CN113107148B

CN113107148B - Outdoor ceiling that facilitates use

Info

Publication number: CN113107148B
Application number: CN202110416759.8A
Authority: CN
Inventors: 沈九美; 何心一; 史敏丽
Original assignee: Nantong Institute of Technology
Current assignee: Nantong Institute of Technology
Priority date: 2021-04-19
Filing date: 2021-04-19
Publication date: 2022-04-12
Anticipated expiration: 2041-04-19
Also published as: CN113107148A

Abstract

The invention discloses a conveniently-used outdoor ceiling which comprises a supporting structure and a telescopic covering mechanism, wherein the telescopic covering mechanism comprises a partition sliding rod and a covering sheet, the middle part of the partition sliding rod is protruded, the end heads of the two ends of the partition sliding rod are respectively connected with a sliding mechanism, and a guide rail is arranged on a horizontal supporting rod of the supporting structure along the extending direction of the horizontal supporting rod; a guide groove is formed in the guide rail, and an open slot is formed in the inner side wall of the guide groove; the sliding mechanism comprises a guide rail, a first connecting part, a second connecting part, a rotating shaft, a swinging assembly and a sliding mechanism, wherein the first connecting part of the sliding mechanism is arranged in the guide groove in a sliding manner, the second connecting part connected with the first connecting part penetrates through an open slot and is arranged outside the guide groove, a plurality of vertical sliding parts used for sharing the vertical stress of the separated sliding rod are rotatably arranged on the first connecting part through the rotating shaft, and a horizontal sliding part used for sharing the horizontal stress of the separated sliding rod is movably arranged on the second connecting part through the swinging assembly.

Description

Outdoor ceiling that facilitates use

Technical Field

The invention relates to the technical field of covering devices, in particular to an outdoor ceiling convenient to use.

Background

The outdoor ceiling is a sun-shading and rain-shading device used for outdoor facilities and outdoor activities. Existing outdoor ceilings typically have a retractable roof structure that when deployed can shade objects below the ceiling, and when retracted, the ceiling can be opened at its upper end for more lighting or vision.

The open air ceiling includes vertical support and the horizontal support piece of setting in the vertical support piece top usually, and flexible cover the curtain through slider slidable mounting on horizontal support piece's guided way, for the convenience leads for giving the rainwater, also avoids rubbish to pile up in the top of flexible cover the curtain, and the top of flexible cover the curtain sets up middle bellied camber line structure usually. This brings with it some disadvantages:

most of sliding devices are arranged on the guide rail in a sliding mode through vertical rollers, however, due to the special curved surface shape of the telescopic covering curtain, under the action of gravity, or when the top surface of the telescopic covering curtain is influenced by meteorological factors, such as strong wind and the like, a lateral stress can be formed on the sliding device, the stress can increase the friction force between the sliding device and the side wall of the guide rail, the sliding smoothness of the sliding device is influenced, and the telescopic covering curtain can be blocked in the telescopic process; in order to overcome the horizontal stress, a sliding wheel which slides in the horizontal direction and acts on the side wall of the guide rail is also arranged on a part of the ceiling on the sliding device, and the sliding wheel frequently slides on the side wall of the guide rail, so that the horizontal sliding wheel is abraded, and the sliding wheel needs to be frequently replaced, which wastes time and labor.

Disclosure of Invention

Therefore, the invention provides an outdoor ceiling convenient to use, so as to solve the defects in the prior art.

A conveniently-used outdoor ceiling comprises a supporting structure and a telescopic covering mechanism arranged above the supporting structure, wherein the supporting structure comprises two horizontal supporting rods which are arranged in parallel and a vertical supporting column arranged below the horizontal supporting rods, the telescopic covering mechanism comprises a plurality of separating sliding rods which are connected in parallel and have convex middle parts and covering pieces which are arranged on the separating sliding rods and are sequentially connected with each other and can be supported above the supporting structure, the end heads at the two ends of each separating sliding rod are respectively connected with a sliding mechanism, guide rails are arranged on the horizontal supporting rods along the extending direction of the horizontal supporting rods, and the sliding mechanisms slide along the corresponding guide rails;

a guide groove is formed in the guide rail, and an open groove is formed in the inner side wall of the guide groove;

