CN220318916U - Shutter linkage telescopic retracting mechanism for outdoor shutter awning - Google Patents

Abstract

The utility model discloses a shutter linkage telescopic retraction mechanism for an outdoor shutter, which comprises a shutter top, wherein the shutter top comprises a plurality of shutter plates and ring beams, and also comprises a telescopic transmission mechanism, the telescopic transmission mechanism comprises a transmission belt assembly, the transmission belt assembly comprises a synchronous wheel and a transmission belt, a driving seat is matched on the transmission belt, the driving seat is arranged on any one of the shutter plates, the shutter plates are also matched with a cross chain unit, the cross chain units among the shutter plates are mutually hinged to form a cross chain, and when the shutter plates are turned over and opened to any angle, the telescopic transmission mechanism can drive the shutter plates to realize superposition. According to the utility model, through optimizing the telescopic transmission mechanism, synchronous telescopic paving can be completed among a plurality of shutter plates by utilizing the cross chains, so that the shutter plates can be turned over in a paving state, and also can be folded at one side in an opening state.

Description

Shutter linkage telescopic retracting mechanism for outdoor shutter awning

Technical Field

The utility model relates to the technical field of outdoor products, in particular to a shutter stacking type retracting mechanism for an outdoor shutter.

Background

To meet the needs of existing outdoor awning products, various kinds of awning are available on the market, such as sunlight rooms with fixed roofs. The sunshade of this type can't realize the packing up of covering or awning on a car, boat, etc. top, uses to be restricted, and another kind of traditional fixed upset tripe top sunshine room with single function, the upset of tripe can only be realized in the sunshine room of this kind of structure, can't realize the flexible of tripe, can't satisfy the customer with direct sunlight and the effect of all open-air no shielding nature.

If the bulletin number is CN110886533B, a louver awning is disclosed, which comprises an awning frame and a louver group, wherein the awning frame comprises at least two louver awning beams and at least two upright posts, a transmission mechanism is arranged on each upright post, a turnover device is arranged on each louver awning beam, and the transmission mechanism controls the turnover device to turn over through a linkage piece, so that the louver group can be turned over. The overturning structure of the louver blade is realized by adopting chain transmission, but the overturning structure cannot realize a local open awning structure.

For this reason, if the bulletin number is CN212295260U, provide a flexible tripe covering or awning on a car, boat, etc. belongs to sunshade technical field. The shutter awning solves the problems that the existing shutter awning only can meet the requirement that a transmission piece drives a shutter plate to rotate to open and close, the effect is single, lighting is not ideal and the like. The utility model comprises a roof, a roof mounting frame and a roof opening and closing mechanism, wherein the roof comprises a plurality of shutter cover plates, the roof opening and closing mechanism is arranged on the roof mounting frame and can drive the shutter cover plates to move back and forth and realize overturning opening and closing in the back and forth movement process, and when the shutter cover plates move back and forth and rotate to a closed state, the adjacent shutter cover plates are butted together at first positions. The telescopic awning has firm awning board, the awning board can be integrally telescopic back and forth, and in the telescopic process, the plurality of awning boards of the awning board can be rotatably buckled and closed to realize the functions of sunshade and rain-shielding.

However, although the shutter awning with the structure can be opened in a large opening way, the shutter slats are folded to one side, but the shutter awning with the structure is jacked up, in the shutter slat folding process, the whole shutter slats are required to be folded at one side, and the shutter awning can not be opened and closed by the simple shutter awning roof relative to the common shutter awning, so that the whole function is single.

Disclosure of Invention

Aiming at the problems, the utility model aims to provide a shutter stacking type retracting mechanism for an outdoor shutter, which optimizes a telescopic transmission mechanism and enables a plurality of shutter plates to be synchronously telescopic and paved by utilizing a cross chain.

