CN2933663Y - Oblique wedge plane locking drill chuck - Google Patents

Abstract

The utility model discloses an inclined wedge locking drill chuck, comprising a drill, clamps, nuts, an outer sleeve, a control sleeve, a pusher dog, a locking lining and a wedge locking loop. The wedge locking loop can revolve and load on the drill, driving the nut, inside of which the wedge block and the elastic piece deflective pressing the wedge block with an inclined surface are connected; the control sleeve drives the revolving of the wedge locking loop; the locking lining is fixed to the drill, with the locking surface scrubbed and locked with the inclined wedge surface; the pusher dog revolves synchronously with the control sleeve, revolving between the first position getting away from the wedge block and the second position contacting the wedge block; wherein, when the pusher dog is on the first position, the inclined wedge surface contacts with the locking surface tightly, and when the pusher dog is on the second position, the wedge block dislocates, and the inclined wedge surface gets away from the locking surface. In addition, the utility model can replace wedge block locking loop with the rolling locking loop, realizing scrubbing locking function, applying to the usage under the shaking working condition.

Description

Slanting wedge face locking drill clamping chuck

Technical field

The utility model relates to a kind of throw clamping device, especially a kind of slanting wedge face locking drill clamping chuck.

Background technology

Traditional throw clamping device is used for clamping various throws, for example drill bit, reamer, screw tap etc.These throws claim chuck again.Typical chuck, for example drill chuck comprises drill body, a plurality of (for example, three) jaw, nut, overcoat etc., some also comprises the back cover.In addition, some chuck also comprises bearing assembly, is used to reduce friction.A plurality of jaws are installed in respectively in the inclined hole of a plurality of mutual five equilibriums in the drill body.Nut is arranged in the nut groove of drill body, and forms thread transmission with the threaded engagement of jaw.Overcoat is set on the nut (also being arranged with nut sleeve in some cases on the nut).Put outward and have key, have on the nut and the corresponding keyway of key, so that overcoat can be connected with nut sleeve (nut) by key.

In use, manual rotary sleeve, overcoat and then drive nut cover and/or nut, nut drives jaw and moves forward and backward in the inclined hole of drill body then, thereby three jaws is opened or closed, unclamps or clamping tool realizing.

Because drill chuck is generally operational under the operating mode of vibratory impulse, because inertia, nut is loosening easily, makes jaw back off tool handle.Therefore in operation, need the repeated multiple times clamp nut, cause obstacle to production.

The utility model content

The purpose of this utility model is to solve problems of the prior art, and a kind of slanting wedge face locking drill clamping chuck is provided, and static state of relative drill body of retention nut does not unclamp when making jaw clamp pad by the mode of friction lock for it.

In order to achieve the above object, slanting wedge face locking drill clamping chuck of the present utility model is provided with Wedge-type lock ring or the rolling element lock ring that is used for friction lock, and this lock ring is driven by the control piece that is connected with overcoat (for example control cover), and the lock ring drive nut.When lock ring is locked when motionless by cammed surface, nut then is locked thereupon, thus jaw clamping device handle firmly.

According to an aspect of the present utility model, a kind of slanting wedge face locking drill clamping chuck is provided, comprising: drill body, its rear end are connected to the driving shaft of power source, and have the inclined hole of the circumferential five equilibrium in a plurality of edges; A plurality of jaws be installed in respectively in a plurality of corresponding inclined hole in the drill body, and its outer surface have screw thread; Nut is sleeved on the drill body, and its inner surface has screw thread, thus with jaw on engage threads; Overcoat is sleeved on the drill body; The Wedge-type lock ring is sleeved on the drill body rotationally, drives nut and rotates, and is articulated with voussoir in it and to the elastic component of voussoir bias voltage, voussoir has cammed surface; The control cover is connected with overcoat, drives the Wedge-type lock ring and rotates; Locking bushing is fixedly set on the drill body, and it has the locking face with the locking of wedge bevel friction; Pusher dog rotates synchronously with control cover, and the primary importance of throwing off with voussoir and with the second place that voussoir contacts between rotate; Wherein, when pusher dog was positioned at primary importance, cammed surface was close to locking face and is contacted, when pusher dog is positioned at the second place, and the voussoir transposition, cammed surface and locking face disengage.

Preferably, above-mentioned pusher dog is located at control and puts, and control puts and also is provided with driving claw; The Wedge-type retaining ring is provided with driver slot, and wherein driving claw and driver slot cooperate, and drives the Wedge-type lock ring and rotates.

Preferably, also be provided with adapter sleeve and pusher dog spare, first end of this adapter sleeve is connected on the nut, and second end is connected with the Wedge-type lock ring; Pusher dog is located on the pusher dog spare, and pusher dog spare is connected with control piece; Control puts and is provided with driving claw, and the driver slot of offering on driving claw and the Wedge-type lock ring cooperates, and drives the Wedge-type lock ring and rotates.

Preferably, above-mentioned pusher dog is located at control and puts, and control puts and also is provided with driving claw, and the driver slot of offering in driving claw and the Wedge-type lock ring cooperates the rotation of driving Wedge-type lock ring; Wherein also comprise planetary gear transmission device, planetary gear transmission device is made of internal gear, planetary gear, planetary wheel carrier and ring gear, and planetary wheel carrier is connected with nut, and the Wedge-type lock ring drives ring gear and rotates.

