CN104564969A - Rotary lock structure with grooves, rotary lock assembly and packaging structure - Google Patents

Abstract

The invention relates to a rotary lock structure with grooves. The rotary lock structure comprises a head portion, a rod portion and a fastener portion sequentially from top to bottom, wherein the fastener portion with a first groove and a second groove is connected to the rod portion which is connected to the head portion. The first groove is concavely formed in the lateral side of the fastener portion and upwardly extends by a certain distance from the bottom of the fastener portion. The second groove is concavely formed in the lateral side of the fastener portion and extends rightwards or leftwards by a certain distance from the top end of the first groove, and the first groove and the second groove are communicated with each other. Therefore, two articles can be quickly fastened by a user without damaging structural strength of the articles, and the rotary lock structure with the grooves can be applied to thin articles.

Description

The fluted rotary lock structure of tool, revolve lock assembly and packing structure

Technical field

The present invention relates to a kind of rotary lock structure, particularly relate to the fluted rotary lock structure of a kind of tool, can allow user's Quick fastening two objects, and can be applied on thinner object.

Background technique

The existing fixing-assembly for fixing two objects, the mode of usual employing plastics snap-on part is reached, this fixing-assembly at least comprises a snap-on body, user can impose external force with instrument to this snap-on body, and then make this snap-on body fix these objects, thus complete the composite structure of connection two objects.

From the above, user must impose external force with instrument to this snap-on body, if it is improper to exert a force, easily causes the corrupted of this snap-on body.

In addition, the structure of this snap-on body is usually very fragile, therefore when user carries out the making of snap-on body, has making problem not easily.

Moreover in order to allow this snap-on body be buckled in these objects, these objects are necessary for has certain thickness object, and therefore this snap-on body cannot be applied on thinner object by user.

Therefore, how to create a kind of rotary lock structure, its structure not easily corrupted, the structural strength that need not destroy object just can allow user's Quick fastening two objects, and can be applied on thinner object, will be the present invention institute for positive openly part.

Summary of the invention

For solving the problem, main purpose of the present invention is to provide a kind of rotary lock structure, and its structural strength need not destroying object just can allow user's Quick fastening two objects, and can be applied on thinner object.

For reaching above-mentioned purpose and other object, the invention provides the fluted rotary lock structure of a kind of tool, from top to bottom sequentially comprising a head; One bar portion, is connected to this head; And a clamping part, be connected to this bar portion.

This clamping part has one first groove, recessed in the side of this clamping part, and upwards extends a segment distance from the bottom of this clamping part; And one second groove, recessed in the side of this clamping part, and extend a segment distance to the right or left from the top of this first groove, and this first groove is connected with this second groove.

In above-mentioned rotary lock structure, the bottom of this first groove is communicated with the bottom surface of this clamping part.

In above-mentioned rotary lock structure, the bottom surface of this first groove and this clamping part has one first angle, and this first angle is 60 ° to 120 °.

In above-mentioned rotary lock structure, this second groove extends a segment distance to the right or left from the upper horizontal of this first groove.

In above-mentioned rotary lock structure, the width of this first groove is greater than the width of this second groove.

In above-mentioned rotary lock structure, the degree of depth of this first groove is greater than the degree of depth of this second groove.

In above-mentioned rotary lock structure, this bar portion is microscler cylinder.

In above-mentioned rotary lock structure, this bar portion is provided with one first limited part; And this rotary lock structure also comprises a sleeve, there is one second limited part, be arranged at the madial wall of this sleeve; And a group connecting part, be arranged at this sleeve; Wherein, this first limited part and this second limited part are mutually movable interferes, and combines to make this sleeve and can not be separated with this bar portion activity.

In above-mentioned rotary lock structure, this sleeve also has a hollow stop member, is arranged in this sleeve, and is positioned at the below of this second limited part, and this hollow stop member and the mutual activity of this second limited part are interfered, combine to make this sleeve and the activity of this bar portion and can not be separated.

In above-mentioned rotary lock structure, this head is equipped with a cap body, and the bottom inside this cap body has one first limited part; And this rotary lock structure also comprises a sleeve, there is one second limited part, be arranged at the outer side wall of this sleeve; And a group connecting part, be arranged at this sleeve; Wherein, this first limited part and this second limited part are mutually movable interferes, and combines to make this sleeve and can not be separated with this cap body activity.

