CN220848412U - Outdoor awning using push-pull shutter overturning driving mechanism - Google Patents

Abstract

The utility model discloses an outdoor awning adopting a push-pull shutter overturning driving mechanism, which comprises a shutter top and a shutter frame for mounting the shutter top, wherein the shutter frame comprises upright posts and ring beams, the shutter top comprises a plurality of shutter plates, a linkage strip for being in linkage fit with the shutter plates and an overturning driving device for driving the linkage strip to move, the overturning driving device comprises a linkage assembly and a driving assembly, the driving assembly comprises an operation control piece and a mounting seat, the driving assembly is mounted on any upright post, and a travel cavity groove for the operation control piece to move up and down is arranged in the mounting seat. According to the utility model, the overturning driving device is optimally designed, the operation control piece is utilized to drive the pull rod to realize transmission, the rigid transmission of the pull rod is combined with the up-and-down movement of the operation control piece, and the linkage piece is combined to enable the linkage strip to realize quick linkage matching, so that the overturning operation of the shutter plate is completed.

Description

Outdoor awning using push-pull shutter overturning driving mechanism

Technical Field

The utility model relates to the technical field of outdoor awning, in particular to an outdoor awning adopting a push-pull shutter overturning driving mechanism.

Background

The outdoor tent has various structural forms, can be used as a folding tent for folding and storing, and also has a fixed tent which is directly placed in an outdoor courtyard and a park. The shutter tent is used as one of the fixed canopies, the top surface of the shutter tent adopts a shutter structure, and the shutter can be turned over by utilizing a linkage mechanism, so that the function of sunshade or opening can be realized, and the shutter tent is greatly favored by consumers by virtue of the advantage that the shutter tent can adjust light rays.

The prior shutter awning, wherein the linkage mechanism generally adopts a linkage bar, the linkage bar is arranged along the arrangement direction of the shutter plates, and the linkage with each shutter plate is realized through a connecting mechanism, however, the prior linkage bar is driven by a turbine seat to drive a swing arm to realize linkage fit.

The utility model provides a bulletin number is CN111946104A, relates to a can 360 two-way multiple blade roof sunshade that opens and shuts, including the frame, cooperation installation blade roof on the frame, be used for driving the linkage strip and the actuating mechanism that the blade roof opened and shut, actuating mechanism includes connecting rod, rocking arm, worm gear subassembly and power supply, the connecting rod is used for driving the activity of linkage strip, the rocking arm is used for driving the connecting rod activity, worm gear subassembly is used for driving the rocking arm rotation, the power supply is used for providing power for worm gear subassembly. However, the shutter driving mechanism in the shutter awning is exposed in the middle of the shutter awning, so that the shutter awning is very obvious, is not concise in form, affects the appearance, occupies the space in the awning and affects the use of the shutter awning.

For this reason, more tripe canopy has adopted hidden drive structure now, like CN216043002U, relates to a tripe canopy with hidden tripe drive structure that opens and shuts, including the frame subassembly, if tripe board, linkage strip and tripe drive structure that opens and shuts, the frame subassembly includes stand and the round-backed beam of a plurality of cooperation installations, tripe drive structure that opens and shuts includes hand mechanism, drive assembly and tripe drive mechanism, drive assembly is used for transmitting the power of hand mechanism input to tripe drive mechanism, tripe drive mechanism is used for driving the tripe board and rotates to realize opening and shutting of tripe board.

For example, CN216713637U provides a shutter tent, which belongs to the technical field of tents. It has solved the low problem of current tripe canopy space utilization. The awning comprises an awning frame with a shutter group, a foot rest for supporting the awning frame and a driving piece for driving the shutter group to open and close, wherein the awning frame is positioned at the top of the foot rest, a turbine box for driving the shutter group to open and close is fixedly connected to the awning frame, the driving piece is positioned on the foot rest, the awning further comprises a flexible shaft and a transmission assembly which is positioned in the foot rest and used for transmitting power, the transmission assembly is in transmission connection with the turbine box through the flexible shaft, and the driving piece is in transmission connection with the turbine box through the transmission assembly.