Preferably, above-mentioned internal gear and Wedge-type lock ring are integrative-structures.

Preferably, the driver slot of above-mentioned Wedge-type lock ring is provided with first and drives position, the second driving position, and driving claw is provided with elastic bumps portion, when elastic bumps portion and first drives the position engagement, pusher dog is positioned at the second place, and when elastic bumps portion and second drove the position engagement, pusher dog was positioned at primary importance.

Preferably, the cammed surface of above-mentioned voussoir is made of the eccentric curved surface that departs from voussoir pivot center.

Preferably, the angle between the line at the pivot center of the common normal of above-mentioned cammed surface and locking face and voussoir and friction lock place is less than or equal to the angle of friction at friction lock place.

Preferably, the angle between the line at the pivot center of the common normal of above-mentioned cammed surface and locking face and voussoir and friction lock place is greater than the angle of friction at friction lock place.

Preferably, above-mentioned cammed surface, locking face are rough surface.

According to another aspect of the present utility model, a kind of slanting wedge face locking drill clamping chuck is provided, comprising: drill body, its rear end are connected to the driving shaft of power source, and have the inclined hole of the circumferential five equilibrium in a plurality of edges; A plurality of jaws be installed in respectively in a plurality of corresponding inclined hole in the drill body, and its outer surface have screw thread; Nut is sleeved on the drill body, and its inner surface has screw thread, thus with jaw on engage threads; Overcoat is sleeved on the drill body; Rolling element lock ring, rolling element lock ring are sleeved on the drill body rotationally, and drive nut rotation has rolling element in it and to the elastic component of rolling element bias voltage, the rolling element lock ring is provided with cammed surface; Control piece is connected with overcoat, drives the rolling element lock ring and rotates; Locking bushing is fixedly set on the drill body, and it has with rolling element is close to the locking face that contacts; Pusher dog rotates synchronously with control piece, and the primary importance of throwing off with rolling member and with the second place that rolling member contacts between rotate; Wherein, pusher dog is when being positioned at primary importance, and rolling element is close to simultaneously with described cammed surface with the locking face of drill body and is contacted rolling element lock ring and drill body friction lock; Pusher dog is when being positioned at the second place, and rolling element and locking face disengage.

Preferably, above-mentioned pusher dog is located on the control piece, also is provided with driving claw on this control piece; The Wedge-type retaining ring is provided with driver slot, and wherein driving claw and driver slot cooperate, and drives the rolling element lock ring and rotates.

Preferably, the pusher dog spare that also is provided with adapter sleeve and is connected with control piece; First end of adapter sleeve is connected on the nut, and second end connects the Wedge-type lock ring; Pusher dog is located on the pusher dog spare; Control piece is provided with driving claw, and the driver slot of offering on driving claw and the Wedge-type lock ring cooperates, and drives the rolling element lock ring and rotates.

Preferably, above-mentioned pusher dog is located on the control piece, and this control piece also is provided with driving claw, and the driver slot of offering in this driving claw and the rolling element lock ring cooperates, and drives the rolling element lock ring and rotates; Wherein also comprise planetary gear transmission device, planetary gear transmission device is made of internal gear, planetary gear, planetary wheel carrier and ring gear, and planetary wheel carrier is connected with nut, and the rolling element lock ring drives ring gear and rotates.

Preferably, above-mentioned internal gear and rolling element lock ring are integrative-structures.

Preferably, the driver slot of above-mentioned rolling element lock ring is provided with first and drives position, the second driving position, driving claw is provided with elastic bumps portion, when this elastic bumps portion and first drives the position engagement, pusher dog is positioned at the described second place, when elastic bumps portion and second drove the position engagement, pusher dog was positioned at described primary importance.

Preferably, above-mentioned pusher dog is when described primary importance, and the contact point that makes rolling element and cammed surface is M, and the contact point of rolling element and locking face is N, and the angle between the tangent line of this cammed surface and the tangent line of locking face is less than the angle of friction sum of 2 of M and N.

Preferably, above-mentioned pusher dog is provided with the contact-making surface of contact roller kinetoplast, the oblique setting of this contact-making surface.

Preferably, above-mentioned locking face is the rough surface with microgroove.

Preferably, above-mentioned locking face is the polishing surface.

Because the utility model slanting wedge face locking drill clamping chuck has above structure, thereby be close to when contacting at the cammed surface of voussoir and the locking face on the drill body, perhaps cammed surface on rolling element and rolling element lock ring and rolling element and the locking face on the drill body are close to respectively when contacting, can the relative drill body transfixion of retention nut, thereby the state of jaw clamping device handle continues always, need not clamp nut repeatedly.And Wedge-type lock ring or rolling element lock ring both can be arranged on the front portion of drill body, can be arranged on the rear portion of drill body again, so conveniently had the setting of the mechanism of other function, as prevented the arrestment mechanism that retreats that jaw excessively retreats.In addition, between nut and drill body, also can be provided with the planetary gear transmission mechanism, be used to amplify the moment of rotating jacket, so promptly use very little moment also to realize locking easily.In addition,, change locking face so and just be easy to because locking face is located on the Locking bushing, as long as change Locking bushing, thereby under the different operating modes, by the friction lock state of selecting more suitable Locking bushing just can obtain to adapt.