the sliding mechanism comprises a sliding block connected to the end head, the sliding block comprises a first connecting part and a second connecting part which are connected with each other, the first connecting part is arranged inside the guide groove in a sliding mode, the second connecting part penetrates through the open groove and is arranged outside the guide groove, a plurality of vertical sliding parts used for sharing the vertical stress of the separation sliding rod are rotatably arranged on the first connecting part through rotating shafts, a horizontal sliding part is movably arranged on the second connecting part through a swinging assembly, the upper end of the swinging assembly is fixedly connected with the end head, and the horizontal sliding part abuts against the side wall of the supporting structure to share the horizontal stress of the separation sliding rod;

the swing assembly comprises a second connecting hole and a shaft pin, the second connecting hole is arranged in the second connecting part in a direction parallel to the horizontal supporting rod, the shaft pin is rotatably installed in the second connecting hole, a third connecting hole is vertically arranged at the top end of the second connecting part, the diameter of the third connecting hole is larger than that of the second connecting hole, the third connecting hole is communicated with the second connecting hole at the lower end of the second connecting hole, a threaded hole is formed in the position, corresponding to the lower end of the second connecting hole, of the shaft pin, a rotating pin is installed in the threaded hole in a matched mode, the upper end of the rotating pin is fixedly connected with the end head, and the horizontal sliding part is rotatably installed on the rotating pin;

two groups of lateral sliding wheels are symmetrically arranged on the first connecting portion, and the lateral sliding wheels can be in contact with the inner groove wall of the guide groove.

Preferably, the upper end fixed mounting of swivel pin has the connecting block, the end is installed through first lock nut the inside wall of connecting block, be provided with the first connecting hole of vertical distribution on the connecting block, swivel pin passes through second lock nut fixed mounting in the first connecting hole.

Preferably, the guide rail is limited by a side wall supporting block fixedly mounted on the horizontal supporting rod, the horizontal sliding part comprises a horizontal roller, the horizontal roller is rotatably sleeved on the rotating pin, and the inner side wall of the horizontal roller abuts against the supporting wall on one side of the open slot on the inner side of the side wall supporting block.

Preferably, the number of the vertical sliding parts is at least 3, one pair of the vertical sliding parts is distributed on the same plane in an aligned mode, the other vertical sliding part is arranged in a manner of offsetting relative to the first pair of the vertical sliding parts, the rotating shafts of the three vertical sliding parts are positioned on the same horizontal plane, the upper end and the lower end of each vertical sliding part are limited by the upper groove wall and the lower groove wall of the guide groove respectively, and a limiting groove used for guiding the vertical sliding parts is arranged in each guide groove.

Preferably, the upper surface of first connecting portion is provided with a plurality of wheel seats, rotate among the wheel seat and install the running roller, the roller shaft of running roller is on a parallel with the direction of separating the slide bar extension, and the upper surface of running roller can the last cell wall of open slot slides.

Preferably, the upper surface and the lower surface of the sliding mechanism are respectively connected with a top blocking brush and a bottom blocking brush, the top end of the top blocking brush is abutted against the lower surface of the side wall supporting block outside the open slot, and the lower end of the bottom blocking brush is abutted against the supporting structure.

Preferably, the inner side wall of the horizontal support rod below the telescopic covering mechanism is provided with a drainage groove.

Preferably, the sliding mechanism is driven by a power assembly to slide along the guide rail.

Preferably, the side sliding wheel is rotatably mounted on the first coupling part by a third locking nut.

The invention has the following advantages:

according to the invention, through the matching of the sliding mechanism, the sliding block and the pulleys, the separating sliding rod with the middle protruding arc-shaped structure adjusts each sliding component acting on the guide rail according to the downward inclined stress F of a specific magnitude acting on the end part of the separating sliding rod under the influence of gravity or external environment factors, specifically: the stress F of the vertical direction of F decomposition can be shared by the vertical sliding part, and the stress F of the horizontal direction of F decomposition is shared by the horizontal sliding part, on the one hand, reduces the frictional force between the sliding mechanism at the two ends of the partition sliding rod and the guide rail, avoids the occurrence of the shell clamping phenomenon in the sliding process, on the other hand, reduces the abrasion of the guide rail to each sliding part, and therefore the service life of the whole outdoor ceiling is prolonged.

Drawings

FIG. 1 is an overall perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a cross-sectional view of an enlarged detail of the end of FIG. 2 of the present invention;

FIG. 4 is a partial perspective view of the present invention;

fig. 5 is an exploded view of fig. 4 of the present invention.