However, no matter how the above structure is designed, the transmission of the linkage bar is also matched through a turbine box, the turbine box is required to be assembled in a awning frame or a ring beam, the whole transmission structure is relatively complex, and the turbine box has relatively high cost, so that the whole assembly and installation are complex, the manufacturing cost is high, and the transmission structure is complex.

Disclosure of utility model

Aiming at the problems, the utility model aims to provide the outdoor awning which adopts the push-pull shutter overturning driving mechanism, is convenient for driving the linkage strip and has the characteristics of simple structure and convenient operation.

The technical problems solved by the utility model can be realized by adopting the following technical scheme:

the outdoor awning comprises an awning top and an awning frame for mounting the awning top, wherein the awning frame comprises upright posts and ring beams, the awning top comprises a plurality of louvers, a linkage bar for being in linkage fit with the louvers and an overturning driving device for driving the linkage bar to move, the overturning driving device comprises a linkage assembly and a driving assembly, the driving assembly comprises an operation control piece and a mounting seat, the driving assembly is mounted on any upright post, and a travel cavity groove for the operation control piece to move up and down is formed in the mounting seat; when the control piece moves up and down along the travel cavity, the control piece is used for driving the linkage assembly to move and driving the linkage bar to move through the linkage assembly.

The linkage assembly comprises a pull rod and a linkage piece, wherein the lower end of the pull rod is used for being matched with the operation piece, the upper end of the pull rod is used for being matched with the linkage piece, and the linkage piece is also matched with the linkage strip.

The linkage piece comprises a first linkage arm, a linkage shaft and a second linkage arm, one end of the first linkage arm is used for being matched with the upper end of the pull rod, the other end of the first linkage arm is matched with the linkage shaft, the other end of the linkage shaft is matched with one end of the second linkage arm, and the other end of the second linkage arm is matched with the linkage bar.

The pull rod is positioned in the inner cavity of the upright post, and the upper end of the pull rod protrudes out of the upper end of the upright post and extends upwards.

The upright post is provided with an alignment travel hole, the alignment travel hole is used for mutually corresponding to the outer port of the travel cavity groove, and the mounting seat is fixed in the inner cavity of the upright post.

The control piece comprises a handle, a handle shaft and a locking mechanism, wherein the handle is fixedly matched with the handle shaft, the handle is located outside the upright post, the handle shaft penetrates through the side wall of the upright post and extends into the inner cavity of the upright post, the handle shaft is matched with the lower end of a pull rod located in the inner cavity of the upright post, and the handle shaft penetrates through the travel cavity groove and can be stopped at any height in the travel cavity groove.

The lock mechanism comprises a lock core shaft, the lock core shaft is embedded in the inner cavity of the handle shaft, a locking shaft penetrates through the lock core shaft, a guide hole is formed in the side wall of the handle shaft, the locking shaft is correspondingly matched with the guide hole, a limiting pin is arranged at the inner end of the lock core shaft, a limiting pin hole is formed in the side wall of the handle shaft, the limiting pin is correspondingly matched with the limiting pin hole, and the locking shaft is used for being matched with an installation seat in a locking mode, so that the handle shaft can be stopped at any height in the travel cavity groove.

The lock is characterized in that a spring cavity is arranged in the lock shaft, a reset spring is arranged in the spring cavity, one end of the reset spring is abutted to the lock shaft, and the other end of the reset spring is abutted to the limiting pin.

The handle shaft is also provided with a guide rail in a matched mode, the guide rail is filled in the travel cavity groove and can move up and down along the travel cavity groove, and the height dimension of the guide rail is larger than that of the travel cavity groove.