Should be appreciated that above generality is described and the following detailed description is all enumerated and illustrative, purpose is in order to provide further instruction to claimed the utility model.

Other features and advantages of the utility model provide in explanation subsequently, partly can be apparent from the description, and maybe can find out from enforcement of the present utility model.The purpose of this utility model and other advantage can be understood, obtain from the structure that following written explanation, claim and accompanying drawing provide especially.

Description of drawings

The accompanying drawing of forming the part of this specification helps further to understand the utility model, and these accompanying drawings illustrate embodiment more of the present utility model, and can be used for illustrating principle of the present utility model with specification.In the accompanying drawing:

Fig. 1 to Fig. 9 shows first embodiment of the utility model slanting wedge face locking drill clamping chuck, wherein

Fig. 1 is the main cutaway view of first embodiment;

Fig. 2 be the A-A of Fig. 1 to cutaway view, wherein slanting wedge face locking drill clamping chuck is in locking state;

Fig. 3 be the A-A of Fig. 1 to cutaway view, wherein slanting wedge face locking drill clamping chuck is unlocked;

Fig. 4 is the partial enlarged drawing at Y place among Fig. 2, wherein shows the polishing locking face of drill body;

Fig. 5 is the partial enlarged drawing at Y place among Fig. 2, wherein shows the coarse locking face of microgroove of drill body;

Fig. 6 is the cutaway view of control cover;

Fig. 7 is the stereogram of control cover shown in Figure 6;

Fig. 8 is the vertical view of Wedge-type lock ring;

Fig. 9 is the stereogram of Wedge-type lock ring shown in Figure 8;

Figure 10 to Figure 22 shows second embodiment of the utility model slanting wedge face locking drill clamping chuck, wherein,

Figure 10 is the main cutaway view of second embodiment;

Figure 11 is that the B-B of Figure 10 is to cutaway view;

Figure 12 is that the C-C of Figure 10 is to cutaway view;

Figure 13 is the front view of overcoat;

Figure 14 is the vertical view of overcoat shown in Figure 13;

Figure 15 is the cutaway view of control cover;

Figure 16 is the vertical view of control cover shown in Figure 15;

Figure 17 is the main cutaway view of adapter sleeve;

Figure 18 is the vertical view of adapter sleeve shown in Figure 17;

Figure 19 is a pusher dog spare master cutaway view;

Figure 20 is the vertical view of pusher dog spare shown in Figure 19;

Figure 21 is the vertical view of Wedge-type lock ring;

Figure 22 is the cutaway view of Wedge-type lock ring shown in Figure 21;

Figure 23 to Figure 33 shows the 3rd embodiment of the utility model slanting wedge face locking drill clamping chuck, wherein

Figure 23 is the main cutaway view of the 3rd embodiment;

Figure 24 be the D-D of Figure 23 to cutaway view, wherein slanting wedge face locking drill clamping chuck is in locking state;

Figure 25 be the D-D of Figure 23 to cutaway view, wherein slanting wedge face locking drill clamping chuck is in non-locking state;

Figure 26 is the partial enlarged drawing at I place among Figure 24, and wherein the locking surface of lining is the polishing locking face;

Figure 27 is the partial enlarged drawing at I place among Figure 24, and wherein the locking surface of lining is the coarse locking face of microgroove;

Figure 28 is the upward view of rolling element lock ring;

Figure 29 is the main cutaway view of rolling element lock ring shown in Figure 28;

Figure 30 is the main cutaway view of control piece;

Figure 31 is the vertical view of control piece shown in Figure 30;

Figure 32 is the upward view of branch body nut, wherein divides the each several part of body nut to combine;

Figure 33 is the half sectional view of shown in Figure 32 minute body nut;

Figure 34 to Figure 40 shows according to the utility model slanting wedge face locking drill clamping chuck the 4th embodiment, wherein

Figure 34 is the main cutaway view of the 4th embodiment;

Figure 35 is that the E-E of Figure 34 is to cutaway view;

Figure 36 is the vertical view of rolling element ring body;

Figure 37 is the front view of pusher dog spare;

Figure 38 is the vertical view of pusher dog spare shown in Figure 37;

Figure 39 is the front view of control cover;

Figure 40 is the vertical view of control cover shown in Figure 39;

Figure 41 to Figure 50 shows the 5th embodiment according to the utility model Wedge-type lock ring, wherein

Figure 41 is the main cutaway view of the 5th embodiment;

Figure 42 is that the F-F of Figure 41 is to cutaway view;

Figure 43 is that the G-G of Figure 41 is to cutaway view;

Figure 44 is the upward view of control piece;

Figure 45 is the main cutaway view of control piece shown in Figure 44;

Figure 46 is the main cutaway view of planetary wheel carrier;

Figure 47 is the vertical view of planetary wheel carrier shown in Figure 46;

Figure 48 is the upward view of Wedge-type lock ring;

Figure 49 is the main cutaway view of Wedge-type lock ring shown in Figure 48;

Figure 50 is the vertical view of overcoat;

Figure 51 to Figure 53 is the 6th embodiment according to the utility model slanting wedge face locking drill clamping chuck, wherein

Figure 51 is that the F-F of Figure 41 is to cutaway view;

Figure 52 is the upward view of rolling element ring body;

Figure 53 is the also main cutaway view of body of rolling element.

