Utility model content
The purpose of this utility model is to provide a kind of chucks, to alleviate versatility existing for chuck in the prior art
Difference, and be in process to need to clamp the part of inner circle, or will need to clamp for the part exchanging for needing to clamp outer circle
When the part exchanging of inner circle is the part for needing to clamp outer circle, the technical issues of needing replacing entire chuck.
Chuck provided by the utility model includes chuck body, pull ring and clamp assemblies.
Wherein, perforative through-hole, the pull ring up and down are offered on the chuck body to be mounted in the through-hole, and described
It is provided with inwardly projecting limiting section at the top of pull ring, the bottom of the clamp assemblies opens up fluted, and the groove can block
Residence is stated limiting section and is moved up and down with the pull ring, and the groove can be detached from the limiting section and the relatively described pull ring is upward
It is mobile.
The clamp assemblies are inner circle clamp assemblies or outer circle clamp assemblies, and the inner circle clamp assemblies move down can
Clamp blocks inner circle, part inner circle can be unclamped by moving up;The outer circle clamp assemblies move down can be outside Clamp blocks
Circle, part outer circle can be unclamped by moving up.
Preferably, as an embodiment, the top of the through-hole is the cone that cross section is from top to bottom gradually reduced
Shape hole.
The outer circle clamp assemblies include that outer circle integrates collet, and it includes surrounding circular ring shape at least that the outer circle, which integrates collet,
Two the first claws and at least two first elastic structures are connected with an institute between the first claw described in each adjacent two
The first elastic structure is stated, the lateral wall of the integrated collet of the outer circle is tapered and is slidably matched with the bellmouth, inner sidewall
The cylindrical outer circle for being used to wrap up part, the groove are provided with the bottom of first claw.
Preferably, as an embodiment, the top of the chuck body offers the first pin hole, first pin hole
Stop pin is inside installed.
Vertical sliding slot is offered on the lateral wall of first claw, the inner end of the stop pin and the sliding slot slide
Cooperation is for limiting circumferentially rotating for first claw.
Preferably, as an embodiment, the inner circle clamp assemblies include that inner circle integrates expansion set, pull rod, connection
Part, cone, driving assembly and geosynclinal block;The bottom of the pull rod offers the holding tank for installing the geosynclinal block, and the driving group
Part is used to that radial direction of the geosynclinal block in the holding tank along the pull rod to be driven to move back and forth, and the groove is provided with the slot
On the lateral wall of block.
The cone includes fixed part and the upper tapering that is connected to above the fixed part, the fixed part and the card
Disk body is fixedly connected, and it includes at least two second claws and at least two second bullets for surrounding circular ring shape that the inner circle, which integrates expansion set,
Property structural member is connected with second elastic structure, the inner circle collection between the second claw described in each adjacent two
Cylindrical for propping up the inner circle of part at the lateral wall of expansion set, inner sidewall is in the taper that from top to bottom cross section is gradually increased
And it is slidably matched with the upper tapering;The pull rod integrates expansion set with the inner circle by the connector and connect, and the drawing
Bar is moved up and down for driving the inner circle to integrate the relatively described cone of expansion set.
Preferably, as an embodiment, the bottom of the pull rod is connected with end cap, the cone, the pull rod
Coaxial and upper and lower perforative centre bore is offered with the center of the end cap;The geosynclinal block and the holding tank are more
It is a, and the geosynclinal block and the holding tank correspond, the bottom centre position of the pull rod offers and multiple receivings
The central channel of slot connection, multiple geosynclinal blocks surround cylindrical hole at the central channel;The inside of the geosynclinal block offers arc
Shape slot, multiple arc grooves surround the tapered surface that cross section is from top to bottom gradually reduced.
The driving component includes taper ejector rod and screw, and the taper ejector rod includes being slidably matched with the tapered surface
Conical surface portion;Screw thread is provided on the inner wall of the centre bore of the pull rod, the screw passes through centre bore and institute in the cone
The centre bore for stating pull rod is threadedly engaged, and the bottom end of the screw is abutted with the top of the taper ejector rod;Each geosynclinal block
Bottom offers the strip groove being laterally arranged, and third elastic structure is provided in the strip groove;It is opened up on the end cap
Have the second pin hole, positioning pin be installed in second pin hole, the top of the positioning pin protrude into the strip groove and with institute
The deep one end of third elastic structure is stated to abut.
Preferably, as an embodiment, the centre bore on the end cap includes in first be from top to bottom arranged
Heart hole and the second centre bore, the aperture of first centre bore are greater than the aperture of second centre bore.