In the figure:

11-a telescopic cover mechanism; 12-a cover sheet; 14-a support structure; 16-horizontal support bar; 18-vertical support columns;

20-a divided sliding bar; 23-a drainage groove; 24-a tip; 28-a sliding mechanism;

30-sidewall support blocks; 32-a guide rail; 33-a guide groove; 34-a slider; 35-an open slot; 36-a vertical slide; 37-a rotating shaft; 38-a limiting groove; 39-a support wall;

40-horizontal sliding piece; 41-horizontal roller; 42-rotation pin; 43-a first connection; 44-a second connection; 45-connecting blocks; 46-a first locking nut; 48-a swing assembly; 49-axle pin;

50-a second connection hole; 51-third connection hole; 52-a threaded hole; 53-a second lock nut; 54-a first connection aperture; 55-wheel seat;

62-a lateral sliding wheel; 63-a third lock nut; 64-roller;

70-top blocking brush; 72-bottom brush.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 5, the invention provides a conveniently used outdoor ceiling, which can reduce the phenomenon of shell clamping during the extension and contraction of a telescopic covering mechanism on the upper part of the ceiling, avoid frequent replacement of pulleys and prolong the service life of the ceiling. Specifically, the method comprises the following steps:

the outdoor ceiling comprises a support structure 14 and a telescopic cover mechanism 11 arranged above said support structure 14.

The support structure 14 includes two horizontal support bars 16 disposed parallel to each other and a vertical support column 18 disposed below the horizontal support bars 16.

The retractable covering mechanism 11 comprises a plurality of separating sliding rods 20 which are connected in parallel and have a convex middle part, and covering sheets 12 which are arranged on the separating sliding rods 20 and are sequentially connected with each other and can be supported above the supporting structure 14. The partitioning slide bar 20 extends in the direction of the Z-axis, and the bending of the partitioning slide bar 20 is located at the position P in the drawing. The length of the dividing slide 20 is about 1m to 6m in consideration of practical use.

The covering sheets 12 are lapped above the plurality of partition sliding rods 20, and when the plurality of partition sliding rods 20 are contracted, the covering sheets 12 on the plurality of partition sliding rods are mutually gathered; when the plurality of divided sliding rods 20 are unfolded, the covering sheets 12 thereon are unfolded.

The two end heads 24 of the partition sliding rod 20 are respectively connected with a sliding mechanism 28, the horizontal support rod 16 is provided with a guide rail 32 along the extending direction thereof, and the sliding mechanism 28 slides along the corresponding guide rail 32. The sliding mechanism 28 is driven by a power assembly (not shown) to slide along the guide rail 32. The above are common construction modes of the existing ceiling.

In the invention, a guide groove 33 is arranged inside the guide rail 32, and an opening groove 35 is arranged on the inner side wall of the guide groove 33;

the sliding mechanism 28 comprises a sliding block 34 connected to the end head 24, the sliding block 34 comprises a first connecting portion 43 and a second connecting portion 44 which are connected to each other, the first connecting portion 43 is slidably disposed inside the guide groove 33, the second connecting portion 44 passes through the opening groove 35 and is disposed outside the guide groove 33, and a plurality of vertical sliding members 36 used for sharing the vertical stress F1 of the partition sliding rod 20 are rotatably mounted on the first connecting portion 43 through a rotating shaft 37. The vertical sliding members 36 are rollers, and the roller axes Y of the vertical sliding members 36 are parallel to each other and are located on the same horizontal plane. The vertical sliding member 36 can reduce friction between the first connecting portion 43 of the sliding block 34 and the guide groove 33, and reduce internal wear of the guide rail 32.

The number of the vertical sliding members 36 is at least 3, wherein a pair of the vertical sliding members 36 are distributed on the same plane in an aligned manner, the other vertical sliding member 36 is arranged in a manner of offsetting relative to the first pair of the vertical sliding members 36, the rotating shafts 37 of the three vertical sliding members 36 are positioned on the same horizontal plane, the upper end and the lower end of each vertical sliding member 36 are limited by the upper groove wall and the lower groove wall of the guide groove 33 respectively, and a limiting groove 38 for guiding the vertical sliding members 36 is arranged in each guide groove 33. The limiting groove 38 can make the sliding of the vertical sliding member 36 smoother.

