CN201677051U - Force increasing self-locking drill chuck and self-locking mechanism thereof - Google Patents

Abstract

The utility model discloses a self-locking mechanism, which is used in a drill chuck. The self-locking mechanism comprises a clutch tooth sleeve, a chuck body which is connected with the drill chuck fixedly, the chuck body forms teeth. An elliptic deforming ring, which has a first form of basic round and a second form of basic ellipse. Wherein, the side wall of the elliptic deforming ring is provided with teeth, the teeth are meshed with the teeth of the clutch tooth sleeve when the elliptic deforming ring is in the second form. A control sleeve, which is used to control the conversion of the elliptic deforming ring between the first form and the second form. The utility model also discloses a force increasing self-locking drill chuck which has the self-locking mechanism. The self-locking mechanism of the utility model can be applied in drill chucks with a plurality of structures, and provides a new idea for the design of the self-locking mechanism of the drill chuck.

Description

Reinforced self-locking holder for drill and self-locking mechanism thereof

Technical field

The utility model relates to a kind of drill chuck, and the utility model also relates to a kind of self-locking mechanism that is used for drill chuck.

Background technology

Existing drill chuck, usually form by drill body, jaw, nut, bearing and overcoat, the propeller shaft couplings of drill body and power source, three jaws are installed in respectively on the drill body in three uniform inclined holes, screw thread is arranged on the jaw and form the screw thread transmission with nut, when rotating with overcoat that nut connects, jaw is moved relative to drill body along inclined hole, thus clamping or back off tool handle.

In the drill chuck of above structure, because the screw thread between jaw and the nut produces very big contact stress under live load, the frictional force that it is slided relatively is very big, thereby the power of holding that adds of the clamping tool handle that produces by the screw thread transmission between nut and the jaw is difficult for enough greatly, this just makes is loading big and is having under the operating mode of vibrations, there is loosening hidden danger in the not firm pad of jaw folder.

In order to improve the clamping performance of drill chuck, prevent that jaw gets loose in the course of the work, known have a plurality of click self-locking mechanisms, gets loose to prevent jaw.

U.S. Pat 5,829,761 disclose a kind of drill chuck, it has self-locking mechanism (locking system), and the basic building block of this self-locking mechanism is spring steel member (aspring-steel entrainment element), the terminal ratchet that forms of this spring steel member, its can with the ratchet engagement of arranging along the drill body excircle, so, the spring steel member can only rotate relative to the drill body individual event, thereby forms self-locking.

U.S. Pat 6,390,481 disclose a kind of drill chuck, comprise: collet body, a plurality of jaw, drive the cover and the bearing (bearing element) of a plurality of jaws, wherein first raceway of this bearing (frist face) defines a ratchet (ratchet), second raceway (second face) defines with ratchet can intermeshing ratchet (pawl).Pawl-and-gearing is meshing with each other and can forms self-locking.

Yet, the utility model people finds, in above-mentioned drill chuck, adopt known click self-locking mechanism make troubles for the global design of drill chuck, these troubles include but not limited to: the click self-locking mechanism of application of known can make the structural design of drill chuck unreasonable or can not be applied in the design of drill chuck.

The utility model content

The utility model purpose is to provide a kind of new self-locking mechanism that is applied to drill chuck, and the purpose of this utility model also is to provide a kind of drill chuck with this self-locking mechanism.

For this reason, on the one hand, the utility model provides a kind of self-locking mechanism, is used for drill chuck, and it comprises: clutch tooth cover, and the collet body of fixedly connected drill chuck, it forms tooth; The ovalizing deflection ring has almost circular first form and oval-shaped substantially second form, wherein, wherein, has tooth on the sidewall of ovalizing deflection ring, and this tooth is meshed with the tooth of clutch tooth cover when the ovalizing deflection ring is in second form; And the control cover, be used to control the ovalizing deflection ring and between first form and second form, change.

In the utility model, the tooth on the ovalizing deflection ring both can be formed at lateral wall to form external tooth, also can be formed at madial wall and constituted internal tooth.

Preferably, above-mentioned ovalizing deflection ring has the control part that is used to push oval modification ring-side wall, has the reseting groove of the control part of admitting the control cover on the sidewall of ovalizing deflection ring.

Preferably, above-mentioned self-locking mechanism also comprises position limiting structure, is used to limit the relative rotation between ovalizing deflection ring and the control cover.

Preferably, above-mentioned position limiting structure is the location division that is arranged on the ovalizing deflection ring.

Preferably, above-mentioned position limiting structure is the groove sidewall that is provided with on the inwall of overcoat of drill chuck, and wherein, the key of ovalizing deflection ring is limited among the groove sidewall.

Preferably, above-mentioned control cover is provided with the projection that makes the ovalizing deflection environmental protection be held in first form.

On the other hand, the utility model provides a kind of drill chuck, and it comprises: collet body wherein has a plurality of inclined holes along the circumference five equilibrium; A plurality of jaws are slidably disposed in the inclined hole of collet body, and its rear end has screw thread; Divide body nut, can be rotatably set in the outside of collet body, and be threadedly engaged with jaw; Nut sleeve tightly is enclosed within the outside of branch body nut; Overcoat rotatably is set in the outside of collet body, and its outer surface forms grip part, provides rotary driving force to nut sleeve; And above-mentioned self-locking mechanism, wherein, the ovalizing deflection ring of self-locking mechanism and the force-increasing mechanism of nut sleeve or nut sleeve rotate synchronously.

Preferably, above-mentioned ovalizing deflection ring is fixedly attached to the nut sleeve of drill chuck.Perhaps, the nut sleeve of above-mentioned ovalizing deflection ring and drill chuck is integrally formed.

Preferably, above-mentioned ovalizing deflection ring is connected to the lower end of the nut sleeve of drill chuck synchronously rotationally.