The driving component further includes the 4th elastic structure, and the taper ejector rod further includes being located at below the conical surface portion
And the planar portions to connect with the conical surface portion, one end of the 4th elastic structure and the bottom hole of first centre bore are supported
It connects, the other end is abutted with the planar portions.
Preferably, as an embodiment, the taper ejector rod further includes positioning bar portion, the positioning bar portion connection
In the planar portions;4th elastic structure is spring, and the spring is set in the positioning bar portion.
Preferably, as an embodiment, the top of the through-hole is the cone that cross section is from top to bottom gradually reduced
Shape hole;The cone includes the hypocone for being connected to the lower section of the fixed part, is equipped on the conical surface of the hypocone several
The identical ball of size, the ball can be rolled along the bellmouth;Ball on the hypocone is abutted with the bellmouth
When, limiting section described in the groove face of the geosynclinal block.
Preferably, as an embodiment, the limiting section is the ring structure with the through-hole coaxial line.
Preferably, as an embodiment, the chuck further includes positioning ring, and the positioning ring is cyclic structure,
The positioning ring is located in the through-hole and is fixedly connected with the chuck body;Vertical limit is offered on the positioning ring
Hole, the bottom of the pull ring are provided with limited post, and the limited post is slidably matched with the limit hole.
Compared with the prior art, the advantages of the utility model are:
Chuck provided by the utility model, inner circle clamp assemblies and outer circle clamp assemblies are mountable to same chuck body
On, i.e., the same chuck body can install inner circle clamp assemblies and install outer circle clamp assemblies, and versatility is stronger.
Limiting section on pull ring can cooperate with the groove on clamp assemblies, when pull ring moves up and down under the effect of external force
Clamp assemblies can be pulled to move up and down with respect to chuck body, when the clamp assemblies connecting with pull ring are inner circle clamp assemblies, drawn
Ring pull inner circle clamp assemblies move down can Clamp blocks inner circle, part inner circle can be unclamped by moving up, realize to need
Clamp the clamping and release of the part of inner circle;When the clamping component connecting with pull ring is outer circle clamp assemblies, pull ring is pulled
Outer circle clamp assemblies move down can Clamp blocks outer circle, part outer circle can be unclamped by moving up, and be realized to needing to clamp
The clamping and release of the part of outer circle, i.e., chuck provided by the utility model can be realized chuck to the clamping function of part.
It, can be by outer circle in process when being the part for needing to clamp inner circle by needing to clamp the part exchanging of outer circle
Groove on clamp assemblies is detached from limiting section, and outer circle clamp assemblies are moved up with respect to pull ring, so that outer circle clamping group
Part is separated from pedestal, reserves installation space for inner circle clamp assemblies;In inner circle clamp assemblies are installed on pedestal and are made
Groove on circle clamp assemblies blocks limiting section, so that inner circle clamp assemblies can follow pull ring mobile.When will need to clamp
When the part exchanging of inner circle is the part for needing to clamp outer circle, the groove on inner circle clamp assemblies can be detached to limiting section, and will
Inner circle clamp assemblies are moved up with respect to pull ring, so that inner circle clamp assemblies are separated from pedestal, are stayed for outer circle clamp assemblies
Installation space out;Outer circle clamp assemblies are installed on pedestal and the groove on outer circle clamp assemblies is made to block limiting section, with
Outer circle clamp assemblies are enabled to follow pull ring mobile.
Therefore, the versatility of the chuck body of chuck provided by the utility model is stronger, will need to clamp in process
The part exchanging of outer circle is to need to clamp the part of inner circle, or by the part exchanging for needing to clamp inner circle is to need to clamp outer circle
When part, no replacement is required entire chuck only needs to change clamp assemblies.
Specific embodiment
The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described
Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally
Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical
Novel protected range.
It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular
Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only
For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific
Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " the
One ", " second ", " third " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified
Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally
Connection;It can be mechanical connection, be also possible to be electrically connected;Can be directly connected, can also indirectly connected through an intermediary,
It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition
The concrete meaning of language in the present invention.
The utility model is further described in detail below through specific implementation examples and in conjunction with the accompanying drawings.
Referring to Fig. 1-Fig. 7, a kind of chuck, including chuck body 1, pull ring 2 and clamp assemblies are present embodiments provided.