In above-mentioned rotary lock structure, this sleeve is provided with a clamping part; And this rotary lock structure also comprises an elastic component, its two ends are resisted against bottom and this clamping part of this head respectively.Wherein, this elastic component is spring, compression spring, resilient pad or elastic cylinder.

In above-mentioned rotary lock structure, this first groove protrudes from this second groove.

In above-mentioned rotary lock structure, this clamping part also has one the 3rd groove, recessed in the side of this clamping part, and extends a segment distance from the upside of this second groove or downside, and this second groove is connected with the 3rd groove.

In above-mentioned rotary lock structure, this clamping part also has a projection, is positioned at this second groove.

In above-mentioned rotary lock structure, this clamping part also has one the 3rd groove, recessed in the side of this clamping part, and from this second groove horizontal-extending one segment distance, this second groove is connected with the 3rd groove.

In above-mentioned rotary lock structure, this second groove is mutually vertical with the 3rd groove.

In above-mentioned rotary lock structure, this second groove oliquely downward extends a segment distance from the top of this first groove.Wherein, this first groove and this second groove have one second angle, and this second angle is 3 ° to 87 °.

In above-mentioned rotary lock structure, this second groove extends a segment distance obliquely upward from the top of this first groove.Wherein, this first groove and this second groove have one second angle, and this second angle is 93 ° to 150 °.

In above-mentioned rotary lock structure, this clamping part also has one the 4th groove, recessed in the side of this clamping part, and extends a segment distance to the right or left from the 3rd groove, and the 3rd groove is connected with the 4th groove.

In above-mentioned rotary lock structure, this clamping part also has one the 5th groove, recessed in the side of this clamping part, and extends a segment distance up or down from the 4th groove, and the 4th groove is connected with the 5th groove.

In addition, another object of the present invention is to provide one to revolve lock assembly, it can be applied on the pertusate object of tool, does not need additionally to carry out special drill.

For reaching above-mentioned purpose and other object, the invention provides one and revolving lock assembly, it comprises above-mentioned rotary lock structure and an interfacing part structure, and this interfacing part structure comprises a sleeve body; And an object group connecting part, be arranged at the bottom outside this sleeve body.

This sleeve body has a containing groove, recessed in this sleeve body, and the opening of this containing groove is positioned at the top of this sleeve body, and this opening is to should the clamping part of rotary lock structure; One buckle projection, is convexly equipped in the side of this containing groove, and this buckle projection is to should first groove of clamping part of rotary lock structure and the second groove; And an object group connecting part, be arranged at this sleeve body.

Moreover another object of the present invention is to provide a kind of packing structure, and it can pack above-mentioned rotary lock structure.

For reaching above-mentioned purpose and other object, the invention provides a kind of packing structure, it is for packing at least one above-mentioned rotary lock structure, and this packing structure comprises at least one spacing accommodating body, it has a spacing containing space, and this rotary lock structure is arranged in this spacing containing space.

In sum, rotary lock structure of the present invention is by above-mentioned design, and the structural strength need not destroying object just can allow user's Quick fastening two objects, and can be applied on thinner object.

Accompanying drawing explanation

Fig. 1 is the stereogram of the first specific embodiment of rotary lock structure of the present invention.

Fig. 2 is the first specific embodiment of rotary lock structure of the present invention and the exploded view of two objects.

Fig. 3 and Fig. 4 is the first specific embodiment of rotary lock structure of the present invention and the anabolic process schematic diagram of two objects.

Fig. 5 is the second specific embodiment of rotary lock structure of the present invention and the schematic diagram of two objects.

Fig. 6 is the 3rd specific embodiment of rotary lock structure of the present invention and the constitutional diagram of two objects.

Fig. 7 is the schematic diagram of the 4th specific embodiment of rotary lock structure of the present invention.

Fig. 8 is the schematic diagram of the 5th specific embodiment of rotary lock structure of the present invention.

Fig. 9 is the schematic diagram of the 6th specific embodiment of rotary lock structure of the present invention.

Figure 10 is the schematic diagram of the 7th specific embodiment of rotary lock structure of the present invention.

Figure 11 is the schematic diagram of the 8th specific embodiment of rotary lock structure of the present invention.

Figure 12 is the stereogram that the sleeve body of lock assembly is revolved in the present invention.

Figure 13 is the exploded view that lock assembly and two objects are revolved in the present invention.

Figure 14 is the schematic diagram that packing structure of the present invention packaging has rotary lock structure.

