WO2024037018A1 - 同步转动伸缩式百叶顶帐篷及伺服电动驱动开合的帐篷 - Google Patents
同步转动伸缩式百叶顶帐篷及伺服电动驱动开合的帐篷 Download PDFInfo
- Publication number
- WO2024037018A1 WO2024037018A1 PCT/CN2023/089794 CN2023089794W WO2024037018A1 WO 2024037018 A1 WO2024037018 A1 WO 2024037018A1 CN 2023089794 W CN2023089794 W CN 2023089794W WO 2024037018 A1 WO2024037018 A1 WO 2024037018A1
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- WIPO (PCT)
- Prior art keywords
- louver
- synchronous
- driving wheel
- driving
- canopy
- Prior art date
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- 230000001360 synchronised effect Effects 0.000 title claims abstract description 90
- 230000005540 biological transmission Effects 0.000 claims description 102
- 230000008602 contraction Effects 0.000 claims description 9
- 230000000694 effects Effects 0.000 abstract description 8
- 238000010586 diagram Methods 0.000 description 15
- 238000009434 installation Methods 0.000 description 10
- 238000000034 method Methods 0.000 description 5
- 230000000903 blocking effect Effects 0.000 description 3
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 230000009191 jumping Effects 0.000 description 1
- 230000008054 signal transmission Effects 0.000 description 1
- 210000004210 tooth component Anatomy 0.000 description 1
- 230000000007 visual effect Effects 0.000 description 1
Classifications
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
- E04F10/00—Sunshades, e.g. Florentine blinds or jalousies; Outside screens; Awnings or baldachins
- E04F10/08—Sunshades, e.g. Florentine blinds or jalousies; Outside screens; Awnings or baldachins of a plurality of similar rigid parts, e.g. slabs, lamellae
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
- E04F10/00—Sunshades, e.g. Florentine blinds or jalousies; Outside screens; Awnings or baldachins
- E04F10/08—Sunshades, e.g. Florentine blinds or jalousies; Outside screens; Awnings or baldachins of a plurality of similar rigid parts, e.g. slabs, lamellae
- E04F10/10—Sunshades, e.g. Florentine blinds or jalousies; Outside screens; Awnings or baldachins of a plurality of similar rigid parts, e.g. slabs, lamellae collapsible or extensible; metallic Florentine blinds; awnings with movable parts such as louvres
Definitions
- the invention belongs to the technical field of sunshade products, and in particular relates to a synchronously rotating retractable louvered tent and a servo-electric driven opening and closing tent.
- the announcement number is CN110886533B, which discloses a louvered canopy, including a canopy frame and a louver blade set.
- the canopy frame includes at least two louvered canopy beams and at least two upright columns.
- the upright columns are provided with a transmission mechanism.
- a flipping device is provided on the louver canopy beam, and the transmission mechanism controls the flipping of the flipping device through a linkage piece, and enables the louver blade set to flip over.
- Chain drive is used to achieve the flipping structure of the louver blades, but it cannot achieve a partial open-top structure.
- CN111794457B discloses a tent with a center-driven long louver roof opening and closing structure
- CN112854883A discloses an outdoor louvered awning with a sectional roof that can be combined and expanded; it also cannot satisfy customers' needs for direct sunlight and full open air. Unobstructed and close to nature.
- the existing structure has the following disadvantages: 1. It blocks the line of sight, has a small adjustable range, and the visual range is limited when fully opened; 2. The customer installation is complicated, and the louvers need to be installed on the rotating parts one by one, and the pipes on both sides of the louvers It is not universal. Customers need to first identify the direction of the louver, otherwise it is easy to install it backwards; 3. Due to process limitations, the louver tube is prone to distortion and deformation, which leads to functional obstacles such as the louver not being fully closed when it is closed. ; 4.
- the existing electric-driven louver roof opens In the closed structure, a one-way output motor is usually used to achieve power output, which leads to the poor synchronization rate of the louvers when they are synchronously transmitted on both sides, resulting in the problem of opening and closing misalignment when the louvers are closed.