The second connecting portion 44 is movably provided with a horizontal sliding member 40 through a swinging assembly 48, the upper end of the swinging assembly 48 is fixedly connected with the end head 24, and the horizontal sliding member 40 abuts against the side wall of the supporting structure 14 to share the horizontal stress F2 of the partition sliding rod 20.

In fact, the external force acting on the dividing slide bar 20 will create at its end a force F sloping downwards, which can be resolved into a vertical stress F1 and a horizontal stress F2.

Two sets of lateral sliding wheels 62 are symmetrically arranged on the first connecting portion 43, and the lateral sliding wheels 62 can contact with the inner groove wall of the guide groove 33. The side sliding wheel 62 is rotatably mounted on the first coupling portion 43 by a third locking nut 63.

Specifically, the method comprises the following steps: the swing assembly 48 includes a second connecting hole 50 parallel to the horizontal support bar 16 on the second connecting portion 44 and a shaft pin 49 rotatably mounted in the second connecting hole 50, a third connecting hole 51 with a diameter larger than that of the second connecting hole 50 and communicated with the second connecting hole 50 at the lower end is vertically disposed at the top end of the second connecting portion 44, a threaded hole 52 is formed in a position on the shaft pin 49 corresponding to the lower end of the second connecting hole 50, a rotation pin 42 is mounted in the threaded hole 52 in a matching manner, the rotation pin 42 further defines the shaft pin 49, and the shaft pin 49 is prevented from slipping out of the second connecting hole 50.

The upper end of the rotating pin 42 is fixedly connected with the end head 24, and the horizontal sliding member 40 is rotatably installed on the rotating pin 42.

The upper end fixed mounting of swivel pin 42 has connecting block 45, end 24 is installed through first lock nut 46 the inside wall of connecting block 45, be provided with vertical distribution's first connecting hole 54 on the connecting block 45, swivel pin 42 is through second lock nut 53 fixed mounting in first connecting hole 54.

Further, the guide rail 32 is defined by a side wall support block 30 fixedly installed on the horizontal support bar 16, the horizontal sliding member 40 includes a horizontal roller 41, the horizontal roller 41 is rotatably sleeved on the rotation pin 42, and an inner side wall of the horizontal roller 41 abuts against a support wall 39 on one side of the open slot 35 inside the side wall support block 30. The axis of rotation of the horizontal roller 41 is an axis X, which is substantially orthogonal to the Z-axis.

The upper surface of the first connecting portion 43 is provided with a plurality of roller seats 55, rollers 64 are rotatably mounted in the roller seats 55, the roller shafts of the rollers 64 are parallel to the extending direction of the partition sliding rod 20, and the upper surfaces of the rollers 64 can slide on the upper groove walls of the opening grooves 35. The roller 64 is configured to facilitate sliding of the slide block 34 in a case where the slide block 34 contacts the groove wall of the open groove 35 of the guide rail 32 due to being subjected to stress.

In order to avoid the influence on the service life of each component caused by the infiltration of rainwater or impurities into the guide rail 32, the upper and lower surfaces of the sliding mechanism 28 are respectively connected with a top brush 70 and a bottom brush 72, and the top end of the top brush 70 abuts against the lower surface of the sidewall support block 30 outside the open slot 35, in the embodiment of the present invention, the lower end of the top brush 70 is installed on the second connection portion 44, and the top brush 70 can prevent rainwater falling from the end 24 of the partition sliding rod 20 from permeating into the guide slot 33 from the open slot 35;

the lower end of the bottom brush 72 abuts against the support structure 14, in the embodiment of the present invention, the upper end of the bottom brush 72 is connected to the inner lower surface of the second connecting portion 44, and the bottom brush 72 can prevent rainwater from penetrating below the second connecting portion 44 and penetrating into the guide groove 33 from the open groove 35. Preferably, the top wiper 70 and the bottom wiper 72 are made of plastic rubber, and have waterproof property.

The inner side wall of the horizontal support bar 16 below the telescopic cover mechanism 11 is provided with a drainage groove 23. The drainage grooves 23 can drain rainwater which flows into the inner side of the sliding mechanism 28 and penetrates below the partition sliding rod 20, so that the interior of the device is dried, and the service life of the device is prolonged.