The specific embodiment

Below in conjunction with drawings and Examples the utility model slanting wedge face locking drill clamping chuck is described in detail.Same parts is represented with same label in the accompanying drawings.

First embodiment

Fig. 1 to Fig. 9 shows first embodiment of the utility model slanting wedge face locking drill clamping chuck, and as shown in Figure 1, this slanting wedge face locking drill clamping chuck comprises drill body 1, jaw 2, nut 3, back cover 4, overcoat 5, bearing assembly 6, nut sleeve 7, control cover 8, Wedge-type lock ring 9, voussoir 10, elastic component 12, and jump ring 22.Drill body 1 is provided with three its axes intersect any inclined hole on the drill body axis, be equiped with movably jaw 2 respectively in three inclined holes on drill body 1, one side of jaw 2 is provided with the part screw thread, and another side is provided with the seamed edge parallel with the axis of drill body 1, is used for the clamping tool handle.Nut 3 is sleeved on the drill body 1, the part threaded engagement on internal thread on it and the jaw 2, and rotating nut 3 can make jaw 2 slide up and down in the inclined hole of drill body 1, thereby jaw 2 can be clamped or the back off tool handle.Because jaw is by the unique driving of nut, thereby drill chuck is when work, as long as make nut relative with drill body static, i.e. and locking nut, then jaw is in the state of clamping tool handle all the time.Each assembly that below detailed description is used for the friction lock nut.

In conjunction with as can be known, control cover 8 and be fixedly connected on overcoat 5, a plurality of pusher dogs 83 that a plurality of driving claws 81 arranged on its lower end wall and be positioned at driving claw 81 inboards with reference to Fig. 6, Fig. 7.

In conjunction with as can be known with reference to Fig. 8, Fig. 9, Wedge type retaining ring 9 is rotating be sleeved on the drill body 1 and and drill body 1 between gapped, which is provided with a plurality of force transfer keys 95, be used for pegging graft, thereby rotate (nut 3 is shown in Figure 32,33) synchronously with nut 3 with the driver slot 32 of nut 3.The inboard of retaining ring 9 is provided with and is used to install the voussoir support level 93 of voussoir 10 and the elastic component installation position 94 that is used to install elastic component 12, the outside of retaining ring 9 is provided with a plurality of driver slots 98, and the circumferential side wall of driver slot 98 is provided with first and drives the 91 and second driving position 92, position.

In conjunction with reference to Fig. 2, Fig. 3 as can be known, voussoir 10 is articulated on the Wedge-type lock ring 9, be voussoir 10 by the support portion 101 rotating voussoir support levels 93 that are installed on Wedge-type lock ring 9, which is provided with the cammed surface 102 that contacts with drill body locking face 103 (being the external cylindrical surface 13 of the drill body of Wedge-type lock ring 9 positions).Elastic component 12 for example spring is installed on elastic component installation position 94, and it is positioned at a side of voussoir 10, to voussoir 10 bias voltages.

Control cover 8 is provided with rotationally, its pusher dog 83 between drill body locking face 103 and Wedge-type lock ring 9 and driving claw 81 be arranged in the driver slot 98 indexablely.When control cover 8 rotated, the contacting of the side by driving claw 81 sides and driver slot 98 can drive Wedge-type lock ring 9 and rotate synchronously.Also be provided with elastic bumps portion 85 on the driving claw 81, it can drive position 91,92 engagements with first, second respectively, is used for the relative position elastic locking between control cover 8 and the Wedge-type lock ring 9.

The clamping process of slanting wedge face locking drill clamping chuck is as follows:

At unclamped state shown in Figure 3, driving claw 81 and second drives position 92 engagements, and pusher dog 83 holds up voussoir 10 simultaneously, makes the cammed surface 102 of voussoir 10 be in not contact condition with locking face 103.When forward rotation overcoat 5, when driving 8 rotations of control cover, because driving claw 81 and second drives position 92 and meshes, thereby driving Wedge-type lock ring 9 rotates synchronously, nut rotates relative to jaw simultaneously, by the screw thread transmission, make jaw 2 reaches and folder go up drilling tool handle (not shown), when being rotated further,, be subjected to the bigger moment of resistance because jaw 2 is clamped pad, thereby driving claw 81 overcomes elastic force and drives position 92 from second and skid off, forward to first and drive position 91 and be engaged with, meanwhile, pusher dog 83 is away from voussoir 10, locking state as shown in Figure 2.Under the resilient force of elastic component 12, wedge surface 102 contacts with locking face 103, and at this moment the side of driving claw 81 just contacts with the sidewall of driver slot 98.

Continue to strengthen the moment of rotating jacket, Wedge-type locking member 9 relatively rotates with the locking face 103 of voussoir 10 relative drill bodies 1, and cammed surface 102 is slided on locking face 103, clamps the drilling tool handle fully until jaw 2.