Preferably, the body lower end of above-mentioned nut sleeve has switch hook that extends radially inwardly and the wall extension portion that offers keyway; Offer switch hook locating slot and outward extending key on the ring body of ovalizing deflection ring; Wherein, the switch hook of nut sleeve cooperates with the switch hook locating slot of ovalizing deflection ring, and the key of ovalizing deflection ring cooperates with the keyway of nut sleeve.More preferably, the below of the switch hook locating slot of the ring body of above-mentioned ovalizing deflection ring is for removing material sections.

Preferably, above-mentioned force-increasing mechanism is a lever boosting mechanism.

Preferably, above-mentioned lever boosting mechanism comprises: actuator, be arranged on the upper end of nut sleeve, and it has at least one teeth groove; Load spare is arranged on the lower end of nut sleeve, the clutch for clutch control portion that it has at least one teeth groove and engages with locating slot on the nut sleeve; And lever, the force side of its upper end and the engagement of the teeth groove of actuator, the support end of its lower end and the engagement of the teeth groove of load spare, the forced section at its middle part is assemblied in the drive division of nut sleeve rotationally, wherein, the clutch for clutch control portion of load spare is meshed with internal tooth that the clutch tooth overlaps when throwing off locating slot, the keyed engagement of the key of actuator and ovalizing deflection ring together and the groove sidewall of overcoat, between.

Preferably, above-mentioned ovalizing deflection ring comprises last ring portion and the following ring portion that is linked together by some attachment, wherein, form key on the last ring portion, have on the excircle of following ring portion: reseting groove, the external tooth that is meshed with shifter collar and be used for the control part of control cover is carried out spacing location division.

In addition, the utility model also provides a kind of drill chuck, and it comprises: collet body wherein has a plurality of inclined holes along the circumference five equilibrium; A plurality of jaws are slidably disposed in the inclined hole of collet body, and its rear end has screw thread; Divide body nut, can be rotatably set in the outside of collet body, and be threadedly engaged with jaw; Nut sleeve tightly is enclosed within the outside of branch body nut; Coupling sleeve is rotatably installed in the connection holes of collet body, connects with the driving shaft of power equipment; Above-mentioned self-locking mechanism, wherein, the outer surface of the clutch tooth of self-locking mechanism cover forms the grip part, and the control cover has the grip part between clutch tooth cover and coupling sleeve; And intermediate sleeve, itself and coupling sleeve rotate synchronously, and are fixedly connected with the rear portion of ovalizing deflection ring.

Preferably, above-mentioned self-locking clamping chuck of drill bit also comprises: drag ring is installed in rotation between the force-bearing table of the bearing of branch body nut and collet body.

Preferably, above-mentioned ovalizing deflection ring is provided with the driving claw that is meshed with the teeth groove of drag ring, drag ring have the driving key that is used to limit the ovalizing deflection ring, the key sidewall of rotational angle.

Can be used for the drill chuck of multiple structure according to self-locking mechanism of the present utility model, its design for the self-locking mechanism of drill chuck provides a kind of brand-new thinking.

Except purpose described above, feature and advantage, the utility model also has other purpose, feature and advantage.Below with reference to figure, other purpose, feature and effect of the present utility model is described in further detail.

Description of drawings

Constitute this specification a part, be used for further understanding accompanying drawing of the present utility model and show preferred embodiment of the present utility model, and be used for illustrating principle of the present utility model with specification.Among the figure:

Fig. 1 shows the main cutaway view according to the reinforced self-locking holder for drill of the utility model first embodiment;

Fig. 2 shows K-K that reinforced self-locking holder for drill shown in Figure 1 is in releasing orientation to cutaway view, wherein, has removed nut sleeve, lever, load spare and overcoat;

Fig. 3 shows the F-F of reinforced self-locking holder for drill processing clamping device shown in Figure 1 to cutaway view, wherein, has removed lever;

Fig. 4 shows the K-K of the described reinforced self-locking holder for drill processing of Fig. 1 clamped condition to cutaway view, wherein, has removed nut sleeve, lever, load spare and overcoat;

Fig. 5 shows reinforced self-locking holder for drill shown in Figure 1 and handles the E-E of releasing orientation to cutaway view;

Fig. 6 shows reinforced self-locking holder for drill shown in Figure 1 and handles the E-E of clamped condition to cutaway view;

Fig. 7 shows each partial sectional view of dextrad of reinforced self-locking holder for drill shown in Figure 1;

Fig. 8 a shows the load spare 3 in the reinforced self-locking holder for drill shown in Figure 1 " main cutaway view and F to partial sectional view;

Fig. 8 b shows load spare 3 shown in Fig. 8 a " vertical view;

Fig. 9 shows the main cutaway view according to the self-locking clamping chuck of drill bit of the utility model second embodiment;

Figure 10 shows self-locking clamping chuck of drill bit shown in Figure 9 and is in the N-N of releasing orientation to cutaway view;

Figure 11 shows self-locking clamping chuck of drill bit shown in Figure 9 and is in the N-N of clamped condition to cutaway view;

Figure 12 a shows the expanded view of first kind of ovalizing deflection ring of self-locking clamping chuck of drill bit shown in Figure 9;

Figure 12 b shows the expanded view of second kind of ovalizing deflection ring of self-locking clamping chuck of drill bit shown in Figure 9;

Figure 13 shows self-locking clamping chuck of drill bit shown in Figure 9 and is in the M-M of releasing orientation to cutaway view;

Figure 14 shows self-locking clamping chuck of drill bit shown in Figure 9 and is in the M-M of clamped condition to cutaway view;

Figure 15 shows the main cutaway view according to the self-locking clamping chuck of drill bit of the utility model the 3rd embodiment;

Figure 16 shows self-locking clamping chuck of drill bit shown in Figure 15 and is in the T-T of releasing orientation to cutaway view;

Figure 17 shows self-locking clamping chuck of drill bit shown in Figure 15 and is in the R-R of clamped condition to cutaway view;