Wherein, perforative through-hole up and down is offered on the chuck body 1, the pull ring 2 is mounted in the through-hole, and institute
The top for stating pull ring 2 is provided with inwardly projecting limiting section 21, and the bottom of the clamp assemblies opens up fluted 5, the groove 5
The limiting section 21 can be blocked and moved up and down with the pull ring 2, the groove 5 can be detached from the limiting section 21 and phase
The pull ring 2 is moved up.
The clamp assemblies are inner circle clamp assemblies 4 or outer circle clamp assemblies 3, and the inner circle clamp assemblies 4 move down
Can Clamp blocks inner circle, part inner circle can be unclamped by moving up;The outer circle clamp assemblies 3, which move down, can clamp zero
Part outer circle, part outer circle can be unclamped by moving up.
Chuck provided in this embodiment, inner circle clamp assemblies 4 and outer circle clamp assemblies 3 are mountable to same chuck body
On 1, i.e., the same chuck body 1 can install inner circle clamp assemblies 4 and install outer circle clamp assemblies 3, and versatility is stronger.
Limiting section 21 on pull ring 2 can cooperate with the groove 5 on clamp assemblies, and pull ring 2 is in external force (generally lathe
42 active force of pull rod of angling cylinder) under the action of clamp assemblies can be pulled to move up and down with respect to chuck body 1 when moving up and down,
When the clamp assemblies connecting with pull ring 2 are inner circle clamp assemblies 4, pull ring 2 pulls inner circle clamp assemblies 4 to move down and can press from both sides
Tight part inner circle, part inner circle can be unclamped by moving up, and realize clamping and release to the part for needing to clamp inner circle;When with
When the clamping component that pull ring 2 connects is outer circle clamp assemblies 3, pull ring 2 pulls outer circle clamp assemblies 3 to move down and can clamp
Part outer circle, part outer circle can be unclamped by moving up, and realize clamping and release to the part for needing to clamp outer circle, i.e. this reality
Apply the clamping function that the chuck of example offer can be realized chuck to part.
It, can be by outer circle in process when being the part for needing to clamp inner circle by needing to clamp the part exchanging of outer circle
Groove 5 on clamp assemblies 3 is detached from limiting section 21, and outer circle clamp assemblies 3 are moved up with respect to pull ring 2, so that outer circle
Clamp assemblies 3 are separated from pedestal, reserve installation space for inner circle clamp assemblies 4;Inner circle clamp assemblies 4 are installed on pedestal
And the groove 5 on inner circle clamp assemblies 4 is made to block limiting section 21, so that inner circle clamp assemblies 4 can follow pull ring 2 to move
It is dynamic.It, can be by the groove on inner circle clamp assemblies 4 when being the part for needing to clamp outer circle by needing to clamp the part exchanging of inner circle
5 are detached from limiting section 21, and inner circle clamp assemblies 4 are moved up with respect to pull ring 2, so that inner circle clamp assemblies 4 are from pedestal
It separates, reserves installation space for outer circle clamp assemblies 3;Outer circle clamp assemblies 3 are installed on pedestal and make outer circle clamping group
Groove 5 on part 3 blocks limiting section 21, so that outer circle clamp assemblies 3 can follow pull ring 2 mobile.
Therefore, the versatility of the chuck body 1 of chuck provided in this embodiment is stronger, will need to clamp in process outer
Round part exchanging is to need to clamp the part of inner circle, or by the part exchanging for needing to clamp inner circle is need to clamp outer circle zero
When part, no replacement is required entire chuck only needs to change clamp assemblies.
Referring to figures 1-4, it is integrated that outer circle is provided in the specific structure of outer circle clamp assemblies 3 provided in this embodiment
Collet 31, it includes at least two first claws 311 and at least two first elasticity for surrounding circular ring shape which, which integrates collet 31,
Structural member 312 is connected with first elastic structure 312 between two the first claws 311 that are often connected.Outer circle is integrated
The inner sidewall of collet 31 is set as cylindric;Meanwhile pyramidal structure is set by the lateral wall that outer circle integrates collet 31, and will
The bellmouth that cross section is from top to bottom gradually reduced is set as at the top of through-hole on chuck body 1, so that outer circle integrates collet 31
Lateral wall can be slidably matched with bellmouth, the groove 5 on outer circle clamp assemblies 3 is provided with to the bottom of the first claw 311,
So that pull rod 42 will pull outer circle when moving under the effect of external force integrate the movement of collet 31.Part is placed on the integrated folder of outer circle
In the cylindric inner sidewall of set 31, pull rod 42 is constantly pulled down, the lateral wall that outer circle integrates collet 31 can be along the cone on chuck body 1
Shape hole constantly moves down, and outer circle integrate collet 31 lateral wall and the bellmouth on chuck body 1 cross section by upper and
Under be gradually reduced, and because the first elastic structure 312 can generate certain deformation, thus outer circle integrate collet 31 can be in bellmouth
It is slowly tightened under effect, thus, enable outer circle to integrate the outer circle that collet 31 tightly clamps part, part is consolidated in realization
It is fixed.
