CN201281220Y

CN201281220Y - Power tool

Info

Publication number: CN201281220Y
Application number: CN 200820040807
Authority: CN
Inventors: 钟红风
Original assignee: Positec Power Tools Suzhou Co Ltd
Current assignee: Positec Power Tools Suzhou Co Ltd
Priority date: 2008-07-14
Filing date: 2008-07-14
Publication date: 2009-07-29
Anticipated expiration: 2018-07-14

Abstract

The utility model discloses a power tool, which comprises a casing, a motor contained in the casing, and an output shaft matched and connected with a working head, wherein, a locking device that can move between a locking position preventing the rotation of the output shaft and a loosening position allowing the rotation of the output shaft is disposed on the output shaft, when the motor starts up, an electromagnet component drives the locking device to move to the loosening position from the locking position. The output shaft locking device of the power tool moves to the loosening position from the locking position automatically when the motor starts up, and operations of the power tool are safe and convenient.

Description

Power tool

Technical field

The utility model relates to a kind of power tool, the particularly a kind of power tool that need when changing working head, lock output shaft, and as electric circular saw, the angle mill, bakelite mills, electric drill, sander, miter saw and large-scale cutting machine etc.

Background technique

Electric circular saw, the angle mill, bakelite mills, electric drill, sander cuts work such as polishing thereby power tools such as miter saw and large-scale cutting machine normally drive the working head rotation by the rotation of motor driven output shaft.In long-term using process, working head is easy to wearing and tearing and needs to change working head.Perhaps in operating process, also often need to change the working head of various different sizes to adapt to different work requirements.But in the process of the instrument disassemble and assemble work head that uses spanner or similar functions, output shaft is easy to take place transfer, thereby is unfavorable for the dismounting of working head.Prior art has disclosed the various lock shaft devices that prevent the output shaft transfer.U. S. Patent is announced US5,430, a kind of electric circular saw that is disclosed for 944A number, an affixed disk on motor output shaft with groove, casing is provided with piston and depression bar, thereby the operation depression bar makes piston enter in the disk groove locking output shaft, unclamps the depression bar piston and resets under the elastic force of stage clip and unclamp output shaft.But this lock shaft device parts are many, and complex structure needs a handling depression bar locking output shaft in use, and instruments such as another hand use spanner carry out the dismounting of working head, operation effort and use inconvenience.D.B.P. discloses the lock shaft device that discloses a kind of electric circular saw for DE19938299A1 number and is arranged in the axle center hole of output shaft, when inserting spanner disassemble and assemble work head, thereby spanner promotes the lock shaft device axial motion against motor ventilating fan locking output shaft, when taking out spanner, lock shaft device resets under the effect of elastic element and unclamps output shaft.This lock shaft device utilizes spanner to lock output shaft in the disassemble and assemble work head, is easy to cause danger, and when particularly the operator forgot to take off spanner and promptly starts motor, spanner or fly out at a high speed caused the accident, or still locks output shaft and cause the motor damage.

The model utility content

Technical problem to be solved in the utility model provides a kind of power tool, and the output shaft locking device of this instrument can automatic unlocking when motor is opened.

Another technical problem to be solved in the utility model provides a kind of power tool, and the output shaft locking device of this instrument need not to use extra instrument can realize the locking of output shaft.

Another technical problem to be solved in the utility model provides a kind of power tool, when the locking device of this instrument has avoided motor just to quit work, and output shaft locked suddenly.

The technical solution of the utility model is: a kind of power tool, comprise casing, be housed in the motor in the casing, by motor driven and the output shaft that connects with working head, can and allow the locking device that moves between the unlocked position of described output shaft rotation at the locked position that stops described output shaft rotation, it is characterized in that: described power tool also comprises electromagnet assembly, described electromagnet assembly comprises the coil that is electrically connected with power supply, described locking device comprises the axially movable moving part of relative coil, during described motor starting, the electric current by coil in the electromagnet assembly produces electromagnetic force and drives described locking device and move to the unlocked position from locked position.