Figure 18 shows the main cutaway view according to the self-locking clamping chuck of drill bit of the utility model the 4th embodiment;

Figure 19 shows the U-U of self-locking clamping chuck of drill bit shown in Figure 180 to cutaway view;

Figure 20 shows self-locking clamping chuck of drill bit shown in Figure 180 and is in the V-V of releasing orientation to cutaway view;

Figure 21 shows self-locking clamping chuck of drill bit shown in Figure 180 and is in the W-W of releasing orientation to cutaway view;

Figure 22 shows self-locking clamping chuck of drill bit shown in Figure 180 and is in the W-W of clamped condition to cutaway view;

Figure 23 shows the main cutaway view according to the self-locking clamping chuck of drill bit of the utility model the 5th embodiment;

Figure 24 shows the cutaway view that is in releasing orientation according to the self-locking clamping chuck of drill bit of the utility model the 6th embodiment, wherein, shows the variant embodiment of self-locking mechanism;

Figure 25 shows the cutaway view that self-locking clamping chuck of drill bit shown in Figure 24 is in clamped condition;

Figure 26 shows the perspective view according to the nut sleeve of the self-locking clamping chuck of drill bit of the utility model the 7th embodiment;

Figure 27 shows the perspective view according to the ovalizing deflection ring of the self-locking clamping chuck of drill bit of the utility model the 7th embodiment;

Figure 28 shows according to the ovalizing deflection ring of the self-locking clamping chuck of drill bit of the utility model the 7th embodiment and the assembling schematic diagram of nut sleeve;

Figure 29 shows the cutaway view that is in clamped condition according to the self-locking clamping chuck of drill bit of the utility model the 7th embodiment;

Figure 30 shows the perspective view according to the ovalizing deflection ring of the self-locking clamping chuck of drill bit of the utility model the 8th embodiment;

Figure 31 shows according to the ovalizing deflection ring of the self-locking clamping chuck of drill bit of the utility model the 8th embodiment and the assembling schematic diagram of nut sleeve; And

Figure 32 shows the cutaway view that is in clamped condition according to the self-locking clamping chuck of drill bit of the utility model the 8th embodiment.

The specific embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is elaborated, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.

Be preferably applied in the drill chuck according to self-locking mechanism of the present utility model, existing is that example describes with the drill chuck with this self-locking mechanism.

First embodiment

Fig. 1 to Fig. 8 b shows the reinforced self-locking holder for drill according to the utility model first embodiment.The assembly relation of its each parts is described below:

As shown in Figure 1, three jaws 13 are loaded in three of collet body 11 three inclined holes that have angle with the standard shaft line; 2 branch body nut 12 assembly units on collet body 11 and with the threaded engagement of three jaws, divide 2 interference of body nut external application nut sleeve to be assembled into one.

Bonnet 18 is fixedly mounted on the rear end of collet body 11, overcoat 8 through jump ring 14 and packing ring 9 axial location on collet body.Clutch tooth cover 10 fixedly is assemblied in the front end of collet body 11.

Actuator 5 is rotating to be set on the collet body 11 load spare 3 " and axle sleeve 7 is also rotating is set on the collet body 11.

As depicted in figs. 1 and 2, ovalizing deflection ring 09 is sleeved between control cover 08 and the nut sleeve 02, and the control part 083 of control cover 08 is arranged in the reseting groove 093 of ovalizing deflection ring 09.As shown in Figure 4, control cover 08 and ovalizing deflection ring 09 relatively rotate an angle Q, the control part 083 of control cover 08 is pressed on the outer wall of ovalizing deflection ring 09, make oval modification ring be modified to ellipse by original circle, the tooth 091 that is positioned at oval major axis side meshes with the tooth 101 that the clutch tooth overlaps on 10.

As shown in figures 1 and 3, key 092 on the ovalizing deflection ring 09 is inserted between two keys 54 of actuator 5, and overcoat 8 is rotated the Q angles with actuator 5 locking phases, and wherein, the motion between the grooving sidewall 801 and 802 outside of the key 54 of actuator 5 and the key 092 of ovalizing deflection ring 09.

As shown in Figure 5, load spare 3 " locating slot 23 engagements of clutch for clutch control portion 33 and nut sleeve 2.As shown in Figure 6, when load spare 3 " when relatively rotating with nut sleeve 2, load spare 3 " clutch for clutch control portion 33 throw off engagement with the locating slot 23 of nut sleeve 2, and under the effect that compresses of nut sleeve 2 outer walls with clutch tooth 101 engagements of clutch tooth cover 10.

As Fig. 1 and shown in Figure 7, teeth groove 53 engagements of the force side of lever 6 upper ends 62 and actuator 5, the support end 63 and the load spare 3 of its lower end " teeth groove 32 engagements, the forced section 61 rotating drive divisions 21 that are assemblied in nut sleeve at its middle part.Control cover 08 is sleeved on outer casing inner wall, and the key 082 on it is pegged graft with the groove of overcoat 82, and control cover 08 is rotated synchronously with overcoat 8.

Fig. 8 a and Fig. 8 b show load spare 3 ", this load cover 3 " the lower end have teeth groove 32, the upper end is provided with control part 33.

Following Fig. 1 to Fig. 8 b describes the course of work of the reinforced self-locking holder for drill of present embodiment.

Clamping tool handle process is as follows:

Not clamping pad at jaw is in when not stressing state, nut is to be in state free to rotate, the clutch for clutch control portion 33 of load spare 3 depends on elastic force to mesh together (as shown in Figure 5) with the locating slot 23 of nut sleeve at this moment, load spare 3 and nut sleeve 2 are rotated synchronously, the forced section of lever 6 connects with the drive division of nut sleeve 21, and teeth groove 32 engagements (as shown in Figure 7) of support end 63 and load spare, so under this state, lever 6 and nut sleeve 2, load spare 3 freely rotate synchronously, and lever 6 does not rotate.

