CN104309677B - There is the rotary bracket of multiple translation interface - Google Patents

Abstract

nullThe invention discloses a kind of rotary bracket with multiple translation interface，Including the pedestal frame with fixed interface、The link being connected with described pedestal frame，There is on described link the translation interface that at least two is the most different，Described link can be connected with described pedestal frame by the most described pedestal frame rotatably，It is provided with the locking mechanism for both being locked between described pedestal frame and described link，Described locking mechanism has multiple latched position，User can be connected on corresponding juvenile product by the fixed interface on pedestal frame in use，The translation interface on link is selected further according to the version of interface on juvenile product to be connected，And the translation interface of selection is adjusted to operating position，The most just can will have the different juvenile product graftings of distinct interface to another juvenile product，As having the automobile seat for child of distinct interface、On the vehicle frame of baby seat pocket grafting extremely same children trolley，So greatly increase the versatility of juvenile product.

Description

There is the rotary bracket of multiple translation interface

Technical field

The present invention relates to a kind of rotary bracket with multiple translation interface.

Background technology

Some juvenile products need by bracket grafting to other juvenile product enterprising enforcement use in the market, and such as baby seat pocket, it can be with in grafting to stroller frame, on the product such as hand basket, and automobile seat for child needs grafting to be used to the seat of automobile.

But, in prior art, for product to be grafted, on it, the interface of graft block generally has number of different types, if the interface on juvenile product is the most single, then may be only available for having on the product of the special interface corresponding with this interface, the most then the many occasions limiting juvenile product use.

Summary of the invention

It is an object of the invention to overcome the shortcoming of prior art, it is provided that a kind of rotary bracket with multiple translation interface.

For reaching above-mentioned purpose, the technical solution used in the present invention is: a kind of rotary bracket with multiple translation interface, described rotary bracket includes the pedestal frame with fixed interface, the link being connected with described pedestal frame, there is on described link the translation interface that at least two is the most different, described link can be connected with described pedestal frame by the most described pedestal frame rotatably, it is provided with the locking mechanism for both being locked between described pedestal frame and described link, described locking mechanism has multiple latched position, when described locking mechanism is in the lock state, described link interfixes with described pedestal frame, one of them described translation interface on described link is used for docking connection；When described locking mechanism is in released state, described link can rotate relative to described pedestal frame and be used for docking connection by other described translation interface to adjust latched position.

Preferably, rotated by the first axle between described pedestal frame and described link and be connected, described locking mechanism includes the lock pin being located on parts in described pedestal frame and described link both parts, is opened on another parts the multiple locked grooves around the circumferentially spaced about distribution that described first axle is center of rotation, when described locking mechanism locks, described lock pin is inserted in one of in described locked groove, described pedestal frame being interfixed with described link；When described locking mechanism unlocks, described lock pin departs from described locked groove, and described link rotates around described first axle relative to described pedestal frame.

Further, described lock pin can be along self being located on described link with axial motion, and multiple described locked grooves are opened on described pedestal frame.

Further, described lock pin include axle portion, be positioned at described axle portion one end for matching with described locked groove so that described locking mechanism locking locking termination, the diameter of described locking termination is more than the diameter of described axle portion, offer on described link and be available for described axle portion along the through hole self passed axially slidably, being additionally provided with the elastic component for providing described lock pin elastic-restoring force axially movable between described link and described locking termination, described axle portion passes the unblock button that has been permanently connected on the end of described through hole.

As a kind of specific embodiment, described elastic component is the spring being set in described axle portion, the two ends of described spring keep out respectively on described link with on described locking termination.

As a kind of specific embodiment, the axial line of described lock pin is arranged in parallel with the axial line of described first axle.