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

the utility model provides an outdoor shutter is flexible retracting mechanism of tripe linkage, includes the tripe covering or awning on a car, boat, etc. top includes a plurality of tripe boards and is used for installing complex circle roof beam with a plurality of tripe boards, still includes flexible drive mechanism, and flexible drive mechanism includes the drive belt subassembly, the drive belt subassembly includes synchronizing wheel and drive belt, the cooperation is equipped with the drive seat on the drive belt, the drive seat set up in a plurality of on arbitrary one of tripe boards, the tripe board still cooperates and is equipped with the cross chain unit, and the cross chain unit between a plurality of tripe boards articulates each other and forms the cross chain, when a plurality of the tripe board upset is opened to arbitrary angle, flexible drive mechanism can drive a plurality of the tripe board realizes the coincide.

The shutter plate comprises a shutter core shaft, the shutter core shaft is used for being in hinged fit with a cross chain unit, the cross chain unit comprises two X-shaped linkage plates, and two linkage plates in two adjacent cross chain units are in corresponding hinged fit.

The driving seat is used for being matched with the louver plates at the most edge, when the driving seat moves along with the driving belt, the corresponding louver plates move along with the driving belt, and the driving belt drives the rest louver plates to finish the position movement through the change of the cross chain.

The shutter core shaft is also provided with a first roller in a matched mode, the first roller is used for being matched with a first sliding rail on the ring beam, and a plurality of shutter plates can move along the first sliding rail through the first roller.

The shutter core shaft is also matched with a linkage arm, the other end of the linkage arm is matched with a linkage strip through a second roller, a second sliding rail which is used for being matched with the second roller in a moving mode is arranged in the linkage strip, and the linkage arm can move along the second sliding rail through the second roller.

At least one guide rope is arranged between the adjacent linkage arms, the guide rope is arranged along the length direction of the second sliding rail, two ends of the guide rope are respectively and fixedly arranged on the linkage bars, and the linkage arms move along the guide rope in a guiding manner through second rollers.

The number of the guide ropes is 2, the guide ropes are respectively arranged on the upper part and the lower part of the linkage arm, and the two guide ropes are arranged in an up-down parallel manner.

The telescopic transmission mechanism further comprises a telescopic driving motor and a transmission shaft driven by the telescopic driving motor, the transmission shaft is used for being matched with the synchronous wheel, the transmission shaft is used for driving the synchronous wheel to rotate, the synchronous wheel is divided into a driving wheel and a driven wheel, the driving wheel and the driven wheel are respectively arranged at two ends of the ring beam, and the transmission belt moves reciprocally along the driving wheel and the driven wheel.

The transmission shaft is matched with a transmission base, the driving wheel is installed in the transmission base, and the transmission base is fixedly installed on the ring beam.

The shutter plate overturning opening angle can be 45 degrees, 60 degrees and 90 degrees.

Compared with the prior art, the utility model has the following beneficial effects: according to the utility model, through optimizing the telescopic transmission mechanism, synchronous telescopic paving can be completed among a plurality of the slats by utilizing the cross chain, overturning operation can be realized when the slats are in a paving state, single-side folding can also be realized when the slats are in an opening state, and folding of the slats can be realized conveniently under any opening angle by utilizing the cross chain structure design.

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 diagram of the overall structure of the present utility model;

FIG. 2 is a partially enlarged schematic view of the portion A of FIG. 1;

FIG. 3 is a schematic view of the cross-link unit, blind slat and ring-beam mounting structure of the present utility model;

FIG. 4 is a schematic view of the cross-link unit and blind spindle mounting structure of the present utility model;

FIG. 5 is a schematic view of a linkage arm structure of the present utility model;

FIG. 6 is a schematic diagram of the whole structure of the second embodiment of the present utility model;

FIG. 7 is a partially enlarged schematic view of the structure of the portion B in FIG. 5;

FIG. 8 is a schematic diagram of the overall structure of the present utility model;

FIG. 9 is a partially enlarged schematic view of the structure of the portion C in FIG. 7;

FIG. 10 is a schematic view of a closed configuration of the slats in the slat roof according to the present utility model;

FIG. 11 is a schematic view of the open configuration of the slats in the slat roof according to the present utility model;

FIG. 12 is a schematic view of a 60 open rear half-collapsed configuration of a blind of the present utility model;

FIG. 13 is a schematic view of the fully retracted position of the shutter plate of the present utility model after 60 degrees opening;

FIG. 14 is a schematic view of a 90 open rear half-collapsed configuration of the blind of the present utility model;

fig. 15 is a schematic structural view of the shutter plate in a fully retracted state after 90 ° opening.