- the purpose of the design of the present invention is to provide a synchronously rotating retractable louvered roof tent and a servo-electric driven opening and closing tent to solve the above technical problems and have a simple structure and a large open roof area.
- the linkage structure is simple and practical, and the louvers are synchronously linked and stable.
- a synchronously rotating telescopic louvered roof tent includes leg tubes, and long ring beams and short ring beams arranged on the upper parts of the leg tubes.
- the long ring beams and short ring beams are combined to form a canopy cavity, and the canopy cavity is
- a louver top assembly is installed.
- the louver top assembly includes a louver blade, an end cover installed in conjunction with both ends of the louver blade, and a connecting piece hingedly arranged with the end cover.
- the pieces cooperate with each other to achieve telescopic linkage, and are used to drive the correspondingly installed louver blades to complete the flipping; when the end cover and the connecting piece cooperate to achieve expansion, several louver blades in the louver top assembly gradually unfold horizontally and complete the alignment of the awning roof cavity. coverage; when the end cover and the connecting piece cooperate to achieve contraction, several louver blades in the louver top assembly gradually flip vertically and shrink to one end.
- end cap is hingedly matched with the middle part of the connecting piece to form a deformable cross structure.
- end cover and the connecting piece are both provided with assembly holes in the middle, and the assembly holes are penetrated by the rotation shaft to achieve hinged cooperation between the end cover and the connecting piece.
- end cap is arranged in a Z-shape.
- the rotating shaft is also equipped with a roller, and the roller is used to slidely cooperate with the chute, and the chute is located on the side wall of the long ring beam.
- one end of the louver top assembly is a fixed end and the other end is a free end.
- the louver blade at the free end can gradually move closer to or away from the fixed end through the telescopic cooperation of the end cover and the connecting piece.
- a transmission member which is used to link the end cover and the connecting piece to achieve telescopic movement.
- the transmission part adopts any one of synchronous belt, chain, screw rod, linkage rod and rack.
- the transmission member is driven by a hand worm, a motor, or a pneumatic rod.
- the motor driving mechanism includes a servo control motor, and the servo control motor includes a first driving end and a second driving end.
- the first driving end is used to correspondingly cooperate with the first driving component, and the second driving end is used for To correspond to the second driving component, the first driving end and the second driving end are synchronously driven.
- the first driving assembly includes a first transmission shaft and a first louver synchronous transmission mechanism
- the second driving assembly includes a second transmission shaft and a second louver synchronous transmission mechanism
- the first louver synchronous transmission mechanism The mechanism and the second louver synchronous transmission mechanism respectively cooperate with two elongated ring beams.
- the servo control motor is installed on the short ring beam through a motor bracket, the servo control motor is centrally arranged, and the first drive component and the second drive component are symmetrically arranged with the servo control motor as the center.
- the rain sensor is used to collect rain information and transmit the collected signals to the controller of the servo control motor.
- the controller drives the servo control motor according to the signal transmitted by the rain sensor. Drive to close the canopy.
- first transmission shaft and the second transmission shaft are both coaxially arranged along the short ring beam, and the servo control motor is installed on the short ring beam at the adjacent fixed end through the motor bracket.
- first louver synchronous transmission mechanism and the second louver synchronous transmission mechanism adopt the same structure, including a driving wheel, a driven wheel and a synchronous belt.
- the synchronous belt rotates with the driving wheel to realize the synchronous belt movement. of movement.
- the driving wheel is installed on the long ring beam adjacent to the fixed end through the driving wheel seat
- the driven wheel is installed on the long ring beam adjacent to the free end through the driven wheel seat
- the synchronous belt is arranged coaxially along the long ring beam.
- the synchronous belt is installed in cooperation with the rotating shaft in the louver blade through the rotating seat, and the rotating seat drives the louver blade to achieve synchronous contraction and flipping or coverage as the synchronous belt moves.
- the driving wheel seat is provided with a driving wheel cavity, and the driving wheel cavity is used to install the driving wheel.
- the upper part of the driving wheel cavity is also equipped with an anti-jumping gear piece, and the anti-jumping gear piece is provided with There is a limit plate, which covers the upper part of the synchronous belt that cooperates with the driving wheel transmission.