Preferably, rotated by the second axle between described pedestal frame and described link and be connected, described locking mechanism includes the first locking wheel being fixedly arranged on described pedestal frame, fixed and on described link the second locking is taken turns, described first locking wheel, the side axle head on parts in described second locking wheel both parts is provided with the locking teeth of multiple protrusion, offer on the side axle head of another parts and multiple be available for the lock slots that described locking teeth is inserted correspondingly into, when described locking mechanism locks, described first locking wheel is meshed with described second locking wheel, multiple described locking teeths are inserted correspondingly in multiple described lock slots；When described locking mechanism unlocks, described link the most described pedestal frame departs from all described lock slots along the axially-movable of described second axle, all described locking teeths and described first locking wheel is disengaged from described second locking wheel.

Further, the side axle head of described first locking wheel is provided with multiple first locking teeth, multiple described first locking teeth along the circumferential direction uniform intervals are distributed, the first lock slots is formed between two adjacent described first locking teeths, described second locking wheel is upper and the described first axle head locking wheel adjacent is provided with multiple second lock slots, multiple described second lock slots along the circumferential direction uniform intervals are distributed, the second locking teeth is formed between two adjacent described second lock slots, when described locking mechanism locks, all described first locking teeths are inserted correspondingly in multiple described second lock slots, all described second locking teeths are inserted correspondingly in multiple described first lock slots.

Further, described first locking teeth, the described second equal indentation of locking teeth.

Further, described second axle includes bar portion and limiting section, the first through hole is offered on described pedestal frame, the second through hole is offered on described link, the elastic component that can provide along the axial elastic-restoring force of described second axle is provided between described link and described pedestal frame, described bar portion sequentially pass through described first through hole, described second through hole vertically after end on be additionally provided with the locking wrench with cam part.

Utilization due to technique scheme, the present invention compared with prior art has the advantage that the rotary bracket with multiple translation interface of the present invention, wherein the pedestal frame with fixed interface is coupled together with the link with the most different multiple translation interface, user is in use, can be connected on corresponding juvenile product by the fixed interface on pedestal frame, the translation interface on link is selected further according to the version of interface on juvenile product to be connected, and the translation interface of selection is adjusted to operating position, so, just can will have the different juvenile product graftings of distinct interface to another juvenile product, as having the automobile seat for child of distinct interface, on the vehicle frame of baby seat pocket grafting extremely same children trolley, so greatly increase the versatility of juvenile product.

Accompanying drawing explanation

Accompanying drawing 1 is the axonometric chart 1 of the rotary bracket of embodiment 1；

Accompanying drawing 2 is the front view of the rotary bracket of embodiment 1；

Accompanying drawing 3 is the STRUCTURE DECOMPOSITION schematic diagram of the rotary bracket of embodiment 1；

Accompanying drawing 4 is the axonometric chart 2 of the rotary bracket of embodiment 1；

Accompanying drawing 5 is the rearview of the rotary bracket of embodiment 1；

Accompanying drawing 6 is the side view under the rotary bracket of embodiment 1 is in the lock state；

Accompanying drawing 7 be along accompanying drawing 6 A-A to sectional structure schematic diagram；

Accompanying drawing 8 is the side view 2 that the rotary bracket of embodiment 1 is under released state；

Accompanying drawing 9 be along accompanying drawing 8 B-B to sectional structure schematic diagram；

Accompanying drawing 10 is the front view after the rotary bracket dislocation of embodiment 1；

Accompanying drawing 11 is the side view after the rotary bracket dislocation of embodiment 1；

Accompanying drawing 12 is the front view of the rotary bracket of embodiment 2；

Accompanying drawing 13 is the STRUCTURE DECOMPOSITION schematic diagram of the rotary bracket of embodiment 2；

Accompanying drawing 14 is the rearview under the rotary bracket of embodiment 2 is in the lock state；

Accompanying drawing 15 is the side view under the rotary bracket of embodiment 2 is in the lock state；

Accompanying drawing 16 be along accompanying drawing 14 C-C to sectional structure enlarged diagram；

Accompanying drawing 17 is that the rotary bracket of embodiment 2 is in the rearview under released state；