Simultaneously, the control part 083 of control cover is arranged in the reseting groove 093 (as shown in Figure 2) of ovalizing deflection ring under above-mentioned state, control cover 08 and ovalizing deflection ring 09 are rotated synchronously, and groove 82 grafting (as Fig. 1 and shown in Figure 7) of the key 082 of control cover and overcoat, the key 092 of ovalizing deflection ring is plugged between two keys 54 of actuator, so during rotating jacket 8, control cover 08, ovalizing deflection ring 09 and actuator 5 rotate synchronously with overcoat 8 under this state.

Because the force side 62 of lever 6 and 53 engagements of the teeth groove of actuator, so under above-mentioned state (when jaw is not clamped pad), one rotating jacket, control cover, ovalizing deflection ring, actuator, lever, force bearing ring, nut sleeve and nut all rotate around the collet body axis simultaneously, and jaw screw thread and nut thread engagement, thereby the rotation of nut changes moving forward and backward of jaw into.

It is as follows that reinforcement clamps and lock locking process:

When rotating jacket was clamped pad when jaw, all can all be subjected to resistance around the parts that the collet body axis rotates.Desire the clamping tool handle, need reinforcing to be rotated further overcoat.

1. when rotating torque is increased to a certain value, at first the reseting groove 093 of control part 083 skids off, turn over the Q angle, outer grooving sidewall 802 contacts (as shown in Figure 3) with key 54 simultaneously, ovalizing deflection is given birth in control part 083 compressing ovalizing deflection environment-development, by original radius be the circle of D to become major axis be that D1, minor axis are the ellipse of d1, tooth 101 engagements (as shown in Figure 4) of the tooth that distributes on the ovalizing deflection ring 091 some and clutch tooth cover.

2. continue afterburning rotating jacket, groove sidewall 802 promotes key 54 and drives actuator 5 equidirectional rotations.At this moment, nut and nut sleeve are clamped pad because of jaw and can not be rotated, so promoting lever 6, actuator 5 makes it to rotate around the location division 21 of nut sleeve, consequently the fulcrum of lever promotes load spare 3 to beginning to rotate with the overcoat rightabout, force clutch for clutch control portion 33 from locating slot 23, to skid off (as shown in Figure 5 and Figure 6), the pawl point of clutch for clutch control portion 33 meshes together with the tooth 101 of clutch tooth cover, promptly under this state, load spare is fixed together with clutch tooth cover collet body, and nothing relatively rotates.

At this moment continue afterburning rotating jacket again, then actuator 5 drive levers 6 (mesh with load spare 3 around support end 63, load spare 3 do not have with collet body this moment relatively rotate) rotate, rotate a little around the collet body axis by drive division 21 drive nut sleeve 2 and nut 12 by forced section 61, and drive the afterburning clamping tool handle of jaw.

More than in the stressed transmission process 1. the screw thread transmission of nut and jaw produced boosting function, 2. lever L＞1, actuator puts on the power of the force side of lever, being transformed into the moment that promotes the nut rotation is a lever augmented process, like this, put on the outer moment that puts through above process, put on by reinforcement and clamp pad.

Simultaneously, because the tooth 091 of ovalizing deflection ring meshes with the tooth 101 of clutch tooth cover, make the actuator 5 relative clutch teeth covers 10 that link to each other with key 54 by key 092 with the ovalizing deflection ring can not backward rotation, thereby the also relative clutch tooth cover (and collet body) of lever, nut sleeve, nut can not relatively rotate, the engagement of tooth 091 and tooth 101 like this, under the vibration operating mode, played preventing that nut from being vibrated and the locking effect of counter-rotational locking.

Back off tool handle process is as follows:

Backward rotation overcoat 8 drives control cover 08 and rotates synchronously, forwards reseting groove 093 position to up to control part 083, under resilient force, control part 083 enters (as shown in Figure 2) in the reseting groove 093, and tooth 091 is also thrown off engagement with tooth 101, and outer grooving sidewall also contacts with key 54 for 801 this moments.

Be rotated further overcoat 8, then groove sidewall 801 promotes actuator 5 rotations by key 54, promoting lever 6 rotates around support end 63, and drive nut backward rotation, rotate clutch for clutch control portion 33 correspondence positions of load spare up to the locating slot 23 of nut sleeve, under resilient force, control part 33 enters in the locating slot 23, its pawl point is also thrown off engagement with tooth 101, when continuing the backward rotation overcoat again, control piece 5, lever 6, load spare 3, nut sleeve 2 and nut 12 rotate synchronously, are totally released pad up to jaw.

By above description as can be seen, in the present embodiment, self-locking mechanism is made of control cover 08, ovalizing deflection ring 09 and clutch tooth cover 10.

The ovalizing deflection ring is a critical component, and the normal morphology of this ovalizing deflection ring 09 (first form) is circular, and working morphology (second form) is oval, is provided with external tooth 091 in longitudinal end, is used for internal tooth 101 engagements with shifter collar 10.Control cover 08 is used to control the metamorphosis of ovalizing deflection ring, and in the present embodiment, it is realized by control part 083, matches with it, forms reseting groove 093 on ovalizing deflection ring 09 and the peripheries outer space of teeth 90 degree.

Wherein, control part 083 is arranged in reseting groove 093 when initial position, when control is overlapped when ovalizing deflection ring 09 rotates, 083 of control part breaks away from reseting groove 093, be pressed on the outer wall of ovalizing deflection ring 09, make oval modification ring 09 distortion ovalize, can realize internal tooth 101 engagements of tooth 091 and shifter collar on the ovalizing deflection ring major axis like this.So, by selecting the shape of internal tooth and external tooth, can limit the ovalizing deflection ring relative to collet body 11 one-directional rotation or do not rotate, thereby form the self-locking mechanism of wanting.