[primary clustering symbol description]

10 first objects

20 second objects

21 projections

1001-1008 rotary lock structure

1100 heads

1110 cap bodies

1111 first limited parts

1200 bar portions

1210 first limited parts

1300 clamping parts

1310 first grooves

1320 second grooves

1330 the 3rd grooves

1340 projections

1350 the 4th grooves

1360 the 5th grooves

1400 sleeves

1410 second limited parts

1420 group connecting parts

1430 hollow stop members

1440 clamping parts

1500 elastic components

2000 interfacing part structures

2100 sleeve body

2110 containing grooves

2120 buckle projections

2200 object group connecting parts

3000 packing structures

3100 spacing accommodating bodies

3110 spacing containing spaces

W1 width

W2 width

θ 1 first angle

θ 2 second angle

Embodiment

For fully understanding object of the present invention, feature and effect, existing by following specific embodiment, and coordinate accompanying drawing, the present invention is described in detail, illustrates as rear:

Please refer to Fig. 1, it is the first specific embodiment of the fluted rotary lock structure 1001 of tool of the present invention.This rotary lock structure 1001 from top to bottom sequentially comprises head 1100, bar portion 1200 and a clamping part 1300, and this bar portion 1200 is connected to the bottom surface of this head 1100, and this clamping part 1300 is connected to the bottom surface in this bar portion 1200.

This clamping part 1300 has one first groove 1310 and one second groove 1320; This first groove 1310 is recessed in the side of this clamping part 1300, and upwards extends a segment distance from the bottom of this clamping part 1300, and the bottom of this first groove 1310 is communicated with the bottom surface of this clamping part 1300; This second groove 1320 is recessed in the side of this clamping part 1300, and extends a segment distance to the right or left from the top of this first groove 1310, and this first groove 1310 is connected with this second groove 1320.

Then, please refer to Fig. 2 to Fig. 4, it is the first specific embodiment of rotary lock structure 1001 of the present invention and the anabolic process schematic diagram of two objects (i.e. one first object 10 and one second object 20).

First, as shown in Figure 2 and Figure 3, after this rotary lock structure 1001 is first passed a hole of this first object 10 by user, then through a hole of this second object 20; Wherein, a projection 21 at the edge in the hole of this second object 20 is to should first groove 1310 of clamping part 1300 of rotary lock structure 1001.

Then, as shown in Figure 4, after the projection 21 of this second object 20 to be moved upward to this first groove 1310 and the junction point of this second groove 1320 by user from the bottom of the first groove 1310 of this clamping part 1300, rotate this rotary lock structure 1001, thus make the projection 21 of this second object 20 laterally move to the second groove 1320 of this clamping part 1300.Action whereby, makes this second object 20 of clamping part 1300 energy buckle of this rotary lock structure 1001, and is fixed by this first object 10 simultaneously.

Address accompanying drawing from above, the structure of this rotary lock structure 1001 is simple, therefore user can easily pass this rotary lock structure 1001 is fixed with this second object 20 by this first object 10 very much; In addition, because the structure of this rotary lock structure 1001 is simple, be just fixed with this second object 20 by this first object 10 by this rotary lock structure 1001, therefore this first object 10 can not be destroyed with the structural strength of this second object 20; Moreover this second object 20 can be very thin plate body, therefore should be appreciated that, this rotary lock structure 1001 can be applicable on thinner object.

Then, please referring again to Fig. 4, this first groove 1310 has one first angle theta 1 with the bottom surface of this clamping part 1300, and this first angle theta 1 is 60 ° to 120 °, and this first angle theta 1 is preferably 90 °; In addition, the width W 1 of this first groove 1310 is greater than the width W 2 of this second groove 1320, and the projection 21 in order to this second object 20 moves; Moreover the degree of depth of this first groove 1310 is greater than the degree of depth of this second groove 1320, the projection 21 in order to this second object 20 moves.

In addition, as shown in Figures 1 to 4, this second groove 1320 extends a segment distance to the right from the top of this first groove 1310, but is not limited thereto, and this second groove 1320 also can extend left a segment distance from the top of this first groove 1310; Moreover this second groove 1320 can be horizontal-extending, also can be slightly to upper or dip down and tiltedly extend; Moreover this second groove 1320 also can extend a segment distance from the side of this first groove 1310, thus this first groove 1310 is made to protrude from this second groove 1320.