Accompanying drawing 18 is that the rotary bracket of embodiment 2 is in the side view under released state；

Accompanying drawing 19 be along accompanying drawing 17 D-D to sectional structure enlarged diagram；

Accompanying drawing 20 is the front view after the rotary bracket dislocation of embodiment 2；

Accompanying drawing 21 is the side view after the rotary bracket dislocation of embodiment 2；

Wherein:

1, pedestal frame；11, fixed interface；2, link；21, the first translation interface；22, the second translation interface；3, the first axle；4, the first locking mechanism；41, lock pin；41a, axle portion；41b, locking termination；42, button is unlocked；43, elastic component (spring)；44, locked groove；45, screw；

5, the second axle；51, bar portion；52, limiting section；53, pin-and-hole；6, the second locking mechanism；61, the first locking wheel；62, the second locking wheel；63, elastic component (spring)；64, rotating shaft；65, locking wrench；651, cam part；66, bay cover.

Detailed description of the invention

With specific embodiment, technical scheme is further elaborated below in conjunction with the accompanying drawings.

Embodiment 1

See the rotary bracket shown in Fig. 1 to Figure 11, this rotary bracket includes pedestal frame 1 and link 2, there is on pedestal frame 1 fixed interface 11, there are on link 2 two translation interfaces the most different, it is respectively the first translation interface 21 and the second translation interface 22, link 2 can be connected with pedestal frame 1 by opposite base frame 1 rotatably, and between the two by relative rotary motion, thus the needs connected according to conversion switch between the first translation interface 21 and the second translation interface 22.The locking mechanism for both being locked it is provided with between pedestal frame 1 and link 2, this locking mechanism has two latched positions, the two latched position is corresponding with the operating position of two translation interfaces respectively, when locking mechanism locks, locking mechanism is in one of them latched position, link 2 interfixes with pedestal frame 1, first translation interface 21 is used for changing connection, and when locking mechanism unlocks, link 2 can rotate and convert latched position by opposite base frame 1, when locking mechanism locks under another latched position, second translation interface 22 can be used for conversion and connects.

See shown in accompanying drawing 1 to 11, in the present embodiment, rotated by the first axle 3 between link 2 with pedestal frame 1 and be connected, locked by the first locking mechanism 4 between link 2 and pedestal frame 1.

First locking mechanism 4 includes the lock pin 41 being located on parts in pedestal frame 1 and link 2 both parts, two locked grooves 44 being opened on another parts, the two locked groove 44 compartment of terrain is distributed on the same circumference with the first axle 3 as center of rotation, and two locked grooves 44 then correspond respectively to two variable locking positions of the first locking mechanism.Lock pin 41 can be inserted in locked groove 44, and when lock pin 41 inserts in locked groove 44, the first locking mechanism 4 is i.e. locked under corresponding latched position；When lock pin 41 departs from locked groove 44, the first locking mechanism 4 unlocks, and link 2 can rotate by opposite base frame 1.

In the present embodiment, the axial line of lock pin 41 and the axial line of the first axle 3 are parallel to each other, and lock pin 41 can be located on link 2 with axial motion along self；Locked groove 44 has two, is all located on pedestal frame 1.Lock pin 41 includes axle portion 41a, be positioned at axle portion 41a one end for matching with locked groove 44 so that first locking mechanism 4 locking locking termination 41b, the diameter of this locking termination 41b is more than the diameter of axle portion 41a, offer on link 2 and be available for axle portion 41a along the through hole self passed axially slidably, it is additionally provided with for providing lock pin 41 along the elastic component 43 of the elastic-restoring force of self axially-movable between link 2 and locking termination 41b, herein elastic component 43 use for spring, this spring housing is located in axle portion 41a, its two ends are kept out respectively on the side of link 2 and locking termination 41b.Lock pin 41 upper shaft lever portion 41b passes the through hole on link 2, and the end of through hole is fixedly provided with unblock button 42, and this unblock button 42 is fixedly attached on lock pin 41 by screw 45.