It should be noted that can expand or receive under the action of the first elastic structure 312 because outer circle integrates collet 31
Contracting, when needing for outer circle clamp assemblies 3 to be installed on chuck body 1, it is only necessary to which outer circle is integrated collet 31 on chuck body 1
Bellmouth slide and the limiting section 21 on pull ring 2 is caught on the first claw 311 groove 5 in outer circle collection can be realized
At the installation of collet 31;When needing to separate outer circle clamp assemblies 3 from chuck body 1, it is only necessary to which outer circle is integrated collet 31
It pulls up, so that groove 5 is detached from limiting section 21, outer circle easily can be integrated into collet 31 and be detached from chuck body 1, operating process letter
It is single, save time (when installing or removing outer circle clamp assemblies 3, can be by external tool, to save manpower).
Particularly, the first elastic structure 312 is settable using rubber material manufacture.
Further, the first pin hole can be opened up on the top of chuck body 1, and stop pin 11 is installed in the first pin hole;Together
When, vertical sliding slot 3111 is opened up on the lateral wall of the first claw 311, and make inner end and the sliding slot 3111 of stop pin 11
It is slidably matched, i.e., when the bellmouth on chuck body 1 moves up and down, the first pin hole can clamp outer circle clamp assemblies 3 to foreign round
The moving direction of component 3 is oriented to, and prevents outer circle clamp assemblies 3 from circumferentially rotating.
Referring to Fig. 5-Figure 11, in the specific structure of inner circle clamp assemblies 4 settable inner circle integrate expansion set 41, pull rod 42,
Connector 43, cone 44, driving assembly 45 and geosynclinal block 46, wherein the holding tank of installation geosynclinal block 46 is opened up in the bottom of pull rod 42,
Radial direction of the geosynclinal block 46 in holding tank along pull rod 42 is driven to move back and forth using driving assembly 45, and will be on inner circle clamp assemblies 4
Groove 5 be provided on the lateral wall of geosynclinal block 46, can will be entire when needing for inner circle clamp assemblies 4 to be installed on chuck body 1
Through-hole of the inner circle clamp assemblies 4 on chuck body 1 is from top to bottom inserted into, when geosynclinal block 46 reaches 5 face pull ring of groove thereon
When the position of the limiting section 21 on 2, geosynclinal block 46 is driven to yearn in holding tank along the diameter of pull rod 42 using driving assembly 45 close
The direction of limiting section 21 is mobile, and until the groove 5 on geosynclinal block 46 blocks limiting section 21, inner circle clamp assemblies 4 can be realized
Installation;When needing to disassemble inner circle clamp assemblies 4 from chuck body 1, geosynclinal block 46 can be driven first with driving assembly 45
Yearn for the direction far from limiting section 21 along the diameter of pull rod 42 in holding tank to move, until the groove 5 on geosynclinal block 46 is detached from limit
Then portion 21 from bottom to top pulls out through-hole of the entire inner circle clamp assemblies 4 on chuck body 1, inner circle clamping can be realized
The disassembly of component 4, installation and removal process it is simple, save the time (when installing or removing inner circle clamp assemblies 4, can be by outer
Portion's tool, to save manpower).
Referring to Fig. 8 and Fig. 9, cone 44 includes fixed part 441 and the upper tapering 442 being connected to above fixed part 441,
Integrating in inner circle includes at least two second claws 411 and at least two second elastic constructions for surrounding circular ring shape in expansion set 41
Part 412, affixed second elastic structure 412, integrates expansion set 41 for inner circle between the second claw of each adjacent two 411
Lateral wall be set as cylindric, inner sidewall is set as the taper that from top to bottom cross section is gradually increased, so that inner circle is integrated
Expansion set 41 can be set on tapering 442 and be set as being slidably matched by the two;Pull rod 42 is passed through into connector 43 and inner circle
Integrated expansion set 41 connects, so that being able to drive inner circle when pull rod 42 moves up and down under the action of pull ring 2 and integrating expansion set 41
Opposite cone 44 moves up and down;Part with interior circular hole is covered and is integrated on expansion set 41 in inner circle, pull rod 42, inner circle collection are pulled down
It can constantly be moved down along upper cone 44 at the inner sidewall of expansion set 41, and inner circle integrates the inner sidewall and upper cone 44 of expansion set 41
Cross section is from top to bottom gradually increased, and because the first elastic structure 312 can generate certain deformation, therefore inner circle integrates expansion set 41
Can under the action of upper cone 44 slowly distending, thus, enable inner circle to integrate the inner circle of 41 stretching part of expansion set, realize
Fixation to part.