Description of the embodiments

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.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear are used in the embodiments of the present utility model) are merely for explaining the relative positional relationship, movement conditions, and the like between the components in a certain specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicators are changed accordingly. Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature.

Referring to fig. 1 to 15, this embodiment discloses a shutter linked telescopic retraction mechanism for an outdoor shutter, which comprises a shutter top 100, the shutter top 100 comprises a plurality of shutter plates 110 and a ring beam 200 for being assembled and matched with the shutter plates 110, and further comprises a telescopic transmission mechanism 400, the telescopic transmission mechanism 400 comprises a transmission belt assembly, the transmission belt assembly comprises a synchronous wheel 430 and a transmission belt 440, a driving seat 114 is matched on the transmission belt 440, the driving seat 114 is arranged on any one of the shutter plates 110, the shutter plates 110 are also matched with a cross chain unit 310, the cross chain units 310 between the shutter plates 110 are mutually hinged to form a cross chain 300, the shutter plates 110 comprise shutter mandrels 112, the shutter mandrels 112 are used for being hinged and matched with the cross chain units, the cross chain unit 310 comprises two linkage plates 311 in an 'X' -shape, and when the shutter plates 110 are turned over to any angle, the telescopic transmission mechanism 400 can drive the shutter plates 110 to be folded.

The design is optimized, the synchronous expansion and contraction of the shutter plates 110 can be realized by adopting the cross chain 300 structure, when the shutter plates 110 need to be folded to one side, the shutter plates 110 can be opened to any angle, gaps are reserved between adjacent shutter plates 110, the single-side folding of the shutter plates 110 can be realized, and the sizes of the folded open spaces are mutually corresponding according to the size of the gap specification; when the shutter plates 110 are opened, a gap is formed between the adjacent shutter plate bodies 111, the telescopic driving motor 410 completes driving, drives the transmission shaft 420 to drive the driving wheel, so as to drive the driving belt 440 to move, the driving belt 440 drives the driving seat 114 to move along the driven wheel, the shutter plates 110 corresponding to the driving seat 114 move along with the movement of the driving seat 114, and the shutter plates 110 correspondingly link with each other through the cross chain units 310, so that the cross chain units 310 at the position deform, the two X-shaped linkage plates 311 change, and the linkage plates 311 in the rest cross chain units 310 change, so that the linkage plates 311 change, and all shutter plates 110 are driven to fold and retract along with the folding of the cross chain units 310, thereby realizing the single-side folding of all shutter plates 310, and the linkage arm 115 in one shutter plate 310 at the outermost end is usually fixedly mounted with the linkage strip 500, so as to facilitate the single-side folding and positioning.

In one preferred embodiment, the driving seat 114 is used to cooperate with the slats 110 at the most edge, and when the driving seat 114 moves along with the driving belt 440, the corresponding slats 110 move along with the driving seat, and the driving belt drives the remaining slats 110 to complete the position movement through the change of the cross chain 300.

In one preferred embodiment, the shutter core shaft 112 is further provided with a first roller 113 in a matching manner, the first roller 113 is used for matching with a first sliding rail 201 on the ring beam 200, and the plurality of shutter plates 110 can move along the first sliding rail 201 through the first roller 113, so that the shutter plates 110 can slide to one side through the first rollers 113 at two sides in an opened state; the shutter core shaft 112 is also matched with a linkage arm 115, the other end of the linkage arm 115 is matched with a linkage bar 500 through a second roller 116, a second sliding rail 501 used for being matched with the second roller 116 in a moving way is arranged in the linkage bar 500, and the linkage arm 115 can move along the second sliding rail 501 through the second roller 116; the structure of the linkage arm 115 is optimally designed, the cooperation of the linkage arm 115 and the linkage bar 500 utilizes the second roller 116 to realize transition, when the shutter plate 110 needs to be overturned, the second roller 116 is positioned at a corresponding position in the second slide rail 501, and the swinging of the linkage arm 115 is realized by utilizing the interference cooperation between the second roller 116 and the second slide rail 501; when the shutter plate 110 needs to be stretched and retracted on one side, the linkage arm 115 can move along the second sliding rail 501 through the second roller 116, and retract along the length direction of the ring beam 200, and the movement of the two wheels and the two rails on one side is realized by combining the cooperation of the first roller 113 and the first sliding rail 201 in the shutter plate 110.