Second embodiment

Fig. 9 to Figure 14 shows the self-locking clamping chuck of drill bit according to the utility model second embodiment.The difference of the present embodiment and first embodiment: removed lever 6, actuator 5 and load spare 3 ".

Below in conjunction with reference Fig. 9 to Figure 14 the assembly relation of each parts of the self-locking clamping chuck of drill bit of present embodiment is described.

To shown in Figure 14, nut is with key 202 as Fig. 9, and the key 082 of control cover 08 is assemblied in the groove between the groove sidewall 801 and 802 of overcoat, and control cover 08 rotates synchronously with overcoat; The key 202 of nut sleeve and the key 092 of ovalizing deflection ring outside between the grooving sidewall 802,801, and can rotate the Q angle relative to overcoat.

As Figure 10 and shown in Figure 13,, jaw free to rotate at overcoat moves freely under the state, and the control part 083 of control cover is arranged in the reseting groove 093 of ovalizing deflection ring, and key 092 and key 202 rely on outer grooving sidewall 801 successively.

Figure 12 a and Figure 12 b show the expanded view of ovalizing deflection ring.The attachment 096 of ovalizing deflection ring 09 will make the last ring portion 09a of ovalizing deflection ring 09 and following ring portion 09b two parts be tied.In Figure 12 a, connection part 096 is along circumferentially extending, and in Figure 12 b, connection part 096 extends vertically.

The course of work to the self-locking clamping chuck of drill bit of present embodiment describes below.

It is as follows to clamp the drillstock process:

Behind forward rotation overcoat, jaw contact drillstock, when being rotated further overcoat, from the reseting groove 093 of ovalizing deflection ring, deviate to rotate the Q angle with the control part 083 that the control of overcoat rotation is synchronously overlapped, slide into the position of location division 095, the tooth 091 that is positioned at this ellipse major axis also enters engagement with the internal tooth 101 that the clutch tooth overlaps, and the sidewall 802 of overcoat contacts with the key 092 of ovalizing deflection ring.

Be rotated further overcoat again, then the sidewall 802 of overcoat promotes key 092, and ovalizing deflection ring 09, nut sleeve 2 and screw 12 are rotated around the collet body axis, drives the afterburning drillstock that clamps of jaw.Tooth 091 plays the locking effect of locking with the engagement of tooth 101.

It is as follows to unclamp the drillstock process:

If will unclamp drillstock, then backward rotation overcoat and drive control cover 08 are together, ovalizing deflection ring 09 and nut sleeve 2 oppositely go back to the Q angle relatively earlier, control part 083 is returned in the reseting groove 093, and tooth 091 is under the effect of the elastic force of ovalizing deflection ring 09 and projection 081, also throw off with the tooth 101 of clutch tooth cover, the sidewall 801 of overcoat contacts with driving key 202.Rotating jacket and control cover again, then nut sleeve 2 and ovalizing deflection ring 09 make jaw unclamp drillstock thereupon rotating.

By above description as can be seen, the self-locking mechanism difference among the self-locking mechanism in the present embodiment and first embodiment is that in the present embodiment, ovalizing deflection ring 09 is driven by the sidewall 801,802 of overcoat 8.Control cover 08 is provided with projection 081, helps to make the ovalizing deflection ring after the distortion to revert to circle, so that hock 091 is thoroughly thrown off engagement with the tooth 101 of clutch tooth cover 10.In addition, the ovalizing deflection ring 09 in the present embodiment is connected by connection part 096 by two parts up and down.

The 3rd embodiment

Figure 15 to Figure 17 shows the self-locking clamping chuck of drill bit according to the utility model the 3rd embodiment.

The difference of the present embodiment and second embodiment is: the ovalizing deflection ring 09 that nut sleeve 2 and the ovalizing deflection ring 09 of second embodiment are made one "; be ovalizing deflection ring 09 " rear portion (nut sleeve function) split screw 12 is tightened to one, thereby split screw 12 is located on collet body, and the front portion is shaped on reseting groove 093, location division 095 and tooth 091.

The 4th embodiment

Figure 18 to Figure 22 shows the self-locking clamping chuck of drill bit according to the utility model the 4th embodiment.Below in conjunction with Figure 18 to Figure 22 the assembly relation between each parts is described.

Drill chuck is to connect with the driving shaft of power equipment by the screw (or taper hole) of coupling sleeve 04, in the axle 045 rotating connection holes 111 that is installed in collet body of coupling sleeve.

Intermediate sleeve 05 be fixedly connected with ovalizing deflection ring rear portion and with ovalizing deflection ring 09 " and nut 12 rotates synchronously; the Access Division 051 of intermediate sleeve and drive key 052 and connects with the buckling groove 041 and the driver slot 042 of coupling sleeve respectively; thus intermediate sleeve 05 and coupling sleeve 04 axially are linked together, and synchronous rotation.Ovalizing deflection cover 09 " and also rotation synchronously together of nut 12.

Drag ring 07 rotating being installed between bearing 16 and the collet body force-bearing table 112. Jack 102 and 046 is provided with for ease of laborsaving back off tool handle.

The course of work to the self-locking clamping chuck of drill bit of present embodiment describes below.

Clamping tool handle process is as follows:

During work, earlier hand-held clutch tooth cover 10 " and coupling sleeve 04 and forward relatively rotate, drives nut 12 and rotate, and driving jaw 13 is clamped pad relative to collet body; The grip part 084 of backward rotation control cover skids off control part 083 from reseting groove 093 (as shown in figure 21) again, forwards 095 position, location division (as shown in figure 22) to, and tooth 091 also enters engagement with tooth 101.

Under this state, nut, ovalizing deflection cover can not backward rotation, and promptly relative collet body of nut and jaw are in and can not prevent that the instrument of clamping from getting loose because of vibration by counter-rotational locking state.Hole when waiting operation with power equipment this moment, and power equipment forms moment to the pad clamping to the forward drive moment of coupling sleeve and nut and bore operation to the opposing torque of pad, jaw, makes jaw clamp pad firmly.

