked positions Turn.

10. power tool as claimed in claim 5, wherein, the keeper is pivoted in a first direction, so as to be protected when described When the projection of gripping member is pressed by sharp component, at least two pin moves away from least two recess.

11. power tool as claimed in claim 5, wherein, the keeper is pivoted in a second direction, so as to be protected when described When the projection of gripping member is separated with sharp component, closer at least two recess of at least two pins motion.

12. power tool as claimed in claim 11, wherein, when the keeper is pivoted in this second direction, institute At least two pins are stated with least two recess to depart from.

13. power tool as claimed in claim 11, wherein, when the keeper is pivoted in this second direction, institute At least two pins are stated to attempt to engage with least two recess.

14. power tool as claimed in claim 13, wherein, the one at least two pin will be with described at least two The engagement of individual recess, and at least two pin the both only will be engaged with one of at least two recess.

15. a kind of method for engaging locking mechanisms, including：The actuator locked by locking mechanism is forced to activation point, So as to drive fastener；Keeper is forced to first direction and so that at least two locking components move away from least two cards Mouthful, to depart from the locking mechanism, so that the actuator can be operable to be used to drive fastener.

16. it is used for the method for engaging locking mechanisms as claimed in claim 15, wherein, at least two locking component is extremely Few two pins, it is provided with the keeper separated with the actuator.

17. it is used for the method for engaging locking mechanisms as claimed in claim 15, wherein, at least two bayonet socket is at least two Individual recess, it is integrally formed on the actuator.

18. it is used for the method for engaging locking mechanisms as claimed in claim 17, wherein, one of described at least two recess Including protrusion.

19. it is used for the method for engaging locking mechanisms as claimed in claim 15, wherein, the pin has circular or ellipse Section.

20. a kind of method for engaging locking mechanisms, including：Actuator is forced to initial position, so that engaging locking mechanisms； Keeper is forced to second direction；So that at least two locking components are closer at least two bayonet sockets, so as to be returned in actuator During reversion journey, one of at least one locking component and at least two bayonet sockets on actuator are contacted, and will at least two Individual locking mechanism is positioned with each bayonet socket, for engaging the locking mechanism.

21. it is used for the method for engaging locking mechanisms as claimed in claim 19, wherein, at least two locking component is extremely Few two pins, it is provided with the keeper separated with the actuator.

22. it is used for the method for engaging locking mechanisms as claimed in claim 19, wherein, at least two bayonet socket is at least two Individual recess, it is integrally formed on the actuator.

23. it is used for the method for engaging locking mechanisms as claimed in claim 22, wherein, one of described at least two recess Including protrusion.

24. it is used for the method for engaging locking mechanisms as claimed in claim 20, wherein, the pin has circular or ellipse Section.

25. the method for engaging locking mechanisms as described in claim 15 or 20, wherein, methods described includes changing described The position of keeper, so as to control the engagement between the pin and the recess.

26. it is used for the method for engaging locking mechanisms as claimed in claim 23, in addition to：

By at least two locking components and each bayonet joint, so as to lock actuator to prevent the accidental fortune of the actuator It is dynamic；First locking component is engaged with the first recess, then, first locking component described first is deflected out from protrusion Recess；And engage the first locking component and the second recess, simultaneously so that the second locking component is engaged with the first recess, from And complete locking mechanism engagement.