- the first transmission shaft is connected to the main motor in the first louver synchronous transmission mechanism through the first synchronous shaft.
- the driving wheels are installed cooperatively, the first transmission shaft drives the first synchronization shaft to rotate, and the first synchronization shaft drives the driving wheel in the first blind synchronous transmission mechanism to rotate; the second transmission shaft communicates with the third synchronization shaft through the second synchronization shaft.
- the driving wheel in the two-louver synchronous transmission mechanism is installed cooperatively, the second transmission shaft drives the second synchronization shaft to rotate, and the second synchronization shaft drives the driving wheel in the second louver synchronous transmission mechanism to rotate.
- the present invention optimizes the setting of the louver top assembly, and can realize the back and forth expansion and contraction of the louver.
- the louver blades can rotate and snap closed to achieve the effect of sunshade and rain protection. When retracted and opened, it can fully open to the open air without blocking direct light, greatly improving the lighting effect and meeting the user's large-area lighting needs.
- Each adjacent louver blade is connected end to end around its rotation axis through a single independent connecting piece, which has achieved the overall linkage effect and is easy to assemble.
- Figure 1 is a schematic diagram of the overall structure of the present invention.
- Figure 2 is a schematic structural diagram of the canopy roof louvers in a fully closed and covering state according to the present invention
- Figure 3 is a schematic diagram of the partial contraction structure of the roof louver blades of the present invention.
- Figure 4 is a schematic diagram of the fully retracted structure of the roof louvers of the present invention.
- Figure 5 is a schematic diagram of the assembly structure of the louver blade, end cover and connecting piece of the present invention.
- Figure 6 is a schematic diagram of the exploded structure of the louver blade, end cover and connecting piece of the present invention.
- Figure 7 is a schematic diagram of the assembly structure of the end cover and connecting piece of the present invention.
- Figure 8 is a schematic diagram of the installation structure of the roller and the long ring beam of the present invention.
- Figure 9 is a schematic diagram of the installation structure of the motor driving mechanism of the present invention.
- Figure 10 is a schematic exploded view of the motor driving mechanism of the awning of the present invention.
- Figure 11 is a schematic diagram of the installation structure of the first driving component or the second driving component of the present invention.
- Figure 12 is a schematic diagram of the louver blade transmission installation structure of the present invention.
- Figure 13 is a partially enlarged structural diagram of part A in Figure 12;
- Figure 14 is a partially enlarged structural schematic diagram of part B in Figure 12;
- Figure 15 is a partially enlarged structural diagram of part C in Figure 12;
- Figure 16 is a schematic diagram of the installation structure of the rain sensor of the present invention.
- a synchronously rotating telescopic louvered roof tent of the present invention includes a leg tube 1, and a long ring beam 2 and a short ring beam 3 arranged on the upper part of the leg tube 1.
- the long ring beam 2 and the short ring beam The beams 3 are combined to form a canopy cavity, and a louvered top assembly is installed in the canopy cavity.
- the louvered top assembly only rotates but does not telescope and is convenient for blocking the sun when it is fully expanded, achieving full shielding of the top sunlight.
- the louvered top assembly only rotates but does not telescope and is half-expanded. When the louver top assembly telescopes and rotates, the louver blades can be retracted to one end of the short ring beam to achieve full open air without obstruction.
- the louver top assembly includes a louver blade 4, a Z-shaped end cover 5 fixed to both ends of the louver blade 4, and a connecting piece 6 hingedly arranged with the end cover 5. More specifically, the end cover 5 is connected to The middle part of the piece 6 is hingedly matched to form a deformable cross structure, and the end cover 5 and the connecting piece 6 are both provided with assembly holes 7 in the middle. The assembly holes 7 are penetrated by the rotating shaft 10 to realize the hinged cooperation between the end cover 5 and the connecting piece 6.
- the rotating shaft 10 is also provided with a roller 8, which is used to slide with the chute 9.
- the chute 9 is located on the side wall of the long ring beam 2 and used in conjunction with the roller 8.
- one end hole of the connecting piece 6 is hinged with the head hole of the front louver end cover 5, and the other end hole is It is hinged with the tail hole of the end cover 5 of the latter louver.
