CN202690646U - Twisting rapid release assembly - Google Patents

Abstract

The utility model provides a twisting rapid release assembly used for fixing and locking two objects. The twisting rapid release assembly comprises a locking assembly, a sleeve and an elastic assembly, wherein the locking assembly comprises a hat body with a first clamping part and a rid body with a rod part and a first locking part, and the first locking part is used for locking an object; the sleeve comprises a second clamping part and a first fixing part, the second clamping part is actively combined with the first clamping part, and the first fixing part is used for fixing the object; and the two ends of the elastic assembly are respectively arranged on the locking assembly and the sleeve. The twisting rapid disassembly assembly provided by the utility model has the advantages that a user can rapidly assemble and rapidly demolish two objects through the design.

Description

Reverse Quick-dismantle component

Technical field

The utility model relates to a kind of Quick-dismantle component that reverses, but but relates in particular to a kind of rapid-assembling and fast dismantling except the Quick-dismantle component that reverses of two articles.

Background technique

Prior art is used for fixing the fixing-assembly of two plate bodys, usually adopts the sealed mode of screw thread to reach, and this fixing-assembly comprises screw, upper shield and sleeve; Wherein this screw one end has a forced section, and forced section is provided with screw-driver slot, and the other end has the screw rod that is connected with forced section; This upper shield is linked in the forced section hollow on every side of screw, in order to coat and to protect this screw; And this jacket casing is combined in the screw rod of screw.Therefore, make fixing-assembly can utilize upper shield to be combined on the first plate body, then the first plate body is alignd with the second plate body, make the screw rod correspondence of this screw at the lockhole of the first plate body and the second plate body, with instrument the screw-driver slot of screw forced section is imposed rotation external force again, and then make this screw rod locking among the lockhole of the second plate body, thereby finish the composite structure that connects two plate bodys.More than adopt the sealed mode of screw thread, thus so be able in conjunction with two plate bodys, but when assembling, must tool using the screw-driver slot of screw forced section be imposed rotation external force, cause assembly program comparatively cumbersome.

Therefore, how creating a kind of fixing-assembly, so that it is able to rapid-assembling and fast dismantling removes two articles, will be that the utility model is wanted positive disclosed feature.

Summary of the invention

Prior art is used for the fixing-assembly of fixing two articles when assembling, must just can finish by tool using, and assembly program is loaded down with trivial details, therefore in order to allow user's energy rapid-assembling and fast dismantling except two articles, so the utility model provides a kind of Quick-dismantle component that reverses to solve the problems referred to above.

For reaching above-mentioned purpose, provided by the utility model a kind of be used to fixing the first object and in order to the Quick-dismantle component that reverses of second object that locks, it comprises: locked assembly, it includes cap body and the body of rod, this cap body has the first engagement portion, this first engagement portion is the flange in this cap body, this body of rod from top to bottom has bar section and the first locking part that sequentially connects, this bar section is connected in this cap body, wherein, this first locking part is for running through this first object and this second object with this second object that locks; Sleeve, the one end has the second engagement portion, and the other end has the first fixing part, and this second engagement portion is the flange outside this sleeve, and is combined with this first engagement portion activity, and this first fixing part is for fixing to this first object; And elastic component, it is for reversing coil tension spring, and an end of this elastic component is arranged at this locked assembly, and the other end of this elastic component is arranged at this sleeve.

In an embodiment of the present utility model, this body of rod also has the first limited part, it is arranged between this bar section and this first locking part, also has at least one the second limited part in this sleeve, it is arranged between this second engagement portion and this first fixing part, when this first limited part activity was limited in this second limited part, this first limited part rotated an angle.

In an embodiment of the present utility model, this sleeve has two the second limited parts, and when this first limited part activity was limited in these second limited parts, this first limited part rotated an angle.

In an embodiment of the present utility model, this locked assembly has the first positioning hole or the first locating slot, and an end of this elastic component is arranged in this first positioning hole or this first locating slot.

In an embodiment of the present utility model, this sleeve has the second positioning hole or the second locating slot, and the other end of this elastic component is arranged in this second positioning hole or this second locating slot.

In an embodiment of the present utility model, this first fixing part engaging, riveted joint, expansion connect, bind or be welded in this first object.

In an embodiment of the present utility model, this first locking part has hook body structure or worm structure.

In sum, the Quick-dismantle component that reverses of the present utility model is by above-mentioned design, allow the user can rapid-assembling and fast dismantling except two articles, save time and the advantage such as laborsaving thereby have.

Description of drawings

Figure 1A and Figure 1B are the first specific embodiment that reverses Quick-dismantle component of the present utility model.

Fig. 2 is the worm's eye view that Quick-dismantle component is combined with plate body that reverses of the present utility model.

Fig. 3 is the second specific embodiment that reverses Quick-dismantle component of the present utility model.