The start and stop that the release of output shaft and locking process all are accompanied by motor take place, and do not need operator's tool using specially output shaft to be locked.

Thus, a further technological scheme of the present utility model is: described moving part moves axially with respect to output shaft.Described locking device comprises the fixed block of fixedlying connected with motor shaft, and described moving part moves between locked position and unlocked position with respect to fixed block.

Preferably, described moving part is an active toothed disk, and described fixed block is a fixed tooth disk, and during motor starting, moved end tooth on the active toothed disk and the fixed end tooth on the fixed tooth disk break away from; When motor stops, moved end tooth on the active toothed disk and the fixed end tooth engagement on the fixed tooth disk.

Another further technological scheme of the present utility model is: described moving part moves radially with respect to output shaft.Described locking device comprises the fixed block of fixedlying connected with output shaft, and described moving part moves between locked position and unlocked position with respect to fixed block.

Preferably, described moving part is a pin, and described fixed block has the groove that relative output shaft is radially offered, and during motor starting, the groove on pin and the fixed block breaks away from; When motor stops, the engagement on pin and the fixed block.

Preferably, described locking device also comprises the elastic component of being located between coil and the moving part.Described electromagnet assembly also comprises electromagnet base, and described coil is contained in the electromagnet base, and described elastic component one end is resisted against on the electromagnet base, and the other end is resisted against on the moving part.Described elastic component is a spring.

For the sake of security, further technological scheme of the present utility model is: power tool also comprises first switch of controlling motor and the second switch of controlling electromagnet assembly, and after first switch disconnected, the second switch time-delay disconnected.Like this, can guarantee that motor stops after, locking device moves to locked position again, has avoided in the process that output shaft progressively slows down taking place unexpected lock shaft, output shaft is produced impact.

Preferably, first switch and second switch are gang switches, after the second switch closure, and the first switch timing closing.Like this, can guarantee that in the motor starting process, output shaft is in the state of release fully.

Further, also comprise the control switch of connecting, control switch opens/closure when the electromagnet assembly action puts in place with first switch.Like this, after can guaranteeing electromagnet assembly really action putting in place, restart and close motor, avoid because locking device moves the impact that causes not in place and dangerous.

Description of drawings

Below in conjunction with accompanying drawing and preferred embodiment the utility model is described further.

Fig. 1 is the sectional view of the electric circular saw of the utility model first preferred embodiment, and wherein locking device is positioned at locked position.

Fig. 2 is the sectional view of the electric circular saw of the utility model first preferred embodiment, and wherein locking device is positioned at the unlocked position.

Fig. 3 is along the sectional view shown in the D-D among Fig. 2.

Fig. 4 is the plan view of the electric circular saw of the utility model second preferred embodiment.

Fig. 5 is that wherein locking device is positioned at locked position along the partial sectional view shown in the E-E among Fig. 4.

Fig. 6 is that wherein locking device is positioned at the unlocked position along the partial sectional view shown in the E-E among Fig. 4.

Fig. 7 is along the partial sectional view shown in the F-F among Fig. 5.

Fig. 8 is the schematic representation that the bakelite of the utility model the 3rd preferred embodiment mills.

Fig. 9 is along the partial sectional view shown in the G-G among Fig. 8.

Figure 10 is the control circuit schematic representation of using in the utility model.

Figure 11 is the sequential schematic representation of switch work in the circuit shown in Figure 10.

Figure 12 is the another kind of control circuit schematic representation of using in the utility model.

Figure 13 is the sequential schematic representation of switch work in the circuit shown in Figure 12.

Figure 14 is the another kind of control circuit schematic representation of using in the utility model.

Figure 15 is the sequential schematic representation of switch and electromagnet assembly work in the circuit shown in Figure 14.