In conjunction with reference to Fig. 4 and Fig. 5 as can be known, cammed surface 102 and locking face 103 are contacted with the P point, and cammed surface 102 is to be the center of circle with the O1 point, is that the eccentric curved surface of radius constitutes with R, and this center of circle O1 departs from the centre of gyration O of voussoir.The common normal O1P of cammed surface and locking face and the angle between the OP are a, in this state, can be by the position of change center of circle O1 and the size of radius R, change the size of angle a, perhaps change the degree of roughness of locking face 103, for example, the angle of friction that polishing locking face 103 shown in Figure 4 forms at P point place is littler than the coarse locking face 103 with microgroove shown in Figure 5, certainly, also can change the roughness of cammed surface, change the size of the frictional force at P point place, make designed a angle be less than or equal to the angle of friction at contact point P place, voussoir 10 is in the friction lock state together with Wedge-type locking member 9 relative locking faces 103, so Wedge-type locking member 9 locking face 103 counter motions relatively, promptly can not relative counter motion between nut and the jaw.Also because the resilient force of elastic component 12 in voussoir 10, has guaranteed that under the vibration operating mode jaw does not get loose to the clamping of drilling tool handle.In addition, under the bigger situation of the elastic force of elastic component 12, a angle can be a bit larger tham the angle of friction that P is ordered.

Unclamp the clamping of jaw to the drilling tool handle, only need the backward rotation overcoat, make driving claw 81 slide into 92 from driving position 91, pusher dog is synchronized with the movement and cammed surface 102 is pushed into and locking face 103 is thrown off contact positions simultaneously, thereby the Wedge-type lock ring can backward rotation, thereby has removed locking state.

Second embodiment

Figure 10 to Figure 22 shows second embodiment of the utility model slanting wedge face locking drill clamping chuck, and the difference of itself and first embodiment is: Wedge-type lock ring 9 is placed in the rear portion of drill body 1.

In conjunction with as can be known, keyway 52 and hole 53 are arranged on the inwall of overcoat 5 with reference to Figure 10, Figure 13, Figure 14.Front shroud 20 is set in the front portion of drill body 1,21 is axially fixed on the drill body by the opening ring that is located by connecting, and which is provided with the key that cooperates 201 with hole 53, thereby cooperate by key 201 and keyhole 153, and front shroud 20 links together with overcoat 5.

In conjunction with reference to Figure 15, Figure 16 as can be known, the lower end of control cover 8 is provided with a plurality of driving keys 82, and it is pegged graft with the keyway 52 on the overcoat 5 and cooperates, as shown in figure 12, overlaps 8 rotations thereby overcoat 5 drives control.The upper end of control cover 8 forms a plurality of driving claws 81, is used to drive pusher dog spare 13 described later.

In conjunction with reference to Figure 17, Figure 18 as can be known, adapter sleeve 17 is set in nut 3 and drives this nut 3 and rotates, and there is force transfer key 171 upper end of adapter sleeve 17.

In conjunction with reference to Figure 19, Figure 20 as can be known, there is pusher dog 83 inboard of pusher dog spare 13, and there is groove 132 in the outside, and during assembling, the driving claw 81 of control cover 8 passes the groove 132 of pusher dog spare and pusher dog spare 13 and control cover 8 are rotated synchronously.Like this, control cover 8 and pusher dog spare 13 are combined, and its effect is equivalent to the control cover among first embodiment.

In conjunction with as can be known, except being provided with driver slot 98, being arranged in first, second driving position 91,92, voussoir installation position 93 and the elastic component installation position 94 of driver slot 98, also be provided with power transmission groove or hole 95 on the pusher dog 9 with reference to Figure 21, Figure 22.Adapter sleeve 17 is combined together by the grafting of the force transmission hole 95 on force transfer key 171 and the Wedge-type lock ring 9, and Wedge-type lock ring 9 has formed the relation of synchronous rotation with adapter sleeve 17 like this, thereby directly controls the rotation of nut 3.

In conjunction with as can be known with reference to Figure 11, also be provided with Locking bushing 110 between voussoir 10 and the drill body 1, Locking bushing 110 is fixedly set on the drill body 1, and its outer peripheral face constitutes locking face, and its locking and the mode of unclamping are basically the same as those in the first embodiment, and do not repeat them here.

The 3rd embodiment

Figure 23 to Figure 33 shows the 3rd embodiment of the utility model slanting wedge face locking drill clamping chuck, and present embodiment adopts the mode of rolling element and slanting wedge face locking.

In conjunction with reference to Figure 28, Figure 29 as can be known, rolling element lock ring 19 rotating being sleeved on the drill body 1 which is provided with a plurality of force transfer keys 193, are used for pegging graft with the driver slot 32 of nut 3, thereby rotate synchronously with nut 3.The inboard of rolling element lock ring 19 offers elastic component installation position 94 and cammed surface 96, the elastic component installation position 94 of rolling element lock ring 19 is used to install elastic component 12, spring for example, and 12 pairs of this elastic components are arranged on rolling element 11 bias voltages of a side, promptly rolling element 11 is applied elastic force, make it away from elastic component.Retaining ring 9 outsides are provided with driver slot 98, and the circumferential side wall of driver slot 98 is provided with first and drives the 91 and second driving position 92, position.Driver slot 98 and first, second setting that drives position 91,92 are identical with previous embodiment.