Particularly, rubber material manufacture can be used in the second elastic structure 412.
Preferably, referring to Figure 10 and Figure 11, geosynclinal block 46 and holding tank can be disposed as multiple, and makes geosynclinal block 46 and hold
Slot of receiving corresponds, and opens up the central channel being connected to multiple holding tanks at the bottom centre position of pull rod 42, and by multiple slots
Block 46 surrounds cylindrical hole at central channel, opens up arc groove 461 in the inside of geosynclinal block 46, and multiple arcs slot 461 is surrounded cross
The bellmouth that section is from top to bottom gradually reduced, it is clear that bellmouth is really to connect with cylindrical hole.
Referring to Fig. 7, taper ejector rod 451 and screw 452 are set in the specific structure of driving assembly 45, wherein taper top
Bar 451 includes the conical surface portion that the tapered surface surrounded with multiple arcs slot 461 is slidably matched;In the inner wall of the centre bore 48 of pull rod 42
Upper setting screw thread so that screw 452 can pass through cone 44 on centre bore 48 and the centre bore 48 of pull rod 42 be threadedly engaged,
The bottom end of screw 452 is abutted with the top of taper ejector rod 451.When needing that inner circle clamp assemblies 4 are installed on chuck body 1
When, screw 452 is turned downwards, pushes taper ejector rod 451 to move down along tapered surface using screw 452, because of taper ejector rod 451
It is from top to bottom gradually reduced with the cross section of tapered surface, therefore geosynclinal block 46 can be under the impetus of taper ejector rod 451 radially
It is mobile (i.e. close to the direction of limiting section 21) outward, so that the groove 5 on geosynclinal block 46 can block the limit on pull ring 2
Portion 21, that is to say, that inner circle clamp assemblies 4 are installed to the process on chuck body 1 only need to be by inner circle clamp assemblies 4 along chuck
Through-hole on body 1 is from top to bottom put into chuck body 1, and turns screw 452 afterwards in place and the groove 5 on geosynclinal block 46 is blocked
Limiting section 21, it is very convenient, it is time saving and energy saving.
Specifically, offering the strip groove 462 being laterally arranged in the bottom of each geosynclinal block 46, and in item referring to Figure 11
Third elastic structure 453 is placed in shape slot 462, the second pin hole is opened up on end cap 47, and positioning is installed in the second pin hole
The top of positioning pin 471 extend into strip groove 462 and enables positioning pin 471 and third elastic structure by pin 471
453 deep one end abut, that is to say, that positioning pin 471 can to third elastic structure 453 1 towards center (i.e.
Far from limiting section 21 direction) pressure;When needing to disassemble inner circle clamp assemblies 4 from chuck body 1, by screw
452 upwards screw out, geosynclinal block 46 by the elastic force from third elastic structure 453 can moving radially towards center along pull rod 42,
And push taper ejector rod 451 that screw 452 is followed to move up reset, until the groove 5 on geosynclinal block 46 is detached from the limit on pull ring 2
Position portion 21, inner circle clamp assemblies 4 are blocked out of through-hole on chuck body 1 can be disassembled out, that is to say, that press from both sides inner circle
The process that component 4 is disassembled from chuck body 1 is held, screw 452 need to be only turned and the groove 5 on geosynclinal block 46 is made to be detached from limit
Portion 21, and inner circle clamp assemblies 4 are pulled out out of chuck body 1 through-hole, it is very convenient, it is time saving and energy saving.
Particularly, third elastic structure 453 may be configured as spring.
Preferably, the centre bore 48 on end cap 47 includes the first centre bore and the second centre bore being from top to bottom arranged, the
The aperture of one centre bore is greater than the aperture of the second centre bore, i.e., can have a ring-shaped step in the bottom hole of the first centre bore.?