Seeing shown in Fig. 4 to Fig. 7, the locking termination 41b of lock pin 41 is stably plugged in one of them locked groove 44 under the elastic acting force of spring 43, and the first locking mechanism 4 is in the lock state, and now the first translation interface 21 is used for changing connection.

When the second translation interface 22 is used for changing connection by needs, operator outwards lifts unblock button 42, lock termination 41b extrusion spring 43 and lock pin 41 is moved towards the direction away from link 2, make to lock termination 41b gradually to depart from locked groove 44 and unlocked by the first locking mechanism 4, as shown in Figure 8, Figure 9.Now can be rotated by link 2 opposite base frame 1, link 2 is rotated by the direction shown in arrow a around the first axle 3 opposite base frame 1 according to Fig. 5.When turning to the second translation interface 22 and arriving the operating position preset, unclamp unblock button 42, under the elastic acting force of spring 43, lock pin 41 moves axially towards the direction of pedestal frame 1, locking termination 41b inserts in corresponding locked groove 44, and then is locked under this latched position by the first locking mechanism 4.Rotary bracket after conversion sees shown in Figure 10, Figure 11, and now, the second translation interface 22 can be used for conversion and connects.

Embodiment 2

Seeing the rotary bracket shown in Figure 12 to Figure 21, this rotary bracket includes pedestal frame 1 and link 2, pedestal frame 1 has on fixed interface 11, link 2 and has two translation interfaces, the respectively first translation interface 21 and the second translation interface 22.The mode that is rotationally connected that the rotary bracket of this embodiment and the different part of embodiment 1 are only that between link 2 and pedestal frame 1 and the setting of locking attachment structure.

Seeing shown in Figure 13 to Figure 19, being rotated by the second axle 5 between this link 2 with pedestal frame 1 is connected, and is locked by the second locking mechanism 6 between the two.This second locking mechanism 6 includes the first locking wheel 61 being fixedly arranged on pedestal frame 1, the the second locking wheel 62 being fixedly arranged on link 2, the side axle head of parts in the first locking wheel 61 and the second locking wheel 62 both parts is provided with multiple prominent locking teeth, multiple lock slots is offered on axle head adjacent with above-mentioned locking teeth on another parts, when the second locking mechanism locks 6 locking, these multiple locking teeths are inserted correspondingly in multiple lock slots, and the first locking wheel 61 and the second locking wheel 62 are engaged each other, and then link 2 is interfixed with pedestal frame 1；When the second locking mechanism 6 unlocks, all locking teeths and all lock slots are mutually disengaged and the first locking wheel 61 and the second locking wheel 62 are disengaged from, and then link 2 can be rotated by opposite base frame 1.

In the present embodiment, the first locking wheel 61 and the second locking wheel 62 coaxial inner conductor are arranged, and both of which is with the second axle 5 as axle center.First locking wheel 61 is provided with multiple first locking teeth towards the end of the second locking wheel 62, and these multiple first locking teeth along the circumferential direction uniform intervals are distributed, and form the first lock slots between two adjacent the first locking teeths；The end closing on the first locking wheel 61 on second locking wheel 62 is provided with multiple second lock slots, and this multiple lock slots along the circumferential direction uniform intervals is distributed, and forms the second locking teeth between two adjacent the second lock slots；When the second locking mechanism 6 locks, all of first locking teeth is inserted correspondingly in multiple second lock slots, and all of second locking teeth respectively correspondingly inserts in multiple first lock slots.Here, the first locking teeth and the second locking teeth are disposed as the zigzag being spaced and size is identical.

Second axle 5 includes bar portion 51 and is positioned at the limiting section 52 of one end, bar portion 51, and the other end in this bar portion 51 offers perforation 53.For convenience of description, end bar portion 51 being provided with perforation 53 herein is referred to as locking end.Offering the first through hole on pedestal frame 1, link 2 offers the second through hole, be additionally provided with the elastic component 63 that can provide along the axial elastic-restoring force of the second axle 5 between link 2 and pedestal frame 1, what elastic component 63 used herein is also spring.This rotary bracket also includes bay cover 66, and this bay cover 66 also is provided with through hole.