In conjunction with reference to Figure 30, Figure 31 as can be known, control piece 18 is provided with and drives key 182, pusher dog 83 and driving claw 81.Drive key 182 be used for overcoat 5 on the hole peg graft, rotate thereby overcoat 5 drives control pieces 18.By Figure 32,33 as can be known, there is screw thread 31 inboard of nut 3, is used for the screw thread transmission with jaw; Its lower end offers a plurality of driver slots 32, is used for being plugged on together with above-mentioned rolling element lock ring 19, forms synchronously and rotates.

Figure 24 shows the locking state of present embodiment, and Figure 25 shows the non-locking state of present embodiment.In Figure 25, pusher dog 83 is in extreme position, and the elastic bumps portion 85 of driving claw 81 just in time drives position 92 engagements with second, driving claw 81 was close to rolling element 11 and was contacted this moment, elastic component 12 is compressed, rolling element 11 away from cammed surface 96 and with locking face 103 (this locking face is located on the Locking bushing 110, and Locking bushing 110 and drill body be suit fixedly) between have the gap, thereby the rolling element lock ring can be by forward and reverse driving.When control piece 18 rotates, when pusher dog 83 is in position shown in Figure 24, the elastic bumps portion 85 of driving claw 81 and first drives 91 engagement location, position, pusher dog 83 is in another extreme position away from rolling element 11, rolling element 11 is under the effect of the elastic force of elastic component 12, be close to respectively with locking face 103 with cammed surface 96 and contact, thus rolling element lock ring 18 by rolling element and with the drill body friction lock.

In conjunction with as can be known with reference to Figure 26, Figure 27, rolling element 11 is M with the contact point of cammed surface 96, the contact point of itself and locking face 103 is N, the tangent line MM ' of the cammed surface 196 of rolling element lock ring 19 is β with the angle of the tangent line NN ' of locking face 103, under the very weak state of elastic component 12 elastic forces, angle β should be less than M and 2 angle of friction sums of N.The contact-making surface of pusher dog 83 and rolling element 11 and locking face are crossed the normal that S is ordered on the pusher dog 83 and are formed an acute angle V, be pusher dog 83 oblique settings, its effect is when driving claw 81 and second drives position 92 engagements, the elastic force that elastic component applies rolling element makes rolling element 11 move along inclined-plane, V angle and relies on cammed surface 196, contact with locking face 103 disengagements, make when rotating more flexible.

The 4th embodiment

Figure 34 to Figure 40 shows the 4th embodiment of the utility model slanting wedge face locking drill clamping chuck, the difference of itself and the 3rd embodiment is, rolling element lock ring 18 places the drill body rear portion, and is identical with second embodiment, also isolates a pusher dog spare from control cover or control piece.

In conjunction with reference to Figure 36 as can be known, rolling element lock ring 19 is except being provided with driver slot 98, and first, second drives position 91,92, outside the cammed surface 96, also be provided with power transmission groove and hole 95, be used for power transmission cover 17 on force transfer key 171 grafting (not shown)s, thereby drive nut 3 rotates.

In conjunction with reference to Figure 37, Figure 38 as can be known pusher dog spare 13 be provided with pusher dog 83 and driver slot 132.In conjunction with reference to Figure 39,40 as can be known, control piece 18 is provided with driving claw 81 and drives key 182, drive key 182 be used for overcoat 5 on keyway 182 peg graft, thereby rotate synchronously.

The 5th embodiment

Figure 41 to Figure 50 shows the 5th embodiment of the utility model slanting wedge face locking drill clamping chuck, present embodiment is on the basis of first embodiment, between nut 3 and Wedge-type lock ring 9, increased by a planetary gear rotating mechanism, in conjunction with reference to Figure 41 as can be known, this planetary wheeling mechanism is by planetary gear 62, internal gear 69, ring gear 63, planetary wheel carrier 60 constitutes.Wherein, ring gear 63 is fixed on the drill body;

In conjunction with reference to Figure 48,49 as can be known, internal gear 69 is the gear teeth 696 and Wedge-type lock ring 9 all-in-one-piece spares, which is provided with first, second and drives position 91,92, driver slot 98, voussoir installation position 93, elastic component installation position 94.Its effect separately is described with first embodiment.

In conjunction with reference to Figure 44, Figure 45 as can be known, control piece 18 is provided with and drives key 182, driving claw 81 and pusher dog 83, and control piece 18 and overcoat 5 cooperate by the grafting that drives key 182 and hole 53 and link together, and driving claw 81 is used to drive internal gear 69.The rotation of internal gear 69 drives planetary gear, and then drives planetary wheel carrier 60 rotations.In conjunction with reference to Figure 46,47 as can be known, an end of planetary wheel carrier 60 is provided with a plurality of keys 603, and a plurality of keys 603 are pegged graft with nut 3, and promptly planetary wheel carrier 60 rotates and drives nuts 3 and rotate.