Back off tool handle process is as follows:

If desire the back off tool handle, first forward rotation grip part 084 makes control part 083 rotate home position shown in Figure 21 from position shown in Figure 22, removes locking state, again backward rotation clutch sleeve 10 relatively " and coupling sleeve 04, can unclamp.

Drag ring 07 is to be used for preventing to produce the excessive clamping force to pad at above-mentioned operation process, and excessive clamping force is difficult for the back off tool handle after causing operation.

The operation principle that drag ring 07 is set is as follows: when the driving clamping force is no more than a certain limit value, power equipment is delivered to the moment that the forward drive of ovalizing deflection cover 09 clamps from coupling sleeve 04 through intermediate sleeve, drives drag ring 07 through driving claw 099 and rotates (not rolling of rolling bearing 16) with nut 12 synchronously.

When jaw increases gradually to the clamping force of pad, nut also increases gradually by the pressure of 16 pairs of drag rings 07 of bearing, frictional resistance between drag ring 07 and the force-bearing table 112 also increases gradually, when increasing to certain value, driving claw 099 overcomes the less elastic force of self and skids off from teeth groove 073, then the ovalizing deflection cover is together with driving claw 099, drive key 097,098 and nut and together rotate (at this moment rolling bearing 16 rolls), contact with the key sidewall 072 of drag ring up to turning over a angle driving key 098.

Because above-mentioned state is after jaw is clamped pad, the relative again jaw of nut turns over a angle, clamping force that produces and the frictional force between drag ring 07 and the force-bearing table 112 increase greatly, at this moment if will continue to increase the clamping force of jaw to pad, remove the frictional resistance that will overcome nut and jaw screw thread, the driving key 098 of ovalizing deflection cover also will promote to be subjected to drag ring 07 rotation of very big frictional resistance, that is to say the driving moment that power equipment applies, have greatly and directly act on collet body by driving key 098 and drag ring 07, have only small part to be used for drive nut and continue to increase clamping force, so jaw just is difficult to improve after the clamping force of pad is reached a certain value again.

When unclamping, the key 098,097 of ovalizing deflection cover and driving claw 099 rotate to unclamping direction, drag ring 07 is earlier motionless, rolling bearing 16 rotates relative to drag ring 07 earlier, because rolling frictional resistance is much smaller than sliding-frictional resistance, so just can oppositely turn over a angle with less power, key 097 is contacted with key sidewall 071.Because oppositely turn over a angle, normal pressure and frictional force between drag ring 07 and the force-bearing table 112 reduce greatly, only need this moment less power just can be rotated further ovalizing deflection cover, drag ring and nut sleeve again, up to jaw back off tool handle.

It will be understood by those skilled in the art that the ovalizing deflection cover in the present embodiment is identical with the basic role that foregoing ovalizing deflection ring is risen, form shell-like because of need grip.

The 5th embodiment

Figure 23 shows the self-locking clamping chuck of drill bit according to the utility model the 5th embodiment.The difference of the present embodiment and second embodiment is: the back cover double as clutch tooth cover 10 of drill chuck, be formed with tooth 101 on its inner periphery, and mesh controllably with tooth 091 with the longitudinal end of ovalizing deflection ring 09.

The 6th embodiment

Figure 24 and Figure 25 show the self-locking clamping chuck of drill bit according to the utility model the 6th embodiment, wherein show the variant embodiment of self-locking mechanism.

As Figure 24 and shown in Figure 25, have internal tooth 091 on the internal perisporium of ovalizing deflection ring 09, clutch tooth cover 10 is positioned at the inboard of ovalizing deflection ring 09, has external tooth 101, when the ovalizing deflection ring was varied to ellipse by positive circle, the internal tooth 091 of ovalizing deflection ring meshed with the external tooth of clutch tooth cover 10.

In the gap of the control part 083 of control cover 08 between ovalizing deflection ring 09 and clutch tooth cover 10, be used to control the ovalizing deflection ring and between positive circle and ellipse, change.

Ovalizing deflection ring 09 is provided with the reseting groove 093 that is positioned wherein (as shown in figure 24) for the control part 083 of control cover 08.When control overlaps 08 when ovalizing deflection ring 09 rotates an angle, control part 083 is thrown off locating slot 093, the sidewall that compresses the ovalizing deflection ring makes its modification ovalize, and so, 091 in the tooth of ovalizing deflection ring can be meshed with the external tooth of clutch tooth cover 10 and realize self-locking.

The 7th embodiment

Figure 26 to Figure 29 shows the self-locking clamping chuck of drill bit according to the utility model the 7th embodiment, and present embodiment is the variant embodiment of second embodiment.

Figure 26 shows nut sleeve 2, it has the body 201 that is shell-like, the top of this body 201 has a plurality of keys 202 that protrude in body 201 extensions, these body 201 lower ends have switch hook 206 that extends radially inwardly and the wall extension portion 203 that offers keyway 205, are dead slot 204 between the wall extension portion 203.

Figure 27 shows ovalizing deflection ring 09 ', offers switch hook locating slot 094, reseting groove 093, outward extending location division 095 and a plurality of tooth 091 in its ring body.

Figure 28 shows ovalizing deflection ring 09 ' and is assemblied in nut sleeve 2 lower ends.Wherein, ovalizing deflection ring 09 ' is by outward extending key 092 " and switch hook locating slot 094 connect with the keyway 205 and the switch hook 206 of nut sleeve 2 respectively so that ovalizing deflection ring 09 ' is linked together with nut sleeve 2 and rotates synchronously.