When connection is installed, second axle 5 locking end from bar portion 51 is sequentially passed through the first through hole of pedestal frame 1, through the second through hole of link 2, through after the through hole bay cover 66, limiting section 52 is kept out on pedestal frame 1, then connects locking wrench 65 in this locking end rotationally.This locking wrench 65 has cam part 651, and this cam part 651 is connected in the locking end in bar portion 51 rotationally by rotating shaft 64.There is in this cam part 651 the nearer near-end of distance rotating shaft 64 axial line, distance rotating shaft 64 axial line far-end farther out.Its near-end or far-end can be made respectively to conflict on bay cover 66 by rotating cam part 651, and then make the second locking mechanism 6 lock or unlock.

See shown in Figure 14 to Figure 16, the far-end of cam part 651 is kept out on bay cover 66, spring 63 is extruded, spacing between pedestal frame 1 and link 2 reduces, first locking wheel 61 is the most mutually drawn close with the second locking wheel 62, and the first locking wheel 61 engages each other with the second locking wheel 62 so that the second locking mechanism 6 locks, interfixing between pedestal frame 1 and link 2, now the first translation interface 21 is used for changing connection.

When the second translation interface 22 is used for changing connection by needs, first the second locking mechanism 6 is unlocked.During unblock, see 15, shown in Figure 17-Figure 19, first rotate unblock spanner 65 according to a direction shown in Figure 15, the far-end unlocking spanner 65 overhead cam portion 651 is made to depart from the conflict with bay cover 66, and the near-end of cam part 651 is inconsistent with bay cover 66, under the elastic acting force of spring 63, pedestal frame 1 is axially away from one another with link 2, making to be axially away from one another between the first locking wheel 61 and the second locking wheel 62 and be disengaged from, now the second locking mechanism 6 just unlocks.The most again link 2 is rotated according to the b direction opposite base frame 1 shown in Figure 17, the second translation interface 22 is made to arrive at the operating position preset, rotational lock spanner 65 the most again, the far-end making cam part 651 is pushed against and on bay cover 66, pedestal frame 1 and link 2 is the most mutually drawn close, and then the first locking wheel 61 is engaged each other with the second locking wheel 62, the second locking mechanism 6 relocks.Rotary bracket after conversion sees shown in Figure 20, Figure 21, and now, the second translation interface 22 can be used for conversion and connects.

Certainly, when the translation interface on link 2 has multiple, it is possible to changed connection in the above-described manner.

To sum up, the rotary bracket of the present invention, by the link 2 that has been rotatably connected on pedestal frame 1, and the most different multiple translation interface is set on link 2, during use, user is connected to corresponding juvenile product by the fixed interface 11 on pedestal frame 1, in go-cart, further according to juvenile product to be connected, as in seat pocket or automotive seats, the version of interface selects translation interfaces different on link 2, and selected translation interface is adjusted to operating position, the most just can will have the different juvenile product graftings of distinct interface to another juvenile product, improve the versatility of juvenile product.

Above-described embodiment only for technology design and the feature of the present invention are described, its object is to allow person skilled in the art will appreciate that present disclosure and to implement according to this, can not limit the scope of the invention with this.All equivalence changes made according to spirit of the invention or modification, all should contain within protection scope of the present invention.

Claims (10)

1. a rotary bracket with multiple translation interface, it is characterized in that: described rotary bracket includes having the pedestal frame of fixed interface, the link being connected with described pedestal frame, there is on described link the translation interface that at least two is the most different, described link can be connected with described pedestal frame by the most described pedestal frame rotatably, it is provided with the locking mechanism for both being locked between described pedestal frame and described link, described locking mechanism has multiple latched position, when described locking mechanism is in the lock state, described link interfixes with described pedestal frame, one of them described translation interface on described link is used for docking connection；When described locking mechanism is in released state, described link can rotate relative to described pedestal frame and be used for docking connection by other described translation interface to adjust latched position.