Moreover although figure does not show, this bar portion 1200 can be microscler cylinder, in order to user by the hole of this bar portion 1200 through this first object 10.

Moreover although figure does not show, this clamping part 1300 also has a projection (not shown), is convexly equipped in this second groove 1320.By the design of this projection, can prevent the projection 21 of the second object 20 being positioned at this second groove 1320 from skidding off this first groove 1310.

Moreover, when this second object 20 is for having flexible material, the bottom of this first groove 1310 does not need the bottom surface being communicated with this clamping part 1300, and user only needs to impose larger strength at this rotary lock structure 1001, just the projection 21 of this second object 20 can be snapped in this first groove 1310.

Then, please refer to Fig. 5, it is the second specific embodiment of rotary lock structure 1002 of the present invention and the schematic diagram of two objects.The design of this rotary lock structure 1002 is identical with the design of this rotary lock structure 1001 haply, and wherein, this bar portion 1200 is provided with one first limited part 1210, and near this clamping part 1300, and this first limited part 1210 can be protuberance or recess; And this rotary lock structure 1002 also comprises a sleeve 1400.This sleeve 1400 has one second limited part 1410, is arranged at the madial wall of this sleeve 1400, is preferably the top near this sleeve 1400, or near the neutral position of this sleeve 1400; And a group connecting part 1420, be arranged at the bottom of this sleeve 1400, connect this first object 10 for group; Wherein, this first limited part 1210 and this second limited part 1410 are mutually movable interferes, and combines to make this sleeve 1400 and can not be separated with this bar portion 1200 activity.Design whereby, this sleeve 1400 can protect this bar portion 1200 and this clamping part 1300.In addition, although figure does not show, this rotary lock structure 1002 also comprises an elastic component (not shown), and its two ends are resisted against the bottom of this head 1100 and the top of this sleeve 1400 respectively, has made this sleeve 1400 this clamping part 1300 relative carry out knee springing.

Then, please refer to Fig. 6, it is the 3rd specific embodiment of rotary lock structure 1003 of the present invention and the combination schematic diagram of two objects.The design of this rotary lock structure 1003 is identical with the design of this rotary lock structure 1002 haply, wherein, this sleeve 1400 also has a hollow stop member 1430, be arranged in this sleeve 1400, and be positioned at the below of this second limited part 1410, and this hollow stop member 1430 is interfered with the mutual activity of this second limited part 1410, combine to make this sleeve 1400 and the activity of this bar portion 1200 and can not be separated.

In addition, should be appreciated that, by the design of the sleeve 1400 of this rotary lock structure 1002 or this rotary lock structure 1003, laminar first object 10 and the second object 20 of user's buckle can be allowed.

Then, please refer to Fig. 7, it is the schematic diagram of the 4th specific embodiment of rotary lock structure 1004 of the present invention.The design of this rotary lock structure 1004 is identical with the design of this rotary lock structure 1001 haply, and wherein, this head 1100 is equipped with a cap body 1110, and the bottom inside this cap body 1110 has one first limited part 1111; And this rotary lock structure 1004 also comprises sleeve 1400 and an elastic component 1500.In addition, this head 1100 also can be formed in one with this cap body 1110.

This sleeve 1400 has one second limited part 1410, is arranged at the outer side wall of this sleeve 1400, is preferably the top near this sleeve 1400; One group connecting part 1420, is arranged at the bottom of this sleeve 1400; And a clamping part 1440, be arranged at the madial wall of this sleeve 1400, and between this second limited part 1410 and this group connecting part 1420, but be not limited thereto, also can be arranged at the known position of other person of an ordinary skill in the technical field; Wherein, this first limited part 1111 and this second limited part 1410 are mutually movable interferes, and combines to make this sleeve 1400 and can not be separated with this cap body 1110 activity.

The two ends of this elastic component 1500 are resisted against bottom and this clamping part 1440 of this head 1100 respectively, carry out knee springing to make this sleeve 1400 this cap body 1110 relative.Wherein, this elastic component 1500 is spring, compression spring, resilient pad or elastic cylinder.In addition, should be appreciated that, user also can save this clamping part 1440 and this elastic component 1500.