The working principle of the device is as follows:

since the partition sliding rod 20 has a middle convex arc structure, under the influence of gravity or external environment, the partition sliding rod 20 generates a downward inclined stress F to the sliding mechanisms 28 at both ends, the vertical stress F1 of F decomposition can be shared by the vertical sliding member 36, and the horizontal stress F2 of F decomposition is shared by the horizontal sliding member 40. Specifically, the method comprises the following steps:

when the power assembly drives the sliding mechanisms 28 at the two ends of the partition sliding rod 20 to slide along the guide rails 32 for contraction or expansion, the horizontal stress F2 makes the rotating pin 42 fixedly connected to the end 24 of the partition sliding rod 20 swing outwards with the lower end thereof as the rotating axis, the horizontal roller 41 sleeved on the rotating pin 42 rolls against the supporting wall 39 at the inner side of the sidewall supporting block 30 to counteract part of the stress F2, and the horizontal roller 41 can simultaneously guide the sliding track of the vertical sliding member 36, so as to prevent the vertical sliding member 36 from sliding left and right, and reduce the wear between the vertical sliding member 36 and the guide rails 32. Thereby reducing the friction between the slide mechanism 28 and the guide rail 32 and allowing the slide mechanism 28 to slide smoothly along the guide rail 32.

Since the lower end of the rotation pin 42 is connected to the inside of the shaft pin 49, when the rotation pin 42 swings, the shaft pin 49 connected to the lower portion thereof rotates along the axis of the second connection hole 50, and gives a reverse force to the second connection portion 44, that is, the second connection portion 44 can rotate along the rotation axis parallel to the direction in which the guide rail 32 extends in the axial direction, that is, the slide block 34 can rotate relative to the connection block 45, and the swing angle of the rotation is preferably 0 ° to 5 ° in the embodiment of the present invention.

The horizontal stress resolved by the reverse force can make the side wall of the first connecting portion 43 connected with the second connecting portion 44 where the second connecting hole 50 is located abut against the side wall of the guide groove 33, and the side sliding wheel 62 rotatably connected with the first connecting portion 43 rolls relative to the side wall of the guide groove 33, so that the stress is offset. On the one hand, the side sliding wheels 62 prevent the sliding mechanisms 28 at the two ends of the partition sliding rod 20 from sliding along the guide rails 32 in an unbalanced manner, so that the end head 24 at one end of the partition sliding rod 20 slides faster relative to the end head 24 at the other end; on the other hand, the lateral sliding wheel 62 can be mounted with a substantially idle rotation along a rotation axis parallel to the axis X when it is not subjected to lateral stresses, but acts on the side wall of the guide groove 33 only when it is subjected to lateral stresses, reducing both the wear on the lateral sliding wheel 62 and the friction of the sliding mechanism 28 with respect to the guide rail 32, increasing the service life of the device.

In summary, the device of the present invention can adjust each sliding component acting on the guide rail 32 according to the stress with a specific magnitude received at the two ends of the partition sliding rod 20, reduce the friction between the sliding mechanisms 28 at the two ends of the partition sliding rod 20 and the guide rail 32, reduce the abrasion of the guide rail 32 to each sliding member, and thus improve the service life of the whole outdoor ceiling.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims

1. The utility model provides an outdoor ceiling that facilitates use, is in including bearing structure (14) and setting the flexible mechanism (11) that covers in bearing structure (14) top, bearing structure (14) include two mutual parallel arrangement's horizontal support pole (16) and set up vertical support post (18) of horizontal support pole (16) below, flexible mechanism (11) that covers includes a plurality of mutual parallel connection and the bellied division slide bar (20) in middle part and set up and be in it can support to separate to connect in order on the slide bar (20) cover piece (12) of bearing structure (14) top, its characterized in that: the two end heads (24) of the separating sliding rod (20) are respectively connected with a sliding mechanism (28), a guide rail (32) is arranged on the horizontal supporting rod (16) along the extending direction of the horizontal supporting rod, and the sliding mechanism (28) slides along the corresponding guide rail (32);

a guide groove (33) is formed in the guide rail (32), and an open groove (35) is formed in the inner side wall of the guide groove (33);