- the assembly holes of the end cover 5 and the connecting piece 6 are connected through the rotating shaft 10 and are arranged in an X shape. This arrangement can realize the rotation opening and closing of the louver through the parallelogram principle.
- a number of end caps 5 and connecting pieces 6 installed correspondingly with the end caps 5 cooperate with each other to achieve telescopic linkage, and are used to drive the correspondingly installed louver blades to complete flipping; when the end covers 5 and the connecting pieces 6 cooperate to achieve expansion, the top of the louver Several louver blades 4 in the assembly gradually unfold horizontally and complete the covering of the canopy roof cavity; when the end cover 5 and the connecting piece 6 cooperate to achieve contraction, several louver blades 4 in the louver top assembly gradually flip vertically and toward one end. Shrinkage In order to realize that the louver blade 4 on the top of the louver can be freely retracted, one end of the louver top assembly is a fixed end 11 and the other end is a free end 12.
- the louver blade 6 at the free end 12 can be retracted through the telescopic cooperation of the end cover 5 and the connecting piece 6. Gradually move closer to or farther away from the fixed end 11.
- the louver top assembly also includes transmission parts, which are used to link the end cover and the connecting piece to achieve telescopic movement.
- the transmission parts can be any one of synchronous belts, chains, screw rods, linkage rods, and racks, or can be manually cranked Worm drive or motor drive or air rod drive.
- the louver blades 4 of the canopy can be retracted and retracted back and forth.
- the louver blades are rotated and closed to achieve the effect of sunshade and rain protection.
- the opening and closing of the louver can be controlled manually or electrically. When retracted and opened, It can illuminate the entire open air without blocking direct light, greatly improving the lighting effect, meeting the lighting requirements of the area, and improving the flexibility of use.
- this embodiment discloses a tent that is opened and closed by servo electric drive. Combined with the synchronously rotating telescopic louvered tent in Embodiment 1, it also includes a motor drive mechanism.
- the servo control motor 13 By optimizing the servo control motor 13 with a double-ended output structure, combined with the first drive component and the second drive component, the linkage of both ends of the louvre blade 4 is synchronously driven, which improves the stability of the opening and closing movement of the louvre blade 4; it is preferred to set the servo control
- the motor 13 can realize the transmission accuracy of the power output, improve the transmission stability and opening and closing positioning control.
- it is equipped with the rain sensor 25, so that the rain sensor control can be realized to close, improve the intelligence of the closing and starting of the louver blades 4 in the louver, and increase the number of users. Experience.
- the motor drive mechanism includes a servo control motor 13.
- the servo control motor 13 is preferably used, which can achieve good precision control and make the entire drive structure more stable and accurate.
- the servo control motor 13 includes a first drive end. 13a and the second driving end 13b, the first driving end 13a is used to correspond to the first driving component, the second driving end 13b is used to correspond to the second driving component, the first driving end 13a and the second driving end 13b are synchronous transmission ;
- Double-ended drive structure servo control motor 13 It is used to synchronously flip both sides of the louver blades 4 in the louver top assembly of the canopy, so that the telescopic opening and closing transmission of the louver blades 4 is more stable and effective.
- the first driving component includes the first transmission shaft 14a and the first louver synchronous transmission mechanism
- the second driving component includes the second transmission shaft 14b and the second louver synchronous transmission mechanism, the first louver synchronous transmission mechanism and the second louver synchronous transmission mechanism.
- the two-louver synchronous transmission mechanism cooperates with the two elongated ring beams 2 respectively; in the specific installation structure, the first transmission shaft 14a and the second transmission shaft 14b are arranged corresponding to each other according to the installation position of the servo control motor 13. It can be set up symmetrically with the same structure, or it can be set up with independent transmission using different structures to achieve synchronous transmission operation.
- the servo control motor 13 is installed on the short ring beam 3 through the motor bracket 16.
- the servo control motor 13 is arranged in the center.
- the first driving component and the second driving component use the servo control motor 13 as the
- the first transmission shaft 14a and the second transmission shaft 14b are arranged coaxially along the short ring beam 3.