Wherein, a guide rope 600 is arranged between adjacent ones of the plurality of linkage arms 115, wherein the guide rope 600 can be mounted through the first rope threading seat 118 in a matched manner, the guide rope 600 penetrates through the first rope threading seat 118, the guide rope 600 is arranged along the length direction of the second sliding rail 501, two ends of the guide rope 600 are respectively fixedly arranged on the linkage bar 500, and the plurality of linkage arms 115 move along the guide rope 600 in a guide manner through the second roller 116; the guide rope 600 is optimally designed, and the second sliding rail 501 is a suspension sliding rail structure because the linkage bar 500 is a moving structure, so that the guide rope 600 is optimally designed, and the stability of the cooperation between the second roller 116 and the second sliding rail 501 is improved, and the service performance and the service stability of the product are improved.

In one preferred embodiment, the number of the guide ropes 600 is 2, the guide ropes 600 are respectively arranged at the upper part and the lower part of the linkage arm 115, the two guide ropes 600 are arranged in an up-down parallel manner, an upper guide part 117 is arranged on the linkage arm 115, a second rope penetrating seat 119 is matched on the upper guide part 117, a traction rope 601 penetrates through the second rope penetrating seat 119, a traction rope 601 is also matched on the upper guide part 117, the first rope penetrating seat 118 and the second rope penetrating seat 119 are respectively arranged at two ends of the linkage arm 115, and the traction rope 601 and the guide ropes 600 are arranged in an up-down parallel manner: by means of the up-down arrangement of the traction rope 601 and the guide rope 600, a parallelogram-like structure can be formed between two adjacent linkage arms 115, so that the linkage arms 115 are more stable in driving the shutter plate 110 to turn over or spread.

The shutter plate 110 is matched with a telescopic transmission mechanism 400, the telescopic transmission mechanism 400 is used for driving the shutter plate 110 to realize unilateral folding, the telescopic transmission mechanism 400 comprises a telescopic driving motor 410 and a transmission shaft 420 driven by the telescopic driving motor 410, the transmission shaft 420 is used for being matched with a synchronous wheel 430, the transmission shaft 420 is used for driving the synchronous wheel 430 to rotate, the synchronous wheel 430 is divided into a driving wheel and a driven wheel, the driving wheel and the driven wheel are respectively arranged at two ends of a ring beam 200, a transmission belt 440 moves reciprocally along the driving wheel and the driven wheel, a transmission base 450 is matched on the transmission shaft 420, the driving wheel is arranged in the transmission base 450, the transmission base 450 is fixedly arranged on the ring beam 200, the transmission shaft 420 is used for driving the synchronous wheel 430 to drive the transmission belt 440 to reciprocate, a driving seat 114 is matched on the transmission belt 440, and the driving seat 114 can move along with the movement of the transmission belt 440.

The telescopic driving motor 410 is preferably a double-head driving motor, and is used for driving the transmission shafts 420 at two ends to rotate, the other ends of the transmission shafts 420 are usually provided with a transmission base 450, the transmission base 450 is fixedly installed on the ring beam 200 and is usually located at one end of the ring beam 200, a driving wheel is arranged in the transmission base 450, the driving wheel drives a driving belt to realize transmission, the other ends of the ring beam 200 are provided with driven wheels, and the plurality of shutter plates 110 are arranged between the driving wheel and the driven wheels.

In the above-mentioned structure, in the flexible receipts of tripe board structure, the tripe board all needs through double track sliding structure, and when the tripe board telescopic condition, the linkage strip part is in non-mobile state, can form good flexible stability for this reason, utilizes double track double pulley structure to realize flexible shop and closes, can realize the shop under the tripe board multi-angle state of opening and shutting and close.

According to the utility model, through optimizing the telescopic transmission mechanism, synchronous telescopic paving can be completed among a plurality of the slats by utilizing the cross chain, overturning operation can be realized when the slats are in a paving state, single-side folding can also be realized when the slats are in an opening state, and folding of the slats can be realized conveniently under any opening angle by utilizing the cross chain structure design.