In conjunction with reference to the Fig. 9 to Figure 14 among the Figure 29 and second embodiment, wherein, the key 202 of nut sleeve 2 is arranged in the groove sidewall 801 and 802 of overcoat, and nut sleeve 2 can be rotated the Q angle relative to overcoat.

, jaw free to rotate at overcoat moves freely under the state, and the control part 083 of control cover is arranged in the reseting groove 093 of ovalizing deflection ring, and key 202 relies on outer grooving sidewall 801.

It is as follows to clamp the drillstock process:

Behind forward rotation overcoat, jaw contact drillstock, when being rotated further overcoat, from the reseting groove 093 of ovalizing deflection ring, deviate to rotate the Q angle with the control part 083 that the control of overcoat rotation is synchronously overlapped, slide into the position of location division 095, the tooth 091 that is positioned at this ellipse major axis also enters engagement with the internal tooth 101 that the clutch tooth overlaps, and the sidewall 802 of overcoat contacts with the key 202 of nut sleeve 2.

Be rotated further overcoat again, then the sidewall 802 of overcoat promotes the key 202 of nut sleeve 2, and ovalizing deflection ring 09 ', nut sleeve 2 and screw 12 are rotated around the collet body axis, drives the afterburning drillstock that clamps of jaw.Tooth 091 plays the locking effect of locking with the engagement of tooth 101.

It is as follows to unclamp the drillstock process:

If will unclamp drillstock, then backward rotation overcoat and drive control cover 08 are together, ovalizing deflection ring 09 ' and nut sleeve 2 oppositely go back to the Q angle relatively earlier, control part 083 is returned in the reseting groove 093, and tooth 091 is under the effect of the elastic force of ovalizing deflection ring 09 ' and projection 081, also throw off with the tooth 101 of clutch tooth cover, the sidewall 801 of overcoat contacts with the key 202 of nut sleeve 2.Rotating jacket and control cover again, then nut sleeve 2 and ovalizing deflection ring 09 make jaw unclamp drillstock thereupon rotating.

By above description as can be seen, compare with second embodiment, ovalizing deflection ring 09 ' directly is connected the lower end of nut sleeve 2, and nut sleeve 2 drives with overcoat and cooperates; When clamping drillstock, drive its rotation by nut sleeve, driving nut sleeve when unclamping drillstock rotates, so, the structure of drill chuck is simplified, the ovalizing deflection ring has reduced in the size of drill chuck axis direction simultaneously, so, and under the situation of using same material, the structural strength of ovalizing deflection ring 09 ' has increased, and then the reliability of drill chuck has obtained further raising.

The 8th embodiment

Figure 30 to Figure 32 shows the self-locking clamping chuck of drill bit according to the utility model the 8th embodiment.Compare with the drill chuck of the 7th embodiment, the structure of ovalizing deflection ring 09 ' has obtained further simplification.

Figure 30 shows the ovalizing deflection ring 09 ' of designs simplification, the material of switch hook locating slot 094 below of its ring body has been removed, and has formed the removal material sections, has only kept one or two tooth 091, so, ovalizing deflection 09 ' has better flexibility and is easier to manufacturing.

By above description as can be seen, the utility model self-locking mechanism can be used for the drill chuck of multiple structure, and its design for the self-locking mechanism of drill chuck provides a kind of brand-new thinking.

The above is a preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various changes and variation.All within spirit of the present utility model and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Description of reference numerals

2--nut sleeve 201--nut sleeve body

202--key 203--wall extension section

204--dead slot 205--keyway

The 206--switch hook

21--drive division 23--locating slot

Ring portion under the 24--

3 "--bearing member 32--teeth groove

33--clutch for clutch control section

4--lock ring 44--ratchet

45--key 46--location division

The 47--ratchet

04--coupling sleeve 041--buckling groove

042--driver slot 045--axle

The 046--jack

05--intermediate sleeve 051--Access Division

052--drives and builds the 5--actuator

53--teeth groove 54--key

6--lever 61--forced section

62--force side 63--support end

7--axle sleeve 72--ball

07------drag ring 071,072-----key sidewall

The 073------teeth groove

8--overcoat 801,802--groove sidewall

The 82--groove

08--control cover 081--projection

082--key 083--control part

The 084--grip part

09,09 ', 09 "--ovalizing deflection ring 091--tooth

092--key 093--reseting groove

092 "--key 094--switch hook locating slot

095--location division 096--attachment

097,098-----drives key 099--driving claw

The 9--packing ring

10,10 "--clutch tooth cover 101--clutch tooth

102--jack 11--collet body

111--connection holes (axis hole, screwed hole or taper hole)

112--force-bearing table 12--nut

13--jaw 14--jump ring

15--bearing gasket 16--bearing

The 18--bonnet.

Claims (18)

1. a self-locking mechanism is used for drill chuck, it is characterized in that, comprising:

Clutch tooth cover (10,10 ") is fixedly attached to the collet body (11) of described drill chuck, and it forms tooth (101);

Ovalizing deflection ring (09,09 "); have almost circular first form and oval-shaped substantially second form; wherein; have tooth (091) on the sidewall of described ovalizing deflection ring (09,09 "), described tooth (091) are meshed with the tooth (101) of described clutch tooth cover (10,10 ") when described ovalizing deflection ring (09,09 ") is in described second form; And

Control cover (08) is used to control described ovalizing deflection ring (09,09 ") and changes between described first form and second form.

2. self-locking mechanism according to claim 1 is characterized in that,

Has the control part (083) that is used to push described oval modification ring (09,09 ") sidewall on the described control cover (08);

The reseting groove (093) that has the control part (083) of admitting described control cover (08) on the sidewall of described ovalizing deflection ring (09,09 ").

3. self-locking mechanism according to claim 1 is characterized in that, also comprises:

Position limiting structure is used to limit the relative rotation between described ovalizing deflection ring (09,09 ") and the described control cover (08).

4. self-locking mechanism according to claim 2 is characterized in that,

Described position limiting structure is for being arranged at the location division (095) on the described ovalizing deflection ring (09,09 ").