- the first transmission shaft 14a and the second transmission shaft 14b are arranged symmetrically with each other.
- the servo control motor 13 is installed through the motor bracket 16.
- the first louver synchronous transmission mechanism and the second louver synchronous transmission mechanism adopt the same structure, including a driving wheel 17, a driven wheel 22 and a synchronous belt 18.
- the synchronous belt 18 follows The driving wheel 17 rotates to realize the movement of the synchronous belt 18; the optimized symmetrical structural design is used, which is conducive to the synchronization of the transmission of the louver blades 4 in the louver top assembly at both ends during the power transmission process, and improves transmission stability.
- the driving wheel 17 is installed on the long ring beam 2 adjacent to the fixed end 11 through the driving wheel seat 19, and the driven wheel 22 is installed on the long ring beam 2 adjacent to the free end 12 through the driven wheel seat 23.
- Synchronization The belt is arranged coaxially along the elongated ring beam 2. Both ends of the louver blade 4 in the louver top assembly are hingedly matched with the corresponding rotating seat 24 on the synchronous belt 18 through the rotating shaft 10.
- the synchronous belt 18 is connected to the louver through the rotating seat 24.
- the rotating shaft 10 in the blade 4 is installed cooperatively, so that the synchronous belt 18 can drive the louver blade 4 to move.
- the rotating base 24 drives the louver blade 4 to achieve synchronous contraction and flipping or coverage as the synchronous belt 18 moves.
- the first transmission shaft 14a is installed in cooperation with the driving wheel 17 in the first louver synchronous transmission mechanism through the first synchronization shaft 15a.
- the first transmission shaft 14a drives the first synchronization shaft 15a to rotate.
- a synchronizing shaft 15a drives the driving wheel 17 in the first louver synchronous transmission mechanism to rotate;
- the second transmission shaft 14b is installed in cooperation with the driving wheel 17 in the second louver synchronous transmission mechanism through the second synchronizing shaft 15b.
- the second transmission shaft 14b drives the second synchronizing shaft 15b to rotate, and the second synchronizing shaft 15b drives the second blind synchronous transmission machine
- the driving wheel 17 in the structure rotates; the first synchronization shaft 15a and the second synchronization shaft 15b are optimally arranged to facilitate the assembly and installation of the driving wheel 17 and achieve synchronous transmission output.
- the opening and closing operation principle of the louver top assembly is as follows: when the louver top assembly is completely covered and changes to the open state, the servo control motor 13 realizes rotation in the direction of the open state, and the servo control motor 13 passes through the first The driving end 13a and the second driving end 13b realize the transmission of the first transmission shaft 14a and the second transmission shaft 14b.
- the first transmission shaft 14a and the second transmission shaft 15b pass through the first synchronization shaft 15a and the second synchronization shaft 15b respectively.
- the driving wheel 17 located in the first louver synchronous transmission mechanism and the second louver synchronous transmission mechanism is driven to rotate respectively.
- the driving wheel 17 completes the driving of the synchronous belt 18.
- the synchronous belt 18 is driven by the cooperation of the driving wheel 17 and the driven wheel 22. It moves along the axial direction of the long ring beam 2.
- the synchronous belts 18 on both sides are respectively located on both sides of the louver top assembly. They are fixedly arranged to cooperate with the rotating seats 24 on the synchronous belt 18 by combining with the rotating shafts 10 in each louver blade 4.
- Each louver blade 4 is folded from the free end 12 along the fixed end 11 through the synchronous belt 18, and combined with the X-shaped change operation of the end cover 5 and the connecting piece 6, the louver blade 4 gradually changes from a horizontal state to an upright state, until Fully folded, allowing the hood to be fully opened.
- the servo control motor 13 When the louver top assembly changes from fully open to covering state, the servo control motor 13 realizes rotation in the direction of the closed state, and the servo control motor 13 realizes reverse rotation.
- the servo control motor 13 realizes rotation through the first driving end 13a and the second driving end 13b respectively.
- the first transmission shaft 14a and the second transmission shaft 14b respectively drive the first louver synchronous transmission mechanism through the first synchronous shaft 15a and the second synchronous shaft 15b.