Wherein:

200,300 electric circular saws, 26 motors, 22 casings, 27 motor shafts

28 saw blades, 32 bearings, 34 bearings, 36 screws

37 fastening pieces, 230 output shafts, 240 driving components, 260 electromagnet assemblies

262 coils, 264 active toothed disk 264a main body 264b moved end teeth

264c projection 266 elastic components 268 electromagnet base 268a main bodys

268b accepting groove 268c annular projection part 268d interior groove 268e groove

269 fixed end teeth, 270 fixed tooth disks, 272 motor shaft ends, 301 base plates

302 guard shields, 303 handles, 304 cables, 340 driving components

342 grooves, 360 electromagnet assemblies, 362 coils, 364 iron cores

365 collars, 366 elastic components, 367 fixing frames, 368 electromagnet bases

369 connecting lines, 370 through holes, 371 end caps, 400 bakelites mill

402 casings, 404 handles, 406 cables, 408 chucks

409 pillars, 410 base plates, 412 depthkeeping chis, 414 adjusting knobs

416 motors, 418 output shafts, 420 fans, 460 electromagnet assemblies

462 coils, 464 iron cores, 465 collars, 466 elastic components

468 electromagnet bases, 469 connecting lines, 470 blind hole K1, first switch

K2 second switch K3 the 3rd K switch 4 control switchs

Embodiment

It is the lock shaft structure that preferred embodiment specifies power tool that the utility model mills with electric circular saw and bakelite.The utility model also can be applied in the angle mill, and sander is on the power tools such as miter saw and large-scale cutting machine.According to the different operating occasion of instrument, the output shaft of power tool and motor shaft can be the settings that is parallel to each other, and also can be orthogonal settings, also can be angled settings.But, concrete the position is set can't influences concrete enforcement of the present utility model.Generally, the output shaft and the motor shaft of electric circular saw be arranged in parallel, and the output shaft of angle mill then is vertical setting with motor shaft.According to the utility model, dissimilar instruments can be arranged on locking device different positions.

Referring to accompanying drawing 1～3, first preferred embodiment of the present utility model provides a kind of electric circular saw 200 that comprises the lock shaft mechanism of electromagnet assembly 260.Wherein, electric circular saw 200, comprise casing 22, be housed in the motor 26 of the charged arbor 27 in the casing 22, connect the output shaft 30 of saw blade 28, output shaft 30 rotatably is erected on the casing 22 by bearing 32,34, and an end of output shaft 30 is provided with tapped hole 36 and is threaded with the fixing fastening piece 37 of saw blade 28, the other end is socketed with driving component 240, and driving component 240 passes to output shaft 230 with motor shaft 27 engagements with rotatablely moving of motor 26.During motor 26 work, towards a direction rotation, drive output shaft and saw blade all the time, realize cutting.In order when 37 pairs of saw blades of instrument turn Fastener 28 such as use spanner carry out dismounting, prevent output shaft 230 transfers, but the utility model first preferred embodiment to provide a kind of axial motion to lock and/or loosen the lock shaft structure of output shaft.

In the present embodiment, electromagnet assembly 260 is located in the casing 22, links to each other with locking device.It comprises electromagnet base 268 and is located at the coil 262 that is electrically connected with power supply in the electromagnet base 268.Locking device comprise with respect to coil 262 axially movable moving parts 264 and the fixed block 270 of fixedlying connected with motor shaft 27 and be located at coil 262 and moving part 264 between elastic component 266.Fixed block is to be set in the fixed tooth disk 270 of motor shaft 27 away from the motor shaft end 272 of driving mechanism.Fixed tooth disk 270 comprises the main body of basic annular and is located at several fixed end teeth 269 on one of them end face of main body.It is fixedly connected with respect to motor shaft 27, can rotate and rotate along with motor shaft 27.Driving component 240 is the gears of fixedlying connected with output shaft 230.