At least two locking grooves are formed in the mounting seat, and a button cap is matched with the outer end of the lock cylinder shaft; when the lock core shaft moves towards the inner cavity of the upright post along the axial direction, the lock shaft can be separated from the locking groove, and the handle shaft can move up and down along the travel groove cavity.

Compared with the prior art, the utility model has the following beneficial effects: according to the utility model, through optimally designing the overturning driving device, the operation control piece is utilized to drive the pull rod to realize transmission, the rigid transmission of the pull rod is combined with the up-and-down movement of the operation control piece, and the linkage piece is combined to enable the linkage strip to realize quick linkage matching, so that the overturning operation of the shutter plate is completed; the driving assembly is optimized, the operation control is directly utilized to push and pull the shutter up and down, so that the operation is more concise and effective, and different overturning angles of the shutter can be adjusted by stopping at different height positions.

The features of the present utility model will be apparent from the following detailed description of the preferred embodiments, taken in conjunction with the accompanying drawings.

Drawings

FIG. 1 is a schematic view of the overall structure of the outdoor awning of the present utility model;

FIG. 2 is a schematic diagram of the structure of the overturn driving device according to the present utility model;

FIG. 3 is a schematic diagram of a linkage assembly according to the present utility model;

FIG. 4 is a schematic diagram of a linkage assembly according to the present utility model;

FIG. 5 is a schematic diagram of a linkage assembly according to the present utility model;

FIG. 6 is a schematic diagram of the overall structure of the driving assembly according to the present utility model;

FIG. 7 is a schematic cross-sectional view of a drive assembly of the present utility model;

FIG. 8 is an exploded view of the drive assembly of the present utility model;

FIG. 9 is a schematic view of the handle shaft and guide rail mounting structure of the present utility model;

fig. 10 is a schematic view of a mounting base structure according to the present utility model.

Detailed Description

The utility model is further described with reference to the following detailed drawings in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the implementation of the utility model easy to understand.

Referring to fig. 1 to 10, this embodiment discloses an outdoor awning using a push-pull shutter turnover driving mechanism, which includes a shutter top 200 and a shutter frame 100 for mounting the shutter top, wherein the shutter frame 100 includes upright posts 110 and ring beams 120, according to the prior art, the number of the shutter canopies 110 is at least 2, in a preferred embodiment, the number of the upright posts 110 is 4, the ring beams 120 are rectangular frame structures, the upright posts 110 and the ring beams 120 are correspondingly and fixedly mounted and matched, the shutter top 200 includes a plurality of shutter plates 210, a linkage bar 220 for linkage and matching with the shutter plates 210, and a turnover driving device for driving the linkage bar 220 to move, and after the turnover driving device drives the linkage bar 220 to move, the linkage bar 220 drives the shutter plates 210 to realize turnover, so as to complete opening and closing of the shutter plates 210.

In this embodiment, the overturning driving device includes a linkage assembly 400 and a driving assembly 300, the driving assembly 300 includes an operation piece 310 and a mounting seat 320, the driving assembly 300 is mounted on any upright 100, and a travel cavity 321 for the operation piece 310 to move up and down is provided in the mounting seat 320; when the operation piece 310 moves up and down along the travel cavity 321, the operation piece 310 is used for driving the linkage assembly 400 to move and driving the linkage bar 220 to move through the linkage assembly 400; by utilizing the structure of the upright post 110, the built-in transmission of the driving assembly 300 is realized by combining the installation of the driving assembly 300, and the operation of up-down push-pull operation is optimized, so that the operation mode is simplified, and the operation of a user is more convenient.

In a specific structure, the linkage assembly 400 comprises a pull rod 410 and a linkage piece 420, wherein the lower end of the pull rod 410 is used for being matched with the operation piece 310, the upper end of the pull rod 410 is used for being matched with the linkage piece 420, and the linkage piece 420 is also matched with the linkage bar 220; the linkage assembly 400 is used for realizing power transmission, the control part 310 is used for realizing power input, after the user operates the control part 310 to move up and down, the pull rod 410 is driven to move up and down, the pull rod 410 pulls the linkage part 420 to deflect, so that the linkage part 420 drives the linkage strip 220 to complete movement, and finally the opening and closing operation of the shutter plate 210 is completed.