Then, please refer to Fig. 8, it is the schematic diagram of the 5th specific embodiment of rotary lock structure 1005 of the present invention.The design of this rotary lock structure 1005 is identical with the design of this rotary lock structure 1001 haply, wherein, this clamping part 1300 also has one the 3rd groove 1330, recessed in the side of this clamping part 1300, and extend a segment distance from the downside of this second groove 1320, this second groove 1320 is connected with the 3rd groove 1330, and this second groove 1320 and the 3rd groove 1330 are preferably mutually vertical, but are not limited thereto; And a projection 1340, be convexly equipped in this second groove 1320, and between this first groove 1310 and the 3rd groove 1330.By the design of the 3rd groove 1330, the projection (not shown) of this second object (not shown) can be allowed to move to wherein, thus make this rotary lock structure 1005 firmly fix this first object (not shown) and this second object; In addition, by the design of this projection 1340, can prevent the projection of the second object being positioned at the 3rd groove 1330 from skidding off this first groove 1310.

In addition, this first groove 1310 protrudes from this second groove 1320, and this first groove 1310 is mutually vertical with the bottom surface of this clamping part 1300; Moreover should be appreciated that, although figure does not show, the 3rd groove also can extend a segment distance from the upside of this second groove; Moreover, although figure does not show, should be appreciated that the 3rd groove 1330 can extend from the arbitrary of this second groove 1320 toward upside and downside simultaneously, the end of such as this second groove 1320 or middle.

Then, please refer to Fig. 9, it is the schematic diagram of the 6th specific embodiment of rotary lock structure 1006 of the present invention.The design of this rotary lock structure 1006 is identical with the design of this rotary lock structure 1001 haply, wherein, this clamping part 1300 also has one the 3rd groove 1330, recessed in the side of this clamping part 1300, and extending a segment distance from the end of this second groove 1320, this second groove 1320 is connected with the 3rd groove 1330.

More specifically, this second groove 1320 oliquely downward extends a segment distance from the top of this first groove 1310, and the 3rd groove 1330 extends a segment distance from the terminal horizontal of this second groove 1320, but be not limited thereto, the 3rd groove 1330 also can from side horizontal-extending one segment distance of this second groove 1320.Wherein, this first groove 1310 has one second angle theta 2 with this second ditch 1320 groove, and this second angle theta 2 is 3 ° to 87 °.By above-mentioned design, the projection (not shown) of the second object (not shown) having moved to the 3rd groove 1330 can be avoided to skid off this first groove 1310.

In addition, should be appreciated that, although figure does not show, this second groove 1320 also can extend a segment distance from the top of this first groove 1310 obliquely upward, and this second angle theta 2 is 93 ° to 150 °.Design whereby, more closely sealed by this first object (not shown) and this second object (not shown) buckle of this rotary lock structure 1006 can be made.

Then, please refer to Figure 10, it is the schematic diagram of the 7th specific embodiment of rotary lock structure 1007 of the present invention.The design of this rotary lock structure 1007 is identical with the design of this rotary lock structure 1006 haply, wherein, 3rd groove 1330 is from the end of this second groove 1320 to downward-extension one segment distance, and this clamping part 1300 also has one the 4th groove 1350, recessed in the side of this clamping part 1300, and extending a segment distance to the right from the end of the 3rd groove 1330, the 3rd groove 1330 is connected with the 4th groove 1350.Although figure does not show, the 4th groove 1350 also can extend left a segment distance from the end of the 3rd groove 1330; Or the 4th groove 1350 also can extend a segment distance from the side of the 3rd groove 1330 to the left or to the right.Design whereby, more can effectively avoid the projection (not shown) of the second object (not shown) moving to the 4th groove 1350 to skid off this first groove 1310.

More specifically, as shown in Figure 10, this second groove 1320 is from the top horizontal-extending of this first groove 1310, and the 3rd groove 1330 oliquely downward extends from the end of this second groove 1320, and the 4th groove 1350 extends from the terminal horizontal of the 3rd groove 1330.

Then, please refer to Figure 11, it is the schematic diagram of the 8th specific embodiment of rotary lock structure 1008 of the present invention.The design of this rotary lock structure 1008 is identical with the design of this rotary lock structure 1007 haply, wherein, this clamping part 1300 also has one the 5th groove 1360, recessed in the side of this clamping part 1300, and upwards extending a segment distance from the end of the 4th groove 1350, the 4th groove 1350 is connected with the 5th groove 1360.Although figure does not show, should be appreciated that, the 5th groove 1360 also can from the end of the 4th groove 1350 to downward-extension one segment distance; Or the 5th groove 1360 also can extend a segment distance from the side of the 4th groove 1350 up or down.By this design, the projection (not shown) of the second object (not shown) moving to the 5th groove 1360 more can be effectively avoided to skid off this first groove 1310.