- the driving wheel 17 in the second louver synchronous transmission mechanism rotates, and the driving wheel 17 drives the synchronous belt 18.
- the synchronous belt 18 reverses the axial direction of the long ring beam 2 due to the cooperation between the driving wheel 17 and the driven wheel 22.
- the synchronous belts 18 on both sides are respectively located on both sides of the louver top assembly, and are fixedly arranged in combination with the rotating shaft 10 in each louver blade 4 to cooperate with the rotating seat 10 on the synchronous belt 18, so that each louver blade 4 passes through the synchronous belt 18. Realize the opening and covering from the fixed end 11 along the free end 12. Combined with the X-shaped change operation of the end cover 5 and the connecting piece 6, the louver blade 4 gradually changes from the upright state to the horizontal state until complete coverage is achieved, so that the canopy roof is completed. Covering of louvers 4.
- the driving wheel base 19 is provided with a driving wheel cavity, and the driving wheel cavity is used to fit the driving wheel 17.
- the upper part of the driving wheel cavity is also equipped with an anti-jumping gear piece 20.
- the anti-jumping gear piece 20 A limit plate 21 is provided on the top, and the limit plate 21 covers the upper part of the synchronous belt 18 that is driven and matched with the driving wheel 17; the optimized design
- the anti-jump tooth component 20 is designed to cover the upper part of the synchronous belt 18 with the limiting plate 21, so that the synchronous belt 18 continues to drive along with the driving wheel 17, thereby preventing the synchronous belt 18 from jumping and increasing the stability of the transmission.
- a rain sensor 25 is also included.
- the rain sensor 25 is used to collect rain information and transmit the collected signals to the controller of the servo control motor 13.
- the controller controls the rain sensor according to the rain sensor.
- the signal transmitted by 25 drives the servo control motor 13 to realize the closing of the canopy; the rain sensor 25 is optimized and designed.
- the rain sensor 25 adopts a sensor commonly used in the existing technology to detect humidity and rain in the environment. During the data detection process , through wire or wireless signal transmission technology, signal connection with the controller in the servo control motor 13 is achieved, and combined with environmental changes, the covering and closing of the louver blades 4 in the louver top assembly can be realized.