In combination with the foregoing, in one preferred embodiment, as shown in fig. 2 and 3, the linkage member 420 includes a first linkage arm 421, a linkage shaft 423 and a second linkage arm 422, where the outer end of the linkage shaft 423 is generally matched with a housing 424, to increase protection of the linkage shaft 423, one end of the first linkage arm 421 is configured to be matched with an upper end of the pull rod 410, typically in hinged fit, the upper end of the pull rod 410 is generally configured to be a lifting lug seat structure, so as to facilitate the hinged fit with the first linkage arm 421, the other end of the first linkage arm 421 is matched with the linkage shaft 423 to drive the linkage shaft 423 to rotate, the other end of the linkage shaft 423 is matched with one end of the second linkage arm 422, and the square linkage shaft 423 is configured to drive the second linkage arm 422 to deflect, and the other end of the second linkage arm 422 is matched with the linkage bar 220 to drive the linkage bar 220.

In combination with the foregoing, in one alternative embodiment, as shown in fig. 4 and 5, the linkage member 420 is a linkage swing arm 430, the linkage swing arm 430 is in a "angle" structure, the linkage swing arm 430 includes a pull rod connection portion 431, a link rod connection portion 433 and a central portion 432, the central portion 432 is provided with a hinge shaft hole, the hinge shaft hole is mounted in cooperation with the ring beam 120 through a hinge shaft, the pull rod connection portion 431 is in hinge cooperation with the pull rod 410, the link rod connection portion 433 is in hinge cooperation with the linkage bar 220, and the driving of the linkage bar 220 is achieved through the swing arm movement and the up-down pulling of the pull rod 410.

Preferably, the pull rod 410 is located in the inner cavity of the upright post 110, and the upper end of the pull rod 410 protrudes from the upper end of the upright post 110 and extends upwards; in the remaining alternative embodiment, the upper end of the upright 110 is typically provided with a girt fitting groove into which the upper end of the tie rod 410 extends.

In combination with the above, the upright post 110 is provided with the alignment travel hole 111, the alignment travel hole 111 is used to correspond to the outer port of the travel cavity 421, and the mounting seat 420 is fixed in the inner cavity of the upright post 110, so as to facilitate the installation of the control 310.

In a specific structure, the control piece 310 comprises a handle 311, a handle shaft 312 and a locking mechanism 340, wherein the handle 311 is fixedly matched with the handle shaft 312, the handle 311 is positioned outside the upright post 110, the handle shaft 312 penetrates through the side wall of the upright post 110 and extends into the inner cavity of the upright post 110, the handle shaft 312 is matched with the lower end of a pull rod 410 positioned in the inner cavity of the upright post 110, and the handle shaft 312 penetrates through a travel cavity 321 and can be stopped at any height in the travel cavity 321; the handle 311 is convenient for a user to push and pull, and the user drives the handle shaft 312 to move by pushing and pulling the handle, and the locking mechanism 340 is used for limiting the position of the handle shaft 312, so that the handle shaft 312 can be stopped at any height in the travel cavity 321, and the opening and closing angles of the shutter plates 210 are convenient to control.