Fig. 4 A and 4B are the 3rd specific embodiment that reverses Quick-dismantle component of the present utility model.

Fig. 5 A and 5B are the 4th specific embodiment that reverses Quick-dismantle component of the present utility model.

Fig. 6 A is the phantom of Fig. 5 A.

Fig. 6 B is the phantom of Fig. 5 B.

Fig. 7 A is the sectional drawing of Fig. 6 A.

Fig. 7 B is the sectional drawing of Fig. 6 B.

[primary clustering symbol description]

1-4 reverses Quick-dismantle component

10 locked assemblies

11 cap bodies

111 first engagement portions

112 first positioning holes

12 bodies of rod

121 bar sections

122 first locking parts

123 first limited parts

124 grooves

20 sleeves

21 second engagement portions

22 first fixing parts

23 second positioning holes

24 second limited parts

25 the 3rd limited parts

30 elastic components

100 first objects

101 first perforations

200 second objects

201 second perforations

Embodiment

For fully understanding the purpose of this utility model, feature and effect, existing by following specific embodiment, and cooperate appended graphicly, the utility model is described in detail, illustrate as after:

To shown in Figure 2, it is the specific embodiment that reverses Quick-dismantle component of the present utility model with reference to Figure 1A.The Quick-dismantle component that reverses of the present utility model is used for fixing the first object 100, and in order to second object 200 that locks, this first object 100 all can be plate body with this second object 200.The Quick-dismantle component that reverses of the present utility model comprises locked assembly 10, sleeve 20 and elastic component 30.

This locked assembly 10 includes cap body 11 and the body of rod 12, this cap body 11 has the first engagement portion 111, this first engagement portion 111 is the flange in this cap body, and this body of rod 12 from top to bottom has bar section 121 and the first locking part 122 that sequentially connects, and this bar section 121 is connected in this cap body 11; Wherein, this first locking part 122 is the hook body structure, and this first locking part 122 is used for running through the second perforation 201 of the first perforation 101 of this first object 100 and this second object 200 with this second object 200 that locks; In addition, the first locking part 122 also can be worm structure (as shown in Figure 3).

One end of this sleeve 20 has the second engagement portion 21, the other end has the first fixing part 22, this second engagement portion 21 is the flange outside this sleeve, and with these the first engagement portion 111 movable combinations, thereby this locked assembly 10 is interfered with each other with this sleeve 20, and prevent that this locked assembly 10 breaks away from this sleeve 20; Wherein, this first fixing part 22 is L-type, and this first fixing part 22 is used for fixing this first object 100; This first fixing part 22 also can be flexuose (shown in Fig. 3, Fig. 4 A and 4B) or stepped (shown in Fig. 5 A to Fig. 6 B) in addition.

This elastic component 30 can be and reverses coil tension spring, and this elastic component 30 is arranged in this bar section 121, and an end of this elastic component 30 is arranged at this locked assembly 10, and the other end of this elastic component 30 is arranged at this sleeve 20, so that this elastic component 30 is fixed; Wherein, as shown in Figure 3, this locked assembly 10 also has the first positioning hole 112 or the first locating slot, so that an end of this elastic component 30 is arranged in this first positioning hole 112 or this first locating slot.Also have the second positioning hole 23 or the second locating slot in this sleeve 20, so that the other end of this elastic component 30 is arranged in this second positioning hole 23 or this second locating slot.This elastic component 30 fixes it by this first positioning hole 112 with this second positioning hole 23, and drives the mutual activity of this locked assembly 10 and this sleeve 20.

At first shown in Figure 1A, the user by engaging, riveted joint, expand and to connect, to bind or the mode such as welding is fixed in this first object 100 with the first fixing part 22, and this locked assembly 10 reversed the after-applied amount of pressure once of an angle (for example turn round counterclockwise and turn 90 degrees), make this first locking part 122 run through the first perforation 101 of this first object 100 and the second perforation 201 of this second object 200, and allow this elastic component 30 store a rotating energy and a compression energy.Then as shown in Figure 1B, when the user removes this and presses down strength, this elastic component 30 can discharge this rotating energy with compression energy partly and produce the opposite spin (for example turn round clockwise and turn 90 degrees) of reversing, thereby drive this upwards bounce-back of the first locking part 122 rotations, at this moment, backstops are understood outside this second perforation 201 (as shown in Figure 2) in this first locking part 122, thereby make this reverse the state that Quick-dismantle component 1 maintains locking.

When this first locking part 122 has locked this second object 200, the user can apply amount of pressure retrotorsion one angle (for example turn round counterclockwise and turn 90 degrees) to this locked assembly 10, after allowing this first locking part 122 pass the first perforation 101 of the second perforation 201 of this second object 200 and this first object 100, thereby separate this first locking part 122 and this second object 200.