the sliding mechanism (28) comprises a sliding block (34) connected to the end head (24), the sliding block (34) comprises a first connecting part (43) and a second connecting part (44) which are connected with each other, the first connecting part (43) is arranged inside the guide groove (33) in a sliding way, the second connecting portion (44) is disposed outside the guide groove (33) through the open groove (35), a plurality of vertical sliding pieces (36) for sharing the vertical stress of the separation sliding rod (20) are rotatably arranged on the first connecting part (43) through a rotating shaft (37), a horizontal sliding piece (40) is movably arranged on the second connecting part (44) through a swinging component (48), the upper end of the swinging component (48) is fixedly connected with the end head (24), the horizontal sliding element (40) rests against the lateral wall of the supporting structure (14) to share the horizontal stress of the separating sliding bar (20);

the swing assembly (48) comprises a second connecting hole (50) and a shaft pin (49), the second connecting hole (50) is arranged on the second connecting portion (44) in a direction parallel to the horizontal supporting rod (16), the shaft pin (49) is rotatably installed in the second connecting hole (50), a third connecting hole (51) which is larger than the second connecting hole (50) in diameter and is communicated with the second connecting hole (50) at the lower end is vertically arranged at the top end of the second connecting portion (44), a threaded hole (52) is formed in the position, corresponding to the lower end of the second connecting hole (50), of the shaft pin (49), a rotating pin (42) is installed in the threaded hole (52) in a matched mode, the upper end of the rotating pin (42) is fixedly connected with the end head (24), and the horizontal sliding piece (40) is rotatably installed on the rotating pin (42);

two groups of lateral sliding wheels (62) are symmetrically arranged on the first connecting part (43), and the lateral sliding wheels (62) can be in mutual contact with the inner groove wall of the guide groove (33).

2. A conveniently used outdoor ceiling according to claim 1, characterized in that: the upper end fixed mounting of swivel pin (42) has connecting block (45), end (24) are installed through first lock nut (46) the inside wall of connecting block (45), be provided with vertical distribution's first connecting hole (54) on connecting block (45), swivel pin (42) are in through second lock nut (53) fixed mounting in first connecting hole (54).

3. A conveniently used outdoor ceiling according to claim 1, characterized in that: the guide rail (32) is limited by a side wall supporting block (30) fixedly mounted on the horizontal supporting rod (16), the horizontal sliding part (40) comprises a horizontal roller (41), the horizontal roller (41) is rotatably sleeved on the rotating pin (42), and the inner side wall of the horizontal roller (41) is abutted against a supporting wall (39) on one side of the open slot (35) on the inner side of the side wall supporting block (30).

4. A conveniently used outdoor ceiling according to claim 1, characterized in that: the number of the vertical sliding pieces (36) is at least 3, wherein a pair of the vertical sliding pieces (36) are distributed on the same plane in an aligned mode, the other vertical sliding piece (36) is arranged in a deviation mode relative to the first pair of the vertical sliding pieces (36), the rotating shafts (37) of the three vertical sliding pieces (36) are located on the same horizontal plane, the upper end and the lower end of each vertical sliding piece (36) are limited by the upper groove wall and the lower groove wall of the guide groove (33), and the guide groove (33) is internally provided with a limiting groove (38) used for guiding the vertical sliding pieces (36).

5. A conveniently used outdoor ceiling according to claim 1, characterized in that: the upper surface of first connecting portion (43) is provided with a plurality of wheel seats (55), rotation installs running roller (64) in wheel seat (55), the roller of running roller (64) is on a parallel with the direction of separating slide bar (20) extension, and the upper surface of running roller (64) can the last cell wall of open slot (35) slides.

6. A conveniently used outdoor ceiling according to claim 3, characterized in that: the upper surface and the lower surface of the sliding mechanism (28) are respectively connected with a top blocking brush (70) and a bottom blocking brush (72), the top end of the top blocking brush (70) is abutted against the lower surface of the side wall supporting block (30) on the outer side of the open slot (35), and the lower end of the bottom blocking brush (72) is abutted against the supporting structure (14).

7. A conveniently used outdoor ceiling according to claim 1, characterized in that: and a drainage groove (23) is formed in the inner side wall of the horizontal support rod (16) below the telescopic cover mechanism (11).

8. A conveniently used outdoor ceiling according to claim 1, characterized in that: the sliding mechanism (28) is driven by a power assembly to slide along the guide rail (32).

9. A conveniently used outdoor ceiling according to claim 1, characterized in that: the lateral sliding wheel (62) is rotatably mounted on the first connecting part (43) through a third locking nut (63).