The locking mechanism 340 includes a lock core shaft 341, the lock core shaft 341 is embedded in an inner cavity of the handle shaft 312, a locking shaft 342 penetrates through the lock core shaft 341, a guide hole 313 is formed in a side wall of the handle shaft 312, the locking shaft 342 is correspondingly matched with the guide hole 313, the lock core shaft 341 is convenient to move along an axial direction, a limit pin 343 is arranged at an inner end of the lock core shaft 341, a limit pin hole 314 is formed in a side wall of the handle shaft 312, the limit pin 343 is correspondingly matched with the limit pin hole 314, and the locking shaft 342 is used for being locked and matched with the mounting seat 420, so that the handle shaft 312 can stop at any height in the travel cavity 321; wherein, be provided with spring chamber 346 in the lock core axle 341, be provided with reset spring 344 in the spring chamber 346, reset spring 344 one end is contradicted in locking axle 342, the other end is contradicted in spacer pin 343, when lock core axle 341 is along the axial displacement of stand 110 inner chamber direction, locking axle 342 is along with the removal, reset spring 344 is contradicted to locking axle 342, the reset spring 344 other end receives the conflict of spacer pin 343, realize the compression, locking axle 342 is along guide hole 313 continuously inwards moving, until the separation with mount pad 420 is accomplished to locking axle 342, make the mechanism 340 be in the unblock state that is in, handle 311 can drive handle axle 312 and carry out the oscilaltion along the stroke chamber 321 in the mount pad 420 this moment, thereby the upper and lower drive of convenient pull rod 410.

In one preferred embodiment, the handle shaft 312 is further provided with a guide rail 330 in a matching manner, a fixed hole 331 is formed in the guide rail 330, the handle shaft 312 penetrates through the fixed hole 331 and is fixedly matched with the guide rail 330, the guide rail 330 is filled in the travel cavity 321 and can move up and down along the travel cavity 321, and the height dimension of the guide rail 330 is larger than the travel height dimension of the travel cavity 321; the optimized guide rail 330 is matched with the handle shaft 312, so that the guide rail is more accurate and effective when the handle 311 drives the handle shaft 312 to move up and down, and the movement is smoother and more convenient.

In one preferred embodiment, at least two locking slots 322 are provided in the mounting seat 320, and when the number of the locking slots 322 is two, the locking slots 322 in the shutter open state position and the locking slots 322 in the shutter closed state position are respectively arranged up and down, the outer end of the lock core shaft 341 is matched with a button cap 345, and the button cap 345 is convenient for a user to operate and is used for driving the lock core shaft 341 to move along the axial direction; when the lock core shaft 341 moves axially toward the inner cavity of the upright post 110, the lock shaft 342 can be separated from the lock position groove 322, and the handle shaft 312 moves up and down along the travel groove cavity 321.

In other alternative embodiments, a latch may be disposed on the outer side of the mounting base 320, and the locking shaft 342 is configured to be engaged with the latch to achieve limitation of different height positions.

In other alternative embodiments, the capture mechanism 340 may be replaced with other mechanical mechanisms, such as a trigger lock mechanism, a spring lock mechanism, etc.

According to the utility model, through optimally designing the overturning driving device, the operation control piece is utilized to drive the pull rod to realize transmission, the rigid transmission of the pull rod is combined with the up-and-down movement of the operation control piece, and the linkage piece is combined to enable the linkage strip to realize quick linkage matching, so that the overturning operation of the shutter plate is completed; the driving assembly is optimized, the operation control is directly utilized to push and pull the shutter up and down, so that the operation is more concise and effective, and different overturning angles of the shutter can be adjusted by stopping at different height positions.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the utility model in any way, but any simple modification, equivalent variation or modification made to the above embodiments according to the technical principles of the present utility model still falls within the scope of the technical solutions of the present utility model.

Claims (10)

1. The utility model provides an outdoor tripe of adoption push-and-pull tripe upset actuating mechanism, includes the tripe covering or awning on a car, boat, etc. top and be used for installing the tripe covering or awning on a car, boat, etc. top includes stand and collar tie beam, the tripe covering or awning on a car, boat, etc. top includes a plurality of tripe boards, is used for with a plurality of tripe board linkage complex linkage strip and is used for driving the upset actuating device that the linkage strip removed, its characterized in that: the overturning driving device comprises a linkage assembly and a driving assembly, wherein the driving assembly comprises an operation piece and a mounting seat, the driving assembly is mounted on any upright post, and a travel cavity groove for the operation piece to move up and down is formed in the mounting seat; when the control piece moves up and down along the travel cavity, the control piece is used for driving the linkage assembly to move and driving the linkage bar to move through the linkage assembly.