Then with reference to Fig. 4 A and Fig. 4 B, it is the 3rd specific embodiment that reverses Quick-dismantle component of the present utility model.This design of reversing Quick-dismantle component 3 is reversed Quick-dismantle component 1 with this haply, 2 design is identical, wherein this body of rod 12 also has the first limited part 123, it is arranged between this bar section 121 and this first locking part 122, also have the second limited part 24 in this sleeve 20, it is arranged between this second engagement portion 21 and this first fixing part 22, and this first limited part 123 is when the user not yet applies strength, in advance this first limited part 123 is rotated an angle, and activity is limited in this second limited part 24.In addition, one end of this elastic component 30 is arranged in this first positioning hole 112 or this first locating slot, the other end of this elastic component 30 is arranged at the second positioning hole 23 or second locating slot of this sleeve 20, and this second positioning hole 23 is positioned at this second limited part 24, thereby makes this elastic component 30 drive the mutual activity of this locked assembly 10 and this sleeve 20.

Shown in Fig. 4 A, when this reverses the original state of Quick-dismantle component 3, this elastic component 30 has rotated an angle (for example turn round counterclockwise and turn 90 degrees), and by this first limited part 123 and these the second limited part 24 mutual spacing rotating energies that store, so when the user will use this to reverse Quick-dismantle component 3, only need this locked assembly 10 is applied amount of pressure, make this first locking part 122 run through the first perforation 101 of this first object 100 and the second perforation 201 of this second object 200.Then shown in Fig. 4 B, because this first limited part 123 downwards and break away from the spacing of this second limited part 24, so this elastic component 30 can automatically discharge this rotating energy and produce the opposite spin (for example turn round clockwise and turn 90 degrees) of reversing, thereby drive this first locking part 122 rotations, and when the user removes this and presses down strength, this first locking part 122 upwards bounce-back and by backstop outside this second perforation 201 (as shown in Figure 2), thereby make this reverse the state that Quick-dismantle component 3 maintains locking.

When this first locking part 122 has locked this second object 200, the user can reverse an angle (for example turn round counterclockwise and turn 90 degrees) to this locked assembly 10, make this first locking part 122 not by these the second perforation 201 backstops, thereby allow this first locking part 122 separate with this second object 200, and allow this first limited part 123 again with these the second limited part 24 mutual spacing rotating energies that store.

By above-mentioned design, allow the user not need to rotate extraly this and reverse Quick-dismantle component 1, only need that this is reversed Quick-dismantle component 1 and apply amount of pressure, just can the rapid-assembling two articles.

Come the B with reference to Fig. 5 A to Fig. 7, it is the 4th specific embodiment that reverses Quick-dismantle component of the present utility model again.This design of reversing Quick-dismantle component 4 is identical with the design that this reverses Quick-dismantle component 3 haply, wherein this sleeve 20 also has the 3rd limited part 25, this first limited part 123 is when the user not yet applies strength, this first limited part 123 has rotated an angle, and activity is limited in this second limited part 24 (shown in Fig. 6 A and Fig. 7 A), and when the user applied strength, these the first limited part 123 activities were limited in the 3rd limited part 25 (shown in Fig. 7 B).In addition, an end of this elastic component 30 is arranged in the groove 124 of this body of rod 12, and the other end of this elastic component 30 is arranged in this second positioning hole 23 or this second locating slot, thereby makes this elastic component 30 drive the mutual activity of this locked assembly 10 and this sleeve 20.

By Fig. 5 A, Fig. 6 A and Fig. 7 A as can be known, this elastic component 30 is by this first limited part 123 and these the second limited part 24 mutual spacing rotating energies that store; When the user applies amount of pressure to this snapping assembly 10, allow this elastic component 30 store a compression energy, and allow this first locking part 122 run through the first perforation 101 of this first object 100 and the second perforation 201 of this second object 200, and this first limited part 123 downwards and break away from the spacing of this second limited part 24, this elastic component 30 discharges stored rotating energies and produces and reverse, and make this first limited part 123 mutually spacing with the 3rd limited part 25 after driving this first limited part 123 and this first locking part 122 rotations one angle, thereby make this first locking part 122 be locked in the second perforation 201 outer (this first locking part 122 is 90 interference (shown in Fig. 7 B) of spending mutually with this second perforation 201) of this second object 200; Then, when the user removes this and presses down strength, this elastic component 30 has the tendency that discharges compression energy, but because the lower edge of this second limited part 24 can move (shown in Fig. 7 B) on this first limited part 123 of backstop, just therefore of the present utility modelly reverse the state that Quick-dismantle component can maintain locking.