5. self-locking mechanism according to claim 2 is characterized in that,

Described position limiting structure is the groove sidewall (801,802) that is provided with on the inwall of overcoat (8) of described drill chuck, and wherein, the key (092) of described ovalizing deflection ring (09,09 ") is limited among the described groove sidewall (801,802).

6. according to each described self-locking mechanism in the claim 1 to 5, it is characterized in that,

Described control cover (08) is provided with and is used to make described ovalizing deflection ring (09) to remain in the projection (081) of described first form.

7. drill chuck comprises:

Collet body (11) wherein has a plurality of inclined holes along the circumference five equilibrium;

A plurality of jaws (13) are slidably disposed in the inclined hole of described collet body (11), and its rear end has screw thread;

Divide body nut (12), can be rotatably set in the outside of described collet body (11), and be threadedly engaged with described jaw (13);

Nut sleeve (2), tightly be enclosed within described minute body nut (12) the outside,

Overcoat (8) rotatably is set in the outside of described collet body (11), and its outer surface forms grip part, provides rotary driving force to described nut sleeve (2),

It is characterized in that, also comprise according to each described self-locking mechanism in the claim 1 to 6, wherein, the ovalizing deflection ring of described self-locking mechanism (09,09 ") with

The force-increasing mechanism of described nut sleeve or described nut sleeve rotates synchronously.

8. drill chuck according to claim 7 is characterized in that,

Described ovalizing deflection ring (09) is fixedly attached to the nut sleeve (2) of described drill chuck.

9. drill chuck according to claim 7 is characterized in that,

Described ovalizing deflection ring (09 ') is connected to the lower end of the nut sleeve (2) of described drill chuck synchronously rotationally.

10. drill chuck according to claim 7 is characterized in that,

Body (201) lower end of described nut sleeve (2) has switch hook (206) that extends radially inwardly and the wall extension portion (203) that offers keyway (205);

Offer switch hook locating slot (094) and outward extending key (092 ") on the ring body of described ovalizing deflection ring (09 ');

Wherein, the switch hook (206) of described nut sleeve (2) cooperates with the switch hook locating slot (094) of described ovalizing deflection ring (09 '), and the key of described ovalizing deflection ring (09 ') (092 ") cooperate with the keyway (205) of described nut sleeve (2).

11. drill chuck according to claim 7 is characterized in that,

The below of the switch hook locating slot (094) of the ring body of described ovalizing deflection ring (09 ') is for removing material sections.

12. drill chuck according to claim 7 is characterized in that,

Described ovalizing deflection ring (09) is integrally formed with the nut sleeve (2) of described drill chuck.

13. drill chuck according to claim 7 is characterized in that,

Described force-increasing mechanism is a lever boosting mechanism.

14. drill chuck according to claim 13 is characterized in that, described lever boosting mechanism comprises:

Actuator (5) is arranged on the upper end of described nut sleeve (2), and it has at least one teeth groove (53);

Load spare (3 ") is arranged on the lower end of described nut sleeve (2), the clutch for clutch control portion (33) that it has at least one teeth groove (32) and engages with locating slot (23) on the described nut sleeve (2); And

Lever (6), the force side (62) of its upper end and the engagement of the teeth groove (53) of described actuator (5), teeth groove (32) engagement of the support end of its lower end (63) and described load spare (3 "), the forced section (61) at its middle part is assemblied in the drive division (21) of described nut sleeve rotationally

Wherein, the clutch for clutch control portion (33) of described load spare (3 ") is meshed with the internal tooth (101) of described clutch tooth cover (10) when throwing off described locating slot (23),

The key (54) of described actuator (5) and the key (092) of described ovalizing deflection ring (09) are bonded together and are positioned between the groove sidewall (801,802) of described overcoat (8).

15. drill chuck according to claim 7 is characterized in that,

Described ovalizing deflection ring (09) comprises last ring portion (09a) and the following ring portion (09b) that is linked together by some attachment (096), wherein

The described ring portion (09a) that goes up goes up and forms described key (092), has on the excircle of described ring portion (096) down: described reseting groove (093), the external tooth (091) that is meshed with described shifter collar (10) and be used for the control part (083) of described control cover (08) is carried out spacing location division (095).

16. a drill chuck is characterized in that,

Collet body (11) wherein has a plurality of inclined holes along the circumference five equilibrium;

A plurality of jaws (13) are slidably disposed in the inclined hole of described collet body (11), and its rear end has screw thread;

Divide body nut (12), can be rotatably set in the outside of described collet body (11), and be threadedly engaged with described jaw (13);

Nut sleeve (2), tightly be enclosed within described minute body nut (12) the outside;

It is characterized in that, also comprise:

Coupling sleeve (04) is rotatably installed in the connection holes (111) of described collet body (11), connects with the driving shaft of power equipment;

According to each described self-locking mechanism in the claim 1 to 6, wherein, the outer surface of the clutch tooth cover of described self-locking mechanism (10 ") forms the grip part, and described control cover (08) has the grip part (84) that is positioned between described clutch tooth cover (10 ") and the coupling sleeve (04); And

Intermediate sleeve (05), itself and described coupling sleeve (04) rotate synchronously, and are fixedly connected with the rear portion of described ovalizing deflection ring (09 ").

17. drill chuck according to claim 16 is characterized in that, also comprises:

Drag ring (07), be installed in rotation on described minute body nut (12) the bearing (16) and the force-bearing table (112) of described collet body (11) between.

18. drill chuck according to claim 17 is characterized in that,

Described ovalizing deflection ring (09 ") is provided with the driving claw (099) that is meshed with the teeth groove (073) of drag ring (07),

Described drag ring (07) has the key sidewall (071,072) of the rotational angle of the driving key (097,098) that is used to limit described ovalizing deflection ring (09 ").

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