Electromagnet base 268 main body 268a are cylindrical, and inside is provided with the accepting groove 268b that accommodates coil 262, establish axially extended annular protruding portion 268c in the main body 268a, among the interior groove 268d that is contained in annular protruding portion 268c of elastic component 266 parts.Radially be extended with several grooves 268e on the inside circumference wall of main body 268a.

Moving part in the present embodiment is an active toothed disk 264, comprises the main body 264a and the moved end tooth 264b that is located on the main body end face of primary circle annular.The excircle of its main body 264a part radially is extended with several projections 264c, the number of projection 264c and the number of the groove 268e on angle and the electromagnet base 268 is corresponding with the interval angle at interval.

Elastic component 266 is compression helical springs, and the one end is resisted against among the interior groove 268d of electromagnet base 268, the other end be resisted against active toothed disk 264 with moved end tooth 264b opposing end faces on.

When power supply is not switched on, there is not the electric current process in the coil 262 in the electromagnet assembly 260.Active toothed disk 264 is under the effect of the elastic force of elastic component 266, and its moved end tooth 264a is meshed with fixed end tooth 269 on the fixed tooth disk 270, and active toothed disk 264 is in the position of locking.Motor 26 is not activated, and motor shaft 27 remains static.The operator installs or dismantles saw blade 28 if desired, even rotate saw blade 28, because moved end tooth 264a and fixed end tooth 269 are meshed, active toothed disk 264 relative casings 22 maintain static, thereby fixed tooth disk 270 also maintains static with respect to casing 22, and the motor shaft 27 of fixedlying connected with fixed tooth disk 270 just can not rotate along with the rotation of saw blade 28 yet.At this moment, the position that output shaft 230 cannot not be in rotatablely, promptly locking device is in locked position.The operator can directly unload the nut 37 that is contained on the saw blade 28 with instrument, and does not need to pin motor shaft 27, another hand nutting with a hand.Dismounting and convenient, the safety of process that saw blade is installed.

When power supply is switched on, electromagnet assembly 260 gets with power connection, electric current is flowed through and is contained in coil 262 among the accepting groove 268b, the electromagnetic force that produces overcomes the elastic force of elastic component 266, active toothed disk 264 driven end tooth 264a and fixed end tooth 269 position engaged is moved to the position of moved

end tooth

264a and 269 disengagements of fixed end tooth.When motor 26 started, motor shaft 27 can freely rotate, and then drove driving component 240 rotations, rotating saw blade 28.At this moment, output shaft 230 is in rotatable state, and promptly locking device is in the unlocked position.

Because electromagnet assembly 260 can produce electromagnetic force and make active toothed disk 264 moving axially along output shaft 230 when motor 26 starts, automatically unclamp locking to output shaft 230, and motor 26 is removed the active force to active toothed disk 264 after stopping a period of time, active toothed disk 264 is moved under the effect of elastic component 266 in the other direction, automatically lock output shaft 230.Output shaft 230 can and stop automatic release and locking along with the startup of motor 26.Thereby whether the operator need not consider with output shaft locking or release, tool using that just can safe ready, and mount and dismount saw blade.

Owing to be respectively equipped with a plurality of teeth on active toothed disk 264 and the fixed tooth disk 270, when two fluted discs are meshing with each other, can realize the engagement in the 360 degree scopes basically.

Those of ordinary skills as can be known, the position that is provided with of fixed block is not limited only to the end of motor shaft away from driving mechanism, also can be arranged on the position of closing on motor ventilating fan.

Referring to accompanying drawing 4～7, second preferred embodiment of the present utility model provides a kind of electric circular saw 300 that comprises the lock shaft mechanism of electromagnet assembly 360.Same, in the present embodiment with front embodiment in identical structure, use identical label in the accompanying drawings, do not do at this and give unnecessary details.Electric circular saw 300 comprises casing 22, is contained in motor (figure does not show) and driving mechanism (figure does not show) in the casing 22, and handle 303 is arranged on the casing 22, is used to operate electric circular saw and moves relative to workpiece.Guard shield 302 is supported on and covers saw blade (figure does not show) on the base plate all the time.Motor is electrically connected with external power supply (figure does not show) by cable 304.