The 4th elastic structure 454 is additionally provided in the specific structure of driving assembly 45, taper ejector rod 451 further includes being located under conical surface portion
The planar portions that Fang Bingyu conical surface portion connects, by bottom hole (the i.e. annular table of one end of the 4th elastic structure 454 and the first centre bore
Rank) it abuts, the other end is abutted with the planar portions of taper ejector rod 451, i.e. the 4th elastic structure 454 can be to taper ejector rod 451 1
A upward thrust, so that taper ejector rod 451 can be in the effect of the 4th elastic structure 454 when screw 452 up screws out
Lower smoothly to reset, preventing third elastic component active force not enough causes greatly 451 reseting procedure of taper ejector rod the case where clamping stagnation occur.
Further, positioning bar portion can be connected with below the planar portions of taper ejector rod 451, and by the 4th elastic structure
454 are set as spring, and spring is set in locating rod portion, to reduce the shape that transversely deforming occurs for the 4th elastic structure 454
Variable guarantees the normal effect of the 4th elastic structure 454.
Referring to Fig. 9, in the specific structure of chuck body 1, the top of through-hole is the bellmouth being from top to bottom gradually reduced, therefore
The hypocone 443 being connected to below fixed part 441 can be set in cone 44, and installed on the conical surface of hypocone 443 several
Ball 444 and bellmouth are rolled and are cooperated by the identical ball 444 of size, when needing inner circle clamp assemblies 4 along chuck body 1
When through-hole moves down, without accurately judging the position of inner circle clamp assemblies 4, as long as it is able to enter through-hole, ball 444
It can be rolled on the hole wall of bellmouth, until the ball 444 on hypocone 443 abuts nothing with the bellmouth on chuck body 1 completely
When method moves down, the 5 face limiting section 21 of groove of geosynclinal block 46, at this moment, inner circle clamp assemblies 4 can be supported by chuck body 1, work
Make personnel without lifting inner circle clamp assemblies 4, screw 452 need to only be turned downwards, it is easy to operate.
Specifically, can be hexagon socket head cap screw 452 without a head by screw 452, hexagon socket head cap screw 452 without a head in this way can all sink
Enter in centre bore 48, will not be leaked when screwing out outside, it is miscellaneous to prevent in the top installed plug 49 of the centre bore 48 of cone 44
Object enters centre bore 48, keeps the cleaning in centre bore 48.
Preferably, the ring structure with through-hole coaxial line can be set by the limiting section 21 on pull ring 2, does not have to thus examine
The position of groove 5 in the axial direction is considered, so that clamp assemblies are easier for installation.
Preferably, cricoid positioning ring 6 can be fixedly installed in the through-hole of chuck body 1, opened up on positioning ring 6 vertical
Limit hole is arranged limited post in the bottom of pull ring 2, limited post and limit hole is slidably matched, to prevent pull ring 2 from sending out in through-hole
Raw axial rotation, and then prevent part from rotating.
In conclusion the utility model embodiment discloses a kind of chuck, which overcome many technologies of traditional chuck
Defect.Chuck provided by the embodiment of the utility model, versatility is stronger, will need to clamp the part of outer circle more in process
It is changed to the part for needing to clamp inner circle, or when being the part for needing to clamp outer circle by needing to clamp the part exchanging of inner circle, is not necessarily to
Entire chuck is replaced, clamp assemblies are only needed to change.
Finally, it should be noted that the above various embodiments is only to illustrate the technical solution of the utility model, rather than it is limited
System;Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should
Understand: it is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of
Technical characteristic is equivalently replaced;And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new
The range of each embodiment technical solution of type.
In addition, it will be appreciated by those of skill in the art that although some embodiments described herein include other embodiments
In included certain features rather than other feature, but the combination of the feature of different embodiments mean it is practical new in this
Within the scope of type and form different embodiments.For example, in claims above, embodiment claimed
It is one of any can in any combination mode come using.The information disclosed in the background technology section is intended only to deepen
Understanding to the general background technology of the utility model, and be not construed as recognizing or implying in any form that the information is constituted
The prior art known to those skilled in the art.In addition, it will be appreciated by those of skill in the art that although described herein
Some embodiments include certain features included in other embodiments rather than other feature, but the spy of different embodiments
The combination of sign means within the scope of the utility model and forms different embodiments.For example, in right above
In claim, embodiment claimed it is one of any can in any combination mode come using.It is disclosed in the back
The information of scape technology segment is merely intended to deepen the understanding to the general background technology of the utility model, and is not construed as holding
Recognize or implies that the information constitutes the prior art known to those skilled in the art in any form.