In the structure, the telescopic driving motor can be replaced by a manual transmission mechanism such as a worm gear and the like, so that the driving of the transmission mechanism is realized.

In the structure, the overturning operation of the shutter plate can be realized by a manual mechanism or an electric mechanism.

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 shutter is flexible retracting mechanism of tripe linkage for covering or awning on a car, boat, etc. includes the tripe covering or awning on a car, boat, etc. top includes a plurality of tripe boards and is used for installing complex collar tie beam, its characterized in that with a plurality of tripe boards: still include flexible drive mechanism, flexible drive mechanism includes the drive belt subassembly, the drive belt subassembly includes synchronizing wheel and drive belt, the cooperation is equipped with the drive seat on the drive belt, the drive seat sets up a plurality of on arbitrary piece in the tripe board, the tripe board still cooperates and is equipped with the cross chain unit, and the cross chain unit between a plurality of tripe boards articulates each other and forms the cross chain, and when a plurality of the tripe board upset is opened to arbitrary angle, flexible drive mechanism can drive a plurality of the tripe board realizes the coincide.

2. The shutter linkage telescopic retraction mechanism for an outdoor shutter according to claim 1, wherein: the shutter plate comprises a shutter core shaft, the shutter core shaft is used for being in hinged fit with a cross chain unit, the cross chain unit comprises two X-shaped linkage plates, and two linkage plates in two adjacent cross chain units are in corresponding hinged fit.

3. The shutter linkage telescopic retraction mechanism for an outdoor shutter according to claim 2, wherein: the driving seat is used for being matched with the louver plates at the most edge, when the driving seat moves along with the driving belt, the corresponding louver plates move along with the driving belt, and the driving belt drives the rest louver plates to finish the position movement through the change of the cross chain.

4. A shutter linkage telescopic retraction mechanism for an outdoor canopy according to claim 3, wherein: the shutter core shaft is also provided with a first roller in a matched mode, the first roller is used for being matched with a first sliding rail on the ring beam, and a plurality of shutter plates can move along the first sliding rail through the first roller.

5. The shutter linkage telescopic retraction mechanism for an outdoor shutter as claimed in claim 4, wherein: the shutter core shaft is also matched with a linkage arm, the other end of the linkage arm is matched with a linkage strip through a second roller, a second sliding rail which is used for being matched with the second roller in a moving mode is arranged in the linkage strip, and the linkage arm can move along the second sliding rail through the second roller.

6. The shutter linkage telescopic retraction mechanism for an outdoor shutter according to claim 5, wherein: at least one guide rope is arranged between the adjacent linkage arms, the guide rope is arranged along the length direction of the second sliding rail, two ends of the guide rope are respectively and fixedly arranged on the linkage bars, and the linkage arms move along the guide rope in a guiding manner through second rollers.

7. The shutter linkage telescopic retraction mechanism for an outdoor shutter as claimed in claim 6, wherein: the number of the guide ropes is 2, the guide ropes are respectively arranged on the upper part and the lower part of the linkage arm, and the two guide ropes are arranged in an up-down parallel manner.

8. A shutter linked retractable mechanism for an outdoor shutter as claimed in any one of claims 1 to 7, wherein: the telescopic transmission mechanism further comprises a telescopic driving motor and a transmission shaft driven by the telescopic driving motor, the transmission shaft is used for being matched with the synchronous wheel, the transmission shaft is used for driving the synchronous wheel to rotate, the synchronous wheel is divided into a driving wheel and a driven wheel, the driving wheel and the driven wheel are respectively arranged at two ends of the ring beam, and the transmission belt moves reciprocally along the driving wheel and the driven wheel.

9. The shutter linkage telescopic retraction mechanism for an outdoor shutter as claimed in claim 8, wherein: the transmission shaft is matched with a transmission base, the driving wheel is installed in the transmission base, and the transmission base is fixedly installed on the ring beam.

10. The shutter linkage retractable mechanism for an outdoor shutter as claimed in claim 9, wherein: the shutter plate overturning opening angle can be 45 degrees, 60 degrees and 90 degrees.