Electromagnet assembly 360 is arranged in the casing 22, is electrically connected with the power supply of electric circular saw by connecting line 369.Electromagnet assembly 360 comprises the electromagnet base 368 and the coil 362 of support coils 362.Locking device comprises that relative coil 362 can axially movable moving part 364, with respect to the fixedly connected fixed block 340 of output shaft and be arranged on moving part 364 and electromagnet base 368 between elastic component 366.Coil 362 is electrically connected with power supply by connecting line 369.

Herein, fixed block is the driving component of fixing 340 on the output shaft 230 of being arranged on.Driving component 340 comprises gear parts and the groove 342 that radially extends on an one axially outstanding end face.The number of groove 342 can have different according to artificer's needs with the angle intervals of setting.

Electromagnet base 368 comprises the main body of substantially cylindrical, comprise the coil containing space in the main body, coil 362 is supported in the fixing frame 367 and is arranged in the containing space, and the surface of fixing frame 367 forms through hole 370, and moving part 364 is contained in the through hole 370 and can axially moves in through hole 370.Annular end cap 371 is set on the moving part, covers fixing frame 367.

Moving part in the present embodiment is a pin.Columniform basically iron core 364 most preferably.The one end is provided with a circle annular groove, and collar 365 is set in the annular groove.Pin can be made with any permeability magnetic material, such as iron, and steel etc.The shape of pin also can be not limited only to cylindrical, can be rectangular, ellipse or the like.Collar can be one-body molded with the main body of pin, promptly on the end of a cylinder-shaped iron core crossette is set.

Elastic component 366 is compression helical springs, and the one end is resisted against on the end cap of electromagnet base 368, and the other end is resisted against on the end face of collar 365.

When power supply is not switched on, do not have the electric current process in the coil 362 in the electromagnet assembly 360, iron core 364 is compressed against on the casing 22 under the effect of the elastic force of elastic component 366.Groove 342 engagements on the end of iron core 364 and the driving component 340 are positioned at locked position.Motor 26 is not activated, and motor shaft 27 remains static.At this moment, thereby driving component 340 can keep state of rest with respect to casing 22, does not rotate, and the output shaft 230 fixedly connected with driving component 340 also keeps relative static, can not rotate.The operator installs or dismantles saw blade 28 if desired, even rotate saw blade 28, owing to fixed by iron core 364 relative casings 22 with the fixedly connected driving component 340 of output shaft 230, output shaft 230 just can not rotate along with the rotation of saw blade 28 yet.At this moment, the position that output shaft 230 cannot not be in rotatablely, promptly locking device is in locked position.The operator can directly unload the nut 37 that is contained on the saw blade 28 with instrument, and does not need to pin output shaft 230, another hand nutting 37 with a hand.Dismounting and convenient, the safety of process that saw blade is installed.

When power supply is switched on, the electromagnet assembly 360 that is electrically connected with power supply, electric current flowing through coil 362, the electromagnetic force of generation overcomes the elastic force of elastic component 366, and iron core 364 is moved to the position that the groove 342 of itself and driving component is thrown off from groove 342 position engaged with driving component.When motor 26 started, motor shaft 27 can freely rotate, and then drove driving component 340 rotations, rotating saw blade 28.At this moment, output shaft 230 is in rotatable state, and promptly locking device is in the unlocked position.

Because electromagnet assembly 360 can produce electromagnetic force and make iron core 364 moving radially along output shaft 230 when motor 26 starts, unclamp locking to output shaft 230, and motor 26 is removed the electromagnetic force of 362 pairs of iron cores 364 of coil after stopping a period of time, iron core 364 is moved, locking output shaft 230 under the effect of elastic component 366 in the other direction.Output shaft 230 can and stop automatic release and locking along with the startup of motor 26, thereby whether the operator need not consider with output shaft 230 locking or releases, tool using that just can safe ready, and mount and dismount saw blade.