Because internal gear 69 is provided with Wedge-type lock ring structure, thereby the cammed surface of the voussoir on the internal gear 10 contacts with the locking face of drill body, friction lock, as shown in figure 42.And, passed through the transmission of planetary wheeling mechanism from overcoat to nut, thereby the rotating torque of amplification can be provided nut, as shown in figure 43.

The 6th embodiment

Figure 51 to 53 shows the 6th embodiment of the utility model slanting wedge face locking drill clamping chuck, and present embodiment has increased delegation's star wheels transport mechanism at nut between the rolling element lock ring on the basis of the 3rd embodiment.This planetary wheeling mechanism is by planetary gear 62, internal gear 69, and ring gear 63, planetary wheel carrier 60 constitutes.Wherein, ring gear 63 is fixed on the drill body; Internal gear 69 is the gear teeth 696 and rolling element lock ring all-in-one-piece spare, shown in Figure 52,53.Its setting is identical with the 5th embodiment with role, does not repeat them here.

The planetary gear transmission mechanism of above-mentioned the 5th embodiment and the 6th embodiment is arranged on the front portion of drill body, those skilled in the art expect easily, this planetary wheeling mechanism also can be located at the rear portion of drill body, promptly on the basis of second embodiment and the 4th embodiment this planetary wheeling mechanism is set.

Though above-mentioned pusher dog, driving claw, voussoir, rolling element respectively there is shown four groups, according to the actual needs, can be arranged to other group number, as two groups, three groups or more groups, as long as can finish the purpose of this utility model.

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 claim scope of the present utility model.

Description of reference numerals

1. drill body 10. voussoirs 11. rolling elements

12. elastic component 13. pusher dog spares 17. adapter sleeves

18. control piece 19. rolling element lock rings 110. Locking bushings

103. locking face 2. jaws 3. nuts

31. screw thread 32. driver slots 4. rear covers

5. overcoat 52. keyways 53. holes

6. bearing assembly 60. planetary wheel carriers 62. planetary gears

63. ring gear 69. internal gears 696. internal tooths

7. 81. driving claws are overlapped in nut sleeve 8. controls

82. actuator 83. pusher dogs 85. elastic bumps sections

9. Wedge-type lock ring 91. first drives position 92. second and drives the position

93. voussoir support level 94. elastic component installation positions 95. force transfer keys

96. wedge inclined-plane 98. driver slots, 20. front shrouds

Ring 22. jump rings 201. key 21. is located by connecting

Claims (20)

1. a slanting wedge face locking drill clamping chuck comprises drill body, and its rear end is connected to the driving shaft of power source, and has the inclined hole of the circumferential five equilibrium in a plurality of edges;

A plurality of jaws be installed in respectively in a plurality of corresponding inclined hole in the described drill body, and its outer surface have screw thread;

Nut is sleeved on the described drill body, and its inner surface has screw thread, thus with described jaw on engage threads;

Overcoat is sleeved on the described drill body, it is characterized in that: also comprise

The Wedge-type lock ring is sleeved on the described drill body rotationally, drives described nut and rotates, and is articulated with voussoir in it and to the elastic component of described voussoir bias voltage, described voussoir has cammed surface;

The control cover is connected with described overcoat, drives described Wedge-type lock ring and rotates;

Locking bushing is fixedly set on the drill body, and it has the locking face with described wedge bevel friction locking;

Pusher dog rotates synchronously with described control cover, and the primary importance of throwing off with described voussoir and with the second place that voussoir contacts between rotate; And wherein, when described pusher dog was positioned at primary importance, described cammed surface was close to locking face and is contacted, when described pusher dog is positioned at the second place, and described voussoir transposition, described cammed surface and locking face disengage.

2. slanting wedge face locking drill clamping chuck according to claim 1 is characterized in that: described pusher dog is located at control and puts, and described control puts and also is provided with driving claw; Described Wedge-type retaining ring is provided with driver slot, and wherein said driving claw and described driver slot cooperate, and drives described Wedge-type lock ring and rotates.

3. slanting wedge face locking drill clamping chuck according to claim 1 is characterized in that: also be provided with adapter sleeve and pusher dog spare, first end of described adapter sleeve is connected on the nut, and second end is connected with described Wedge-type lock ring; Described pusher dog is located on the pusher dog spare, and described pusher dog spare is connected with control piece; Described control puts and is provided with driving claw, and the driver slot of offering on described driving claw and the Wedge-type lock ring cooperates, and drives described Wedge-type lock ring and rotates.

4. slanting wedge face locking drill clamping chuck according to claim 1, it is characterized in that: described pusher dog is located at control and puts, described control puts and also is provided with driving claw, and the driver slot of offering in described driving claw and the Wedge-type lock ring cooperates, and drives described Wedge-type lock ring and rotates; Wherein also comprise planetary gear transmission device, described planetary gear transmission device is made of internal gear, planetary gear, planetary wheel carrier and ring gear, and described planetary wheel carrier is connected with nut, and described Wedge-type lock ring drives ring gear and rotates.

5. slanting wedge face locking drill clamping chuck according to claim 4 is characterized in that: described internal gear and described Wedge-type lock ring are integrative-structures.