The rotary bracket with multiple translation interface the most according to claim 1, it is characterized in that: being rotated by the first axle between described pedestal frame and described link is connected, described locking mechanism includes the lock pin being located on parts in described pedestal frame and described link both parts, is opened on another parts the multiple locked grooves around the circumferentially spaced about distribution that described first axle is center of rotation, when described locking mechanism locks, described lock pin is inserted in one of in described locked groove, described pedestal frame being interfixed with described link；When described locking mechanism unlocks, described lock pin departs from described locked groove, and described link rotates around described first axle relative to described pedestal frame.

The rotary bracket with multiple translation interface the most according to claim 2, it is characterised in that: described lock pin can be along self being located on described link with axial motion, and multiple described locked grooves are opened on described pedestal frame.

The rotary bracket with multiple translation interface the most according to claim 3, it is characterized in that: described lock pin includes axle portion, be positioned at described axle portion one end for matching with described locked groove so that described locking mechanism locking locking termination, the diameter of described locking termination is more than the diameter of described axle portion, offer on described link and be available for described axle portion along the through hole self passed axially slidably, the elastic component for providing described lock pin elastic-restoring force axially movable it is additionally provided with between described link and described locking termination, described axle portion passes the unblock button that has been permanently connected on the end of described through hole.

The rotary bracket with multiple translation interface the most according to claim 4, it is characterised in that: described elastic component is the spring being set in described axle portion, the two ends of described spring keep out respectively on described link with on described locking termination.

6. according to the rotary bracket with multiple translation interface described in claim 3 or 4 or 5, it is characterised in that: the axial line of described lock pin is arranged in parallel with the axial line of described first axle.

The rotary bracket with multiple translation interface the most according to claim 1, it is characterized in that: being rotated by the second axle between described pedestal frame and described link is connected, described locking mechanism includes the first locking wheel being fixedly arranged on described pedestal frame, fixed and on described link the second locking is taken turns, described first locking wheel, the side axle head on parts in described second locking wheel both parts is provided with the locking teeth of multiple protrusion, offer on the side axle head of another parts and multiple be available for the lock slots that described locking teeth is inserted correspondingly into, when described locking mechanism locks, described first locking wheel is meshed with described second locking wheel, multiple described locking teeths are inserted correspondingly in multiple described lock slots；When described locking mechanism unlocks, described link the most described pedestal frame departs from all described lock slots along the axially-movable of described second axle, all described locking teeths and described first locking wheel is disengaged from described second locking wheel.

The rotary bracket with multiple translation interface the most according to claim 7, it is characterized in that: the side axle head of described first locking wheel is provided with multiple first locking teeth, multiple described first locking teeth along the circumferential direction uniform intervals are distributed, the first lock slots is formed between two adjacent described first locking teeths, described second locking wheel is upper and the described first axle head locking wheel adjacent is provided with multiple second lock slots, multiple described second lock slots along the circumferential direction uniform intervals are distributed, the second locking teeth is formed between two adjacent described second lock slots, when described locking mechanism locks, all described first locking teeths are inserted correspondingly in multiple described second lock slots, all described second locking teeths are inserted correspondingly in multiple described first lock slots.

The rotary bracket with multiple translation interface the most according to claim 8, it is characterised in that: described first locking teeth, the described second equal indentation of locking teeth.

10. according to the described rotary bracket with multiple translation interface arbitrary in claim 7 to 9, it is characterized in that: described second axle includes bar portion and limiting section, the first through hole is offered on described pedestal frame, the second through hole is offered on described link, the elastic component that can provide along the axial elastic-restoring force of described second axle is provided between described link and described pedestal frame, described bar portion sequentially pass through described first through hole, described second through hole vertically after end on be additionally provided with the locking wrench with cam part.