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- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Power-Operated Mechanisms For Wings (AREA)
- Specific Sealing Or Ventilating Devices For Doors And Windows (AREA)
- Building Awnings And Sunshades (AREA)
Abstract
Description
Claims (19)
- 一种同步转动伸缩式百叶顶帐篷,包括脚管,及设置在脚管上部的长圈梁和短圈梁,其特征在于,所述长圈梁和短圈梁组合构成篷顶腔,所述篷顶腔内安装有百叶顶组件,所述百叶顶组件包括百叶片、与百叶片两端配合安装的端盖及与端盖铰接设置的连接片,若干所述端盖和用以与端盖对应安装的连接片相互配合可实现伸缩联动,并用以带动对应安装的百叶片完成翻转;当端盖和连接片配合实现伸展时,所述百叶顶组件中若干的百叶片逐步向水平展开并完成对篷顶腔的覆盖;当端盖和连接片配合实现收缩时,所述百叶顶组件中若干的百叶片逐步向竖向翻转并向一端收缩。
- 如权利要求1所述的一种同步转动伸缩式百叶顶帐篷,其特征在于,所述端盖与连接片中部铰接配合并形成可形变交叉结构。
- 如权利要求2所述的一种同步转动伸缩式百叶顶帐篷,其特征在于,所述端盖与连接片中部均设有装配孔,所述装配孔通过转动轴贯穿实现端盖与连接片的铰接配合。
- 如权利要求3所述的一种同步转动伸缩式百叶顶帐篷,其特征在于,所述端盖呈Z字型设置。
- 如权利要求3所述的一种同步转动伸缩式百叶顶帐篷,其特征在于,所述转动轴上还配合设有滚轮,所述滚轮用以与滑槽滑动配合,所述滑槽位于所述长圈梁侧壁上。
- 如权利要求1至5中任意一项所述的一种同步转动伸缩式百叶顶帐篷,其特征在于,百叶顶组件一端为固定端,另一端为自由端,所述自由端处的百叶片通过端盖和连接片的伸缩配合可逐步向固定端靠近或远离。
- 如权利要求6所述的一种同步转动伸缩式百叶顶帐篷,其特征在于,还包括传动件,所述传动件用以联动端盖和连接片实现伸缩运动。
- 如权利要求7所述的一种同步转动伸缩式百叶顶帐篷,其特征在于,所述传动件采用同步带、链条、丝杆、联动杆、齿条中的任意一种。
- 如权利要求8所述的一种同步转动伸缩式百叶顶帐篷,其特征在于,所 述传动件通过手摇蜗杆驱动或电机驱动或气杆驱动。
- 一种伺服电动驱动开合的帐篷,其特征在于,包括权利要求1至9中任意一项所述的同步转动伸缩式百叶顶帐篷,还包括电机驱动机构。
- 如权利要求10所述的一种伺服电动驱动开合的帐篷,其特征在于,所述电机驱动机构包括伺服控制电机,所述伺服控制电机包括第一驱动端和第二驱动端,所述第一驱动端用以对应配合第一驱动组件,所述第二驱动端用以对应配合第二驱动组件,所述第一驱动端和所述第二驱动端为同步传动。
- 如权利要求11所述的一种伺服电动驱动开合的帐篷,其特征在于,所述第一驱动组件包括第一传动轴和第一百叶同步传动机构,所述第二驱动组件包括第二传动轴和第二百叶同步传动机构,所述第一百叶同步传动机构和所述第二百叶同步传动机构分别对应与两条长圈梁配合。
- 如权利要求12所述的一种伺服电动驱动开合的帐篷,其特征在于,所述伺服控制电机通过电机支架安装于短圈梁上,所述伺服控制电机呈居中设置,第一驱动组件和第二驱动组件以所述伺服控制电机为中心对称设置。
- 如权利要求13所述的一种伺服电动驱动开合的帐篷,其特征在于,还包括雨水传感器,所述雨水传感器用以采集雨水信息,并将采集的信号传输至伺服控制电机的控制器内,所述控制器根据所述雨水传感器传输的信号驱动所述伺服控制电机驱动,从而实现对篷顶的闭合。
- 如权利要求13所述的一种伺服电动驱动开合的帐篷,其特征在于,第一传动轴、第二传动轴均沿短圈梁同轴向设置,所述伺服控制电机通过电机支架安装于相邻固定端处的短圈梁上。
- 如权利要求12所述的一种伺服电动驱动开合的帐篷,其特征在于,所述第一百叶同步传动机构和所述第二百叶百叶同步传动机构采用相同结构,包括主动轮、从动轮和同步带,所述同步带随着所述主动轮转动实现同步带的移动。
- 如权利要求16所述的一种伺服电动驱动开合的帐篷,其特征在于,所述主动轮通过主动轮座安装于长圈梁相邻于固定端处,所述从动轮通过从动轮座安装于长圈梁相邻于自由端处,所述同步带沿长圈梁同轴向设置,所述同步 带通过转动座与百叶片中的转动轴配合安装,所述转动座随着所述同步带的移动带动百叶片实现同步收缩翻转或开展覆盖。
- 如权利要求17所述的一种伺服电动驱动开合的帐篷,其特征在于,所述主动轮座上设有主动轮腔,所述主动轮腔内用以配合安装主动轮,所述主动轮腔上部还配合设有防跳齿件,所述防跳齿件上设有限位板,所述限位板覆盖于与主动轮传动配合的同步带上部。
- 如权利要求18所述的一种伺服电动驱动开合的帐篷,其特征在于,所述第一传动轴通过第一同步轴与第一百叶同步传动机构中的主动轮配合安装,所述第一传动轴带动第一同步轴转动,所述第一同步轴带动第一百叶同步传动机构中的主动轮转动;所述第二传动轴通过第二同步轴与第二百叶同步传动机构中的主动轮配合安装,所述第二传动轴带动第二同步轴转动,所述第二同步轴带动第二百叶同步传动机构中的主动轮转动。
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