Those of ordinary skills as can be known, fixed block can be not limited only to the gear fixedly connected with respect to output shaft, can also be any one element in the driving mechanism between motor shaft and output shaft.

Referring to accompanying drawing 8～9, the 3rd preferred embodiment of the present utility model provides a kind of bakelite of the lock shaft mechanism of electromagnet assembly 460 that comprises to mill 400.

Bakelite mills 400 and comprises casing 402, is arranged at the motor 416 in the casing, and by the chuck 408 of motor driven, milling cutter (figure does not show) is installed in the chuck 408 and links to each other with output shaft 418, along with motor 416 rotates.Handle 404 is arranged on the casing 402, and the operator can gripping handle 404 moves bakelite and mills.Cable 406 stretches out with external power supply in handle 404 and is electrically connected, and mills internal circuit with bakelite and be electrically connected by switch.Bakelite mills 400 casing 402 and is connected on the base plate 410 by pillar 409.Can regulate the height of casing 402 by depthkeeping chi and depth adjustment knob 414 with respect to base plate 410, thus the depth of cut of control milling cutter.

Need high speed during milling cutter work, do not establish reduction gearing mechanism between motor 416 and the chuck 408.The front end of motor 418 directly links to each other with chuck 408 as output shaft 418.

Same, bakelite mills and is provided with locking device in 400.In the present embodiment, electromagnet assembly 460 is arranged at the position that is positioned in the casing 402 near output shaft 418, and the power supply that mills by connecting line 469 and bakelite is electrically connected.Similar to second preferred embodiment, electromagnet assembly 460 comprises the electromagnet base 468 and the coil 462 of support coils 462.Locking device comprises that relative coil 462 can axially movable moving part 464, output shaft 418 and be arranged on moving part 464 and electromagnet base 468 between elastic component 466.Coil 462 is electrically connected with power supply by connecting line 469.

Several blind holes of radially extending 470 have along the circumferential direction been offered on the output shaft 418 herein.The number of blind hole 470 can have different according to artificer's needs with the angle intervals of setting.Also can directly be designed to through hole.In order to strengthen the rigidity of output shaft, can be on output shaft sheathed fixed block, on fixed block, offer groove or blind hole.

Electromagnet base 468 structures are similar to the electromagnet base in second preferred embodiment, do not do at this and give unnecessary details.

Moving part in the present embodiment be with second embodiment in an identical columniform basically iron core 464.The one end is provided with a circle annular groove, and collar 465 is set in the annular groove.

When power supply is not switched on, do not have the electric current process in the coil 462 in the electromagnet assembly 460, iron core 464 is compressed against on the output shaft 418 under the effect of the elastic force of elastic component 466.The end of iron core 464 is inserted in the blind hole 470 on the output shaft 418, is positioned at locked position.Motor 416 is not activated, and output shaft 418 can keep state of rest with respect to casing 402, does not rotate.The operator installs or dismantles milling cutter if desired, even rotate milling cutter, output shaft 418 can be along with rotation yet.At this moment, the position that output shaft 418 cannot not be in rotatablely, promptly locking device is in locked position.

When power supply was switched on, the electromagnet assembly 460 that is electrically connected with power supply got electric, electric current flowing through coil 462, and the electromagnetic force of generation overcomes the elastic force of elastic component 466, will shift out the blind hole 470 of iron core 464 from output shaft 418.When motor 416 started, output shaft 418 rotated, rotary chuck 408 and milling cutter wherein.At this moment, output shaft 418 is in rotatable state, and promptly locking device is in the unlocked position.

Those skilled in the art as can be known, the drill bit of electric drill needs spindle lock equally when changing, avoid transfer.Thereby, also can use the locking device that the utility model discloses in the electric drill, the structural similarity among mode of execution that it is concrete and the 3rd embodiment.