2. An outdoor awning using a push-pull shutter turnover driving mechanism as claimed in claim 1, wherein: the linkage assembly comprises a pull rod and a linkage piece, wherein the lower end of the pull rod is used for being matched with the operation piece, the upper end of the pull rod is used for being matched with the linkage piece, and the linkage piece is also matched with the linkage strip.

3. An outdoor awning using a push-pull shutter turnover driving mechanism as claimed in claim 2, wherein: the linkage piece comprises a first linkage arm, a linkage shaft and a second linkage arm, one end of the first linkage arm is used for being matched with the upper end of the pull rod, the other end of the first linkage arm is matched with the linkage shaft, the other end of the linkage shaft is matched with one end of the second linkage arm, and the other end of the second linkage arm is matched with the linkage bar.

4. An outdoor awning using a push-pull shutter turnover driving mechanism as claimed in claim 2, wherein: the pull rod is positioned in the inner cavity of the upright post, and the upper end of the pull rod protrudes out of the upper end of the upright post and extends upwards.

5. An outdoor awning using a push-pull shutter turnover driving mechanism as claimed in claim 4 and wherein: the upright post is provided with an alignment travel hole, the alignment travel hole is used for mutually corresponding to the outer port of the travel cavity groove, and the mounting seat is fixed in the inner cavity of the upright post.

6. An outdoor awning using a push-pull shutter tilting drive as claimed in any one of claims 1 to 5, wherein: the control piece comprises a handle, a handle shaft and a locking mechanism, wherein the handle is fixedly matched with the handle shaft, the handle is located outside the upright post, the handle shaft penetrates through the side wall of the upright post and extends into the inner cavity of the upright post, the handle shaft is matched with the lower end of the pull rod located in the inner cavity of the upright post, and the handle shaft penetrates through the travel cavity groove and can be stopped at any height in the travel cavity groove.

7. An outdoor awning using a push-pull shutter turnover driving mechanism as claimed in claim 6, wherein: the lock mechanism comprises a lock core shaft, the lock core shaft is embedded in the inner cavity of the handle shaft, a locking shaft penetrates through the lock core shaft, a guide hole is formed in the side wall of the handle shaft, the locking shaft is correspondingly matched with the guide hole, a limiting pin is arranged at the inner end of the lock core shaft, a limiting pin hole is formed in the side wall of the handle shaft, the limiting pin is correspondingly matched with the limiting pin hole, and the locking shaft is used for being matched with an installation seat in a locking mode, so that the handle shaft can be stopped at any height in the travel cavity groove.

8. An outdoor awning using a push-pull shutter turnover driving mechanism as claimed in claim 7, wherein: the lock is characterized in that a spring cavity is arranged in the lock shaft, a reset spring is arranged in the spring cavity, one end of the reset spring is abutted to the lock shaft, and the other end of the reset spring is abutted to the limiting pin.

9. An outdoor awning using a push-pull shutter turnover driving mechanism as claimed in claim 8, wherein: the handle shaft is also provided with a guide rail in a matched mode, the guide rail is filled in the travel cavity groove and can move up and down along the travel cavity groove, and the height dimension of the guide rail is larger than that of the travel cavity groove.

10. An outdoor awning using a push-pull shutter turnover driving mechanism as claimed in claim 9, wherein: at least two locking grooves are formed in the mounting seat, and a button cap is matched with the outer end of the locking shaft; when the lock core shaft moves towards the inner cavity of the upright post along the axial direction, the lock shaft can be separated from the locking groove, and the handle shaft can move up and down along the travel groove cavity.