Then, please refer to Figure 12 and Figure 13, if on the hole of this second object 20 not to should the projection of clamping part 1300 of rotary lock structure 1001 time, one interfacing part structure 2000 can be connected to this second object 20 by user, be combined with each other with this interfacing part structure 2000 to make this rotary lock structure 1001, this rotary lock structure 1001 is combined into one with this interfacing part structure 2000 and revolves lock assembly, thus this first object 10 of buckle and this second object 20.

In addition this interfacing part structure 2000, although figure does not show, should be appreciated that, if when this second object 20 does not have a hole, also can directly be fixed on this second object 20 by user, and this interfacing part structure 2000 also can be a lamellar body.Design whereby, user only need hole to this first object 10, is just fixed with this second object 20 by this first object 10 by this rotary lock structure 1001.

As shown in figure 12, this interfacing part structure 2000 comprises a sleeve body 2100 and the object group connecting part 2200 being arranged at the bottom outside this sleeve body 2100, this sleeve body 2100 has a containing groove 2110, recessed in this sleeve body 2100, the opening of this containing groove 2110 is positioned at the top of this sleeve body 2100, and this opening is to should the clamping part 1300 of rotary lock structure 1001; And a buckle projection 2120, be convexly equipped in the side of this containing groove 2110, near this opening or other position, and this buckle projection 2120 is to should first groove 1310 and second groove 1320 of clamping part 1300 of rotary lock structure 1001.Wherein, this interfacing part structure 2000 is connected to this second object 20 by this object group connecting part 2200.More specifically, this object group connecting part 2200 be rivet, weld, interlocking, expansion connect, the mode of gluing or magnetic absorption is connected to this second object 20.

Although figure does not show, should be appreciated that, this containing groove 2110 is for the clamping part 1300 of this rotary lock structure 1001 accommodating.

Finally, please refer to Figure 14, it is a kind of packing structure 3000, and this packing structure 3000 for packing at least one above-mentioned rotary lock structure 1002, but is not limited thereto, and also can pack this rotary lock structure 1001,1003,1004.

This packing structure 3000 comprises at least one spacing accommodating body 3100, and it has a spacing containing space 3110, and this rotary lock structure 1002 is arranged in this spacing containing space 3110.Design whereby, person easy to use receives this rotary lock structure 1002.

In sum, rotary lock structure of the present invention is by above-mentioned design, and the structural strength need not destroying object just can allow user's Quick fastening two objects, and can be applied on thinner object; In addition, the structure of this rotary lock structure simply and not easily corrupted.

The present invention is open with preferred embodiment hereinbefore, but those skilled in the art will appreciate that this embodiment only for describing the present invention, and should not be read as and limit the scope of the invention.It should be noted, such as with change and the displacement of this embodiment's equivalence, all should be set to and be covered by category of the present invention.Therefore, protection scope of the present invention is when being as the criterion with the claim person of defining.

Claims (26)

1. the fluted rotary lock structure of tool, is characterized in that, from top to bottom sequentially comprise:

One head;

One bar portion, is connected to this head; And

One clamping part, be connected to this bar portion, and this clamping part has:

One first groove, recessed in the side of this clamping part, and upwards extend a segment distance from the bottom of this clamping part; And

One second groove, recessed in the side of this clamping part, and extend a segment distance to the right or left from this first groove, this first groove is connected with this second groove.

2. rotary lock structure as claimed in claim 1, it is characterized in that, the bottom of this first groove is communicated with the bottom surface of this clamping part.

3. rotary lock structure as claimed in claim 1, it is characterized in that, the bottom surface of this first groove and this clamping part has one first angle, and this first angle is 60 ° to 120 °.

4. rotary lock structure as claimed in claim 2, it is characterized in that, the bottom surface of this first groove and this clamping part has one first angle, and this first angle is 60 ° to 120 °.

5. the rotary lock structure according to any one of Claims 1-4, is characterized in that, this second groove extends a segment distance to the right or left from this first groove level.

6. rotary lock structure as claimed in claim 1, it is characterized in that, the width of this first groove is greater than the width of this second groove.