6. according to each described slanting wedge face locking drill clamping chuck in the claim 2 to 5, it is characterized in that: the driver slot of described Wedge-type lock ring is provided with first and drives position, the second driving position, driving claw is provided with elastic bumps portion, when described elastic bumps portion and first drives the position engagement, described pusher dog is positioned at the described second place, when described elastic bumps portion and second drove the position engagement, described pusher dog was positioned at described primary importance.

7. slanting wedge face locking drill clamping chuck according to claim 6 is characterized in that: the cammed surface of described voussoir is made of the eccentric curved surface that departs from voussoir pivot center.

8. slanting wedge face locking drill clamping chuck according to claim 7 is characterized in that: the angle between the pivot center of the common normal of described cammed surface and locking face and described voussoir and the line at friction lock place is less than or equal to the angle of friction at friction lock place.

9. slanting wedge face locking drill clamping chuck according to claim 7 is characterized in that: the angle between the pivot center of the common normal of described cammed surface and locking face and described voussoir and the line at friction lock place is greater than the angle of friction at friction lock place.

10. according to each described slanting wedge face locking drill clamping chuck in claim 1 or 7 or 8 or 9, it is characterized in that: described cammed surface, locking face are rough surface.

11. a slanting wedge face locking drill clamping chuck comprises

Drill body, its rear end are connected to the driving shaft of power source, and have the inclined hole of the circumferential five equilibrium in a plurality of edges;

A plurality of jaws are installed in respectively in a plurality of corresponding inclined hole in the described drill body,

And its outer surface has screw thread;

Nut is sleeved on the described drill body, and its inner surface has screw thread, thus with described jaw on engage threads;

Overcoat is sleeved on the described drill body, it is characterized in that: also comprise the rolling element lock ring, described rolling element lock ring is sleeved on the described drill body rotationally, drive the rotation of described nut, rolling element is arranged in it and to the elastic component of described rolling element bias voltage, described rolling element lock ring is provided with cammed surface;

Control piece is connected with described overcoat, drives described rolling element lock ring and rotates;

Locking bushing is fixedly set on the drill body, and it has with described rolling element is close to the locking face that contacts; And

Pusher dog rotates synchronously with described control piece, and the primary importance of throwing off with described rolling member and with the second place that rolling member contacts between rotate;

Wherein, described pusher dog is when being positioned at primary importance, and described rolling element is close to simultaneously with described cammed surface with the locking face of drill body and is contacted described rolling element lock ring and described drill body friction lock; Described pusher dog is when being positioned at the second place, and described rolling element and described locking face disengage.

12. slanting wedge face locking drill clamping chuck according to claim 11 is characterized in that: described pusher dog is located on the control piece, also is provided with driving claw on the described control piece; Described Wedge-type retaining ring is provided with driver slot, and wherein said driving claw and described driver slot cooperate, and drives described rolling element lock ring and rotates.

13. slanting wedge face locking drill clamping chuck according to claim 11 is characterized in that: the pusher dog spare that also is provided with adapter sleeve and is connected with described control piece; First end of described adapter sleeve is connected on the nut, and second end connects described Wedge-type lock ring; Described pusher dog is located on the described pusher dog spare; Described control piece is provided with driving claw, and the driver slot of offering on described driving claw and the Wedge-type lock ring cooperates, and drives described rolling element lock ring and rotates.

14. slanting wedge face locking drill clamping chuck according to claim 11, it is characterized in that: described pusher dog is located on the control piece, described control piece also is provided with driving claw, and the driver slot of offering in described driving claw and the rolling element lock ring cooperates, and drives described rolling element lock ring and rotates; Wherein also comprise planetary gear transmission device, described planetary gear transmission device is made of internal gear, planetary gear, planetary wheel carrier and ring gear, and described planetary wheel carrier is connected with nut, and described rolling element lock ring drives ring gear and rotates.

15. slanting wedge face locking drill clamping chuck according to claim 14 is characterized in that: described internal gear and described rolling element lock ring are integrative-structures.

16. according to each described slanting wedge face locking drill clamping chuck in the claim 12 to 15, it is characterized in that: the driver slot of described rolling element lock ring is provided with first and drives position, the second driving position, described driving claw is provided with elastic bumps portion, when described elastic bumps portion and first drives the position engagement, described pusher dog is positioned at the described second place, when described elastic bumps portion and second drove the position engagement, described pusher dog was positioned at described primary importance.

17. slanting wedge face locking drill clamping chuck according to claim 16, it is characterized in that: described pusher dog is when described primary importance, the contact point that makes described rolling element and described cammed surface is M, the contact point of described rolling element and described locking face is N, and the angle between the tangent line of described cammed surface and the tangent line of locking face is less than the angle of friction sum of 2 of M and N.

18. slanting wedge face locking drill clamping chuck according to claim 17 is characterized in that: described pusher dog is provided with the contact-making surface of contact roller kinetoplast, the oblique setting of described contact-making surface.

19. according to claim 17 or 18 described slanting wedge face locking drill clamping chucks, it is characterized in that: described locking face is the rough surface with microgroove.

20. slanting wedge face locking drill clamping chuck according to claim 19 is characterized in that: described locking face is the polishing surface.

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