When this first locking part 122 has locked this second object 200, the user can produce this locked assembly 10 of opposite spin that reverses according to this elastic component 30, make these the first limited part 123 rotations and break away from the spacing of the 3rd limited part 25, and discharge compression energies and drive this upwards bounce-back of locked assembly 10 by this elastic component 30, thereby separate this first locking part 122 and this second object 200, and allow this first limited part 123 again with these the second limited part 24 mutual spacing rotating energies that store.

By above-mentioned design, can control the interference state of this first locking part 122 and this second perforation 201, for example mutually be the interference of 90 degree, as shown in Figure 2.

In sum, by the design of reversing Quick-dismantle component of the present utility model, can allow the user not need tool using or apply unnecessary strength and reverse Quick-dismantle component in this, just can the rapid-assembling two articles or fast dismantling except two articles; In addition, by the design of this first engagement portion 111 with this second engagement portion 21, the situation that can effectively avoid the bounce-back because of this elastic component 30 that this locked assembly 10 is separated with this sleeve 20 occurs.

Those skilled in the art will appreciate that this embodiment only is used for describing the utility model though the utility model hereinbefore with preferred embodiment openly, is so had the knack of, and should not be read as restriction scope of the present utility model.It should be noted that variation and the displacement of all and this embodiment's equivalence all should be made as and be covered by in the category of the present utility model.Therefore, protection domain of the present utility model when with claim the person of being defined be as the criterion.

Claims (17)

1. one kind is reversed Quick-dismantle component,, and in order to second object that locks, it is characterized in that this reverses Quick-dismantle component and comprises for fixing to the first object:

Locked assembly, it includes cap body and the body of rod, this cap body has the first engagement portion, this first engagement portion is the flange in this cap body, this body of rod from top to bottom has bar section and the first locking part that sequentially connects, this bar section is connected in this cap body, and wherein, this first locking part is used for running through this first object with this second object that locks;

Sleeve, the one end has the second engagement portion, and the other end has the first fixing part, and this second engagement portion is the flange outside this sleeve, and is combined with this first engagement portion activity, and this first fixing part is for fixing to this first object; And

Elastic component, it is for reversing coil tension spring, and an end of this elastic component is arranged at this locked assembly, and the other end of this elastic component is arranged at this sleeve.

2. the Quick-dismantle component that reverses as claimed in claim 1, it is characterized in that, this body of rod also has the first limited part, it is arranged between this bar section and this first locking part, also has the second limited part in this sleeve, it is arranged between this second engagement portion and this first fixing part, and when this first limited part activity was limited in this second limited part, this first limited part rotated an angle.

3. the Quick-dismantle component that reverses as claimed in claim 2 is characterized in that, this sleeve also has the 3rd limited part, and when this first limited part activity was limited in this second limited part and the 3rd limited part, this first limited part rotated an angle.

4. the Quick-dismantle component that reverses as claimed in claim 1 is characterized in that, this locked assembly has the first positioning hole or the first locating slot, and an end of this elastic component is arranged in this first positioning hole or this first locating slot.

5. the Quick-dismantle component that reverses as claimed in claim 2 is characterized in that, this locked assembly has the first positioning hole or the first locating slot, and an end of this elastic component is arranged in this first positioning hole or this first locating slot.

6. the Quick-dismantle component that reverses as claimed in claim 3 is characterized in that, this locked assembly has the first positioning hole or the first locating slot, and an end of this elastic component is arranged in this first positioning hole or this first locating slot.

7. such as each described Quick-dismantle component that reverses in the claim 1 to 6, it is characterized in that this sleeve has the second positioning hole or the second locating slot, and the other end of this elastic component is arranged in this second positioning hole or this second locating slot.

8. such as each described Quick-dismantle component that reverses in the claim 1 to 6, it is characterized in that this first fixing part engaging, riveted joint, expansion connect, bind or be welded in this first object.

9. the Quick-dismantle component that reverses as claimed in claim 7 is characterized in that, this first fixing part engaging, riveted joint, expansion connect, bind or be welded in this first object.

10. such as each described Quick-dismantle component that reverses in the claim 1 to 6, it is characterized in that this first locking part has the hook body structure.

11. the Quick-dismantle component that reverses as claimed in claim 7 is characterized in that, this first locking part has the hook body structure.

12. the Quick-dismantle component that reverses as claimed in claim 8 is characterized in that, this first locking part has the hook body structure.

13. the Quick-dismantle component that reverses as claimed in claim 9 is characterized in that, this first locking part has the hook body structure.

14. such as each described Quick-dismantle component that reverses in the claim 1 to 6, it is characterized in that this first locking part has worm structure.

15. the Quick-dismantle component that reverses as claimed in claim 7 is characterized in that, this first locking part has worm structure.

16. the Quick-dismantle component that reverses as claimed in claim 8 is characterized in that, this first locking part has worm structure.

17. the Quick-dismantle component that reverses as claimed in claim 9 is characterized in that, this first locking part has worm structure.

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