7. rotary lock structure as claimed in claim 1, it is characterized in that, the degree of depth of this first groove is greater than the degree of depth of this second groove.

8. rotary lock structure as claimed in claim 1, it is characterized in that, this bar portion is microscler cylinder.

9. rotary lock structure as claimed in claim 1, it is characterized in that, this bar portion is provided with one first limited part; And this rotary lock structure also comprises a sleeve, has:

One second limited part, is arranged at the madial wall of this sleeve; And

One group connecting part, is arranged at this sleeve; Wherein,

This first limited part and this second limited part are mutually movable interferes, and combines to make this sleeve and can not be separated with this bar portion activity.

10. rotary lock structure as claimed in claim 9, it is characterized in that, this sleeve also has a hollow stop member, be arranged in this sleeve, and be positioned at the below of this second limited part, and this hollow stop member and the mutual activity of this second limited part are interfered, combine to make this sleeve and the activity of this bar portion and can not be separated.

11. rotary lock structures as claimed in claim 1, it is characterized in that, this head is equipped with a cap body, and this cap body has one first limited part; And this rotary lock structure also comprises a sleeve, has:

One second limited part, is arranged at the outer side wall of this sleeve; And

One group connecting part, is arranged at this sleeve; Wherein,

This first limited part and this second limited part are mutually movable interferes, and combines to make this sleeve and can not be separated with this cap body activity.

12. rotary lock structures according to any one of claim 9 to 11, it is characterized in that, this sleeve is provided with a clamping part; And this rotary lock structure also comprises an elastic component, its two ends are resisted against bottom and this clamping part of this head respectively.

13. rotary lock structures as claimed in claim 12, it is characterized in that, this elastic component is spring, compression spring, resilient pad or elastic cylinder.

14. rotary lock structures as claimed in claim 1, it is characterized in that, this first groove protrudes from this second groove.

15. rotary lock structures as claimed in claim 1, is characterized in that, this clamping part also has one the 3rd groove, recessed in the side of this clamping part, and extend a segment distance from the upside of this second groove or downside, and this second groove is connected with the 3rd groove.

16. rotary lock structures as claimed in claim 1, it is characterized in that, this clamping part also has a projection, is positioned at this second groove.

17. rotary lock structures as claimed in claim 1, is characterized in that, this clamping part also has one the 3rd groove, recessed in the side of this clamping part, and from this second groove horizontal-extending one segment distance, this second groove is connected with the 3rd groove.

18. rotary lock structures as claimed in claim 15, it is characterized in that, this second groove is mutually vertical with the 3rd groove.

19. rotary lock structures as claimed in claim 1, it is characterized in that, this second groove oliquely downward extends a segment distance from the top of this first groove.

20. rotary lock structures as claimed in claim 19, it is characterized in that, this first groove and this second groove have one second angle, this second angle is 3 ° to 87 °.

21. rotary lock structures as claimed in claim 1, it is characterized in that, this second groove extends a segment distance obliquely upward from the top of this first groove.

22. rotary lock structures as claimed in claim 21, it is characterized in that, this first groove and this second groove have one second angle, this second angle is 93 ° to 150 °.

23. rotary lock structures as claimed in claim 15, is characterized in that, this clamping part also has one the 4th groove, recessed in the side of this clamping part, and extends a segment distance to the right or left from the 3rd groove, and the 3rd groove is connected with the 4th groove.

24. rotary lock structures as claimed in claim 23, is characterized in that, this clamping part also has one the 5th groove, recessed in the side of this clamping part, and extends a segment distance up or down from the 4th groove, and the 4th groove is connected with the 5th groove.

25. 1 kinds revolve lock assembly, and it comprises rotary lock structure according to any one of claim 1 to 24 and an interfacing part structure, and it is characterized in that, this interfacing part structure comprises:

One sleeve body, has:

One containing groove, recessed in this sleeve body, the opening of this containing groove is positioned at the top of this sleeve body, and this opening is to should the clamping part of rotary lock structure; And

One buckle projection, is convexly equipped in the side of this containing groove, and this buckle projection is to should first groove of clamping part of rotary lock structure and the second groove; And

One object group connecting part, is arranged at this sleeve body.

26. 1 kinds of packing structures, it, for packing at least just like the rotary lock structure according to any one of claim 1 to 13, is characterized in that, this packing structure comprises at least one spacing accommodating body, it has a spacing containing space, and this rotary lock structure is arranged in this spacing containing space.