For the sake of security, the utility model all is provided with delay circuit in the control circuit of the power supply of above-mentioned preferred embodiment.Referring to accompanying drawing 10～15, three kinds of different delay circuits are used to control the sequence of movement of motor and electromagnet assembly.

Below in conjunction with the utility model second preferred embodiment, the concrete effect situation of three kinds of delay circuits is described.

In the delay circuit shown in Figure 10, second switch K2 is the time-delay Circuit breaker.After first K switch, 1 closure, second switch K2 is simultaneously closed, and promptly motor 26 and electromagnet assembly 360 are simultaneously.And after first K switch 1 opened, second switch K2 can't open circuit simultaneously, but under the effect of delay circuit JS, time-delay a period of time T2 (T2〉0) open, guarantee that after motor 26 stops a period of time locking device works again.Like this, even saw blade 28 continues rotation under the effect of rotary inertia, the rotating speed of saw blade 28 progressively reduces, and electromagnet coil 362 also only can lose electromagnetic force again after delay circuit JS works thorough dead electricity, iron core 364 and groove 342 engagements.Thereby, avoided locking device that output shaft 230 is produced and impacted.

In the delay circuit shown in Figure 12, first K switch 1 and the 3rd K switch 3 are gang switches, and second switch K2 is the time-delay Circuit breaker.The 3rd K switch 3 is at first closed, connects second switch K2, thereby electromagnet assembly 360 gets earlier.Process T1 first K switch, 1 closure after the time is connected motor 26.Motor shaft 27 rotations drive driving component 340 and output shaft 230 rotates.Discharge gang switch, first K switch 1 is at first opened, at this moment, and motor 26 dead electricity.Discharge gang switch fully, the 3rd K switch 3 postpones to open behind a period of time T3 (T3〉0).At this moment, second switch K2 still remains closed, and delay circuit makes that electric current does not disappear in the electromagnet assembly 360.Open after T2 after a while from first K switch 1, second switch K2 opens circuit, and delay circuit disconnects, electromagnet assembly 360 dead electricity, and coil 362 no longer produces active forces to iron core 364.Thus, iron core 364 meshes locking output shaft 230 with the groove 342 of driving component.Because electromagnet assembly 360 is than motor 26 first turn-on current, the electromagnetic force that electric current produces in the coil 362 can at first be pulled out iron core 364 groove 342 of driving component, makes output shaft 230 releases, guarantees after locking mechanism is in the unlocked position motor 26 to be rotated.Like this, be not subjected to the obstruction of locking mechanism in the time of motor 26 being started.

In the delay circuit shown in Figure 14, first K switch 1 and the 3rd K switch 3 are gang switches, and second switch K2 is the time-delay Circuit breaker, and the 4th K switch 4 is connected with iron core 364 in the electromagnet assembly 360.Press gang switch, first K switch 1, second switch K2 and the 3rd K switch 3 are closed simultaneously, at this moment, electromagnet assembly 360 gets earlier, the active force that electric current produces in the coil 362 is removed iron core 364 from the groove 342 of driving component, when iron core 364 and groove 342 disengage from,, connect motor 26 with the control switch K4 closure of electromagnet mechanical connection.Motor shaft 27 rotations drive driving component 340 and output shaft 230 rotates.Discharge gang switch, first K switch, 1 instantaneous opening, motor 26 outages.Behind T3 after a while, the 3rd K switch 3 is opened.After T2 after a while, second switch K2 opens circuit, electromagnet assembly 360 dead electricity from first switch opens.Thereby locking mechanism is in locked position, and promptly iron core 364 returns back to original position, and with the groove 342 maintenance engagements of driving component, output shaft is locked.After electromagnet assembly 360 resets fully, promptly from first switch opens after T4 (T4〉0) after a while, control switch K4 opens.Like this, in the time of can guaranteeing that motor 26 starts once more, locking device at first moves to the unlocked position, connects motor 26 again, avoids possible potential safety hazard.

Above-mentioned delay circuit can be applied in the utility model first preferred embodiment equally, the relative position relation of control active toothed disk 264 and fixed tooth disk 270.

Simultaneously, those of ordinary skills can be easy to expect, the delay circuit of mentioning of the present utility model only is wherein several, and other can be realized that the delay circuit of said function is not done at this and make introductions all round.

According to model utility design of the present utility model, those of ordinary skills are easy to use above-mentioned elastic component instead other elastic element, as metal spring leaf or dish spring; And the driving component in the utility model preferred embodiment 240,340 also can use other driving components instead, as the belt wheel that is connected with motor shaft 27 by driving belt.In a word, the utility model is not limited to the specific embodiment structure of being lifted, and the structure of conceiving based on the utility model all belongs to the utility model protection domain.

Claims

1. power tool, comprise casing, be housed in the motor in the casing, by motor driven and the output shaft that connects with working head, can and allow the locking device that moves between the unlocked position of described output shaft rotation at the locked position that stops described output shaft rotation, it is characterized in that: described power tool also comprises electromagnet assembly, described electromagnet assembly comprises the coil (262 that is electrically connected with power supply, 362,462), described locking device comprises the axially movable moving part (264 of relative coil, 364,464), during described motor starting, the electric current by coil in the electromagnet assembly produces electromagnetic force and drives described locking device and move to the unlocked position from locked position.

2. power tool according to claim 1 is characterized in that: described moving part (264) moves axially with respect to output shaft.

3. power tool according to claim 1 is characterized in that: described locking device comprises the fixed block of fixedlying connected with motor shaft, and described moving part moves between locked position and unlocked position with respect to fixed block.

4. power tool according to claim 3 is characterized in that: described moving part is active toothed disk (264), and described fixed block is fixed tooth disk (270), and during motor starting, the fixed end tooth (269) on moved end tooth (264a) on the active toothed disk and the fixed tooth disk breaks away from; When motor stops, fixed end tooth (269) engagement on moved end tooth (264a) on the active toothed disk and the fixed tooth disk.

5. power tool according to claim 3 is characterized in that: described moving part (364,464) moves radially with respect to output shaft.

6. power tool according to claim 5 is characterized in that: described locking device comprises the fixed block of fixedlying connected with output shaft, and described moving part moves between locked position and unlocked position with respect to fixed block.

7. power tool according to claim 6 is characterized in that: described moving part is pin (364,464), and described fixed block has the groove (342,470) that relative output shaft is radially offered, and during motor starting, the groove on pin and the fixed block breaks away from; When motor stops, the engagement on pin and the fixed block.

8. power tool according to claim 2 is characterized in that: described locking device also comprises the elastic component of being located between coil and the moving part (266,366,466).

9. power tool according to claim 8 is characterized in that: described electromagnet assembly also comprises electromagnet base (268,368,468), described coil is contained in the electromagnet base, and described elastic component one end is resisted against on the electromagnet base, and the other end is resisted against on the moving part.

10. power tool according to claim 8 is characterized in that: described elastic component is a spring.

11. power tool according to claim 1 is characterized in that: also comprise first switch (K1) of controlling motor and the second switch (K2) of controlling electromagnet assembly, after first switch disconnected, the second switch time-delay disconnected.

12. power tool according to claim 11 is characterized in that: first switch and second switch are gang switches, after the second switch closure, and the first switch timing closing.

13. power tool according to claim 12 is characterized in that: also comprise the control switch (K4) of connecting, control switch opens/closure when the electromagnet assembly action puts in place with first switch.

14. power tool according to claim 1 is characterized in that: described power tool is an electric circular saw, the angle mill, and electric drill, sander, bakelite mills, miter saw or large-scale cutting machine.