CN215564914U - Canopy structure of awning - Google Patents

Abstract

The utility model discloses a canopy structure of a cool canopy, which relates to the field of cool canopies, wherein a main body of the canopy structure is provided with a keel and a canopy surface, the keel supports the canopy surface to form a canopy, the canopy surface is provided with a hard plate and a canopy cloth, the hard plate and the canopy cloth are both connected with the keel to form the canopy structure with double canopy surfaces, the canopy structure is novel in structure and is more easily favored by consumers, the hard plate is placed in a first cavity arranged on the keel and is fixedly connected with the keel, the canopy cloth is movably connected with the keel, so that the position of the canopy cloth relative to the keel is adjustable, the addition of the hard plate is also beneficial to reinforcing the connection firmness of the canopy surface and the keel, the integral stability of the canopy is improved, and the practicability is higher.

Description

Canopy structure of awning

Technical Field

The utility model relates to the field of awnings, in particular to a roof structure of an awning.

Background

The use of awnings is becoming more and more widespread, and particularly, the awnings are used in large quantities on the beaches of coastal cities or cold drink stalls. However, the awning used in the current market is mostly constructed by awning cloth and supporting rods, and the connection stability of the whole awning is poor, so that under the condition of awning cloth wind, the situation of being blown and turned over by wind easily occurs, and the single-layer awning consisting of the awning cloth and the supporting rods is single in structure, cannot be adjusted by the awning cloth, and is not high in practicability, so that a more stable novel awning structure needs to be designed.

SUMMERY OF THE UTILITY MODEL

In order to solve the above technical problems, an object of the present invention is to provide a canopy structure of a canopy, which solves the problems of insufficient firmness of the entire canopy and a single structure, and has high practicability.

In order to achieve the purpose, the technical scheme adopted by the utility model is as follows: the main body of the canopy structure is provided with a keel and a canopy surface, the keel is connected with the canopy surface, the canopy surface comprises a hard board and a canopy cloth, the hard board is fixedly connected with the keel, the canopy cloth is movably connected to the keel, the hard board and the canopy cloth are combined to form a double canopy surface structure, the keel is provided with a first cavity, and the end part of the hard board is matched and arranged in the first cavity.

Through adopting above-mentioned technical scheme, fossil fragments support the tarpaulin and form the canopy, and the tarpaulin is provided with hardboard and tarpaulin, hardboard and tarpaulin all are connected the canopy structure that forms to have two tarpaulins with fossil fragments, novel structure, receive consumer's favor more easily, wherein the hardboard place in the first cavity that sets up on fossil fragments and with fossil fragments fixed connection, tarpaulin swing joint in fossil fragments, make the tarpaulin adjustable for fossil fragments position, the interpolation of hardboard, still help consolidating the firm in connection degree of tarpaulin and fossil fragments, improve the whole steadiness of canopy, the practicality is higher.

Preferably, the keel comprises side straight rods and top beams, the side straight rods are at least provided with two side straight rods, the keel is provided with a connecting piece, the connecting piece is connected with the top beams, and the connecting piece is connected with the top beams and the side straight rods.

Through adopting above-mentioned technical scheme, the side straight pole is the side lever about the fossil fragments, and the back timber is used for supporting the fossil fragments top, and the back timber passes through the connecting piece with the side straight pole and realizes fixed connection.

Preferably, the keel is provided with a middle straight rod, the middle straight rod is positioned between the side straight rods, and the middle straight rod is connected with the top beam through a connecting piece.

By adopting the technical scheme, the middle straight rod forms a middle rod of the keel, and the middle straight rod is connected with the top beam and can be used for enhancing the overall strength of the keel.

Preferably, the keel is provided with an edge rod, the edge rod and the top beam are respectively positioned at two ends of the side straight rod and the middle straight rod, a first end seal is arranged between the side straight rod and the edge rod, and a second end seal is arranged between the middle straight rod and the edge rod.

Through adopting above-mentioned technical scheme, form fossil fragments bottom side lever along the pole, set up along pole and back timber relatively, seal through first end, second end respectively along pole and side straight-bar, well straight-bar and connect for further strengthen its whole steadiness ability that forms the fossil fragments.

Preferably, a sealing strip is arranged in the first cavity and is located between the keel and the hard board.

Through adopting above-mentioned technical scheme, the interpolation of sealing strip for strengthen being connected of fossil fragments and hardboard.

Preferably, a soft strip is arranged on one side of the hard board and is positioned between the hard board and the keel.

Through adopting above-mentioned technical scheme, soft strip is used for keeping apart hardboard and fossil fragments, avoids both direct contact.

Preferably, the side straight rod is provided with a second cavity, the tarpaulin is connected with a sliding rod, the sliding rod is connected with a pulley block, and the pulley block is arranged in the second cavity.

Through adopting above-mentioned technical scheme, the slide bar is held to the second cavity, and the slide bar can move in the second cavity, and the slide bar is connected with the tarpaulin, makes the slide bar can drive the tarpaulin and remove along seting up the direction of second cavity, adds the assembly pulley on the slide bar, helps the smooth slip of slide bar.

Preferably, the tarpaulin is provided with a rotating mechanism, and the rotating mechanism is connected with the tarpaulin.

Through adopting above-mentioned technical scheme, slewing mechanism can drive the tarpaulin motion, makes it take place the rolling motion.

Preferably, the rotating mechanism is provided with a roller, the roller is movably connected below the top beam, and the tarpaulin rotates along with the roller and is wound on the surface of the roller.

Through adopting above-mentioned technical scheme, the tarpaulin follows the cylinder and rotates to take place the winding and the motion process on cylinder surface, simple structure.

Preferably, the roller is provided with a crack, the tarpaulin penetrates through the crack, and the tarpaulin is wound on the surface of the roller.

Through adopting above-mentioned technical scheme, the tarpaulin passes through the crack and is connected with the cylinder for under the cylinder pivoted condition, can drive the tarpaulin pivoted while, take place to convolute the motion on cylinder surface.

Compared with the prior art, the utility model has the advantages that: (1) the canopy consists of the keel and the canopy surface, the canopy surface is provided with the hard board and the canopy cloth, the hard board and the canopy surface are respectively connected with the keel, the canopy with a double-canopy-surface structure is formed, the structure is novel, the hard board is fixedly connected with the keel through the first cavity arranged on the keel and used for enhancing the connection stability of the keel and the canopy surface integrally, and the practicability is higher; (2) a soft strip is additionally arranged on one side of the hard board, so that the hard board can be isolated, and the hard board is prevented from being in direct contact with the keel; (3) tarpaulin swing joint in fossil fragments, the tarpaulin tip sets up the slide bar, and the slide bar tip sets up in the second cavity on the straight-bar of side for the roof structure that tarpaulin and fossil fragments form is more pleasing to the eye.

Drawings

FIG. 1 is a schematic structural view of example 1;

FIG. 2 is a sectional view of the roof rail and the drum of embodiment 1;

FIG. 3 is a schematic structural view of a side straight rod in embodiment 1;

FIG. 4 is a schematic structural view of a straight rod in example 1;

FIG. 5 is a reference diagram showing the state of use of embodiment 1;

FIG. 6 is a sectional view of a drum according to embodiment 2;

FIG. 7 is a schematic structural view of embodiment 2;

fig. 8 is a reference diagram of the use state of embodiment 2.

In the figure: 1-keel; 110-a top beam; 120-side straight rod; 130-a middle straight rod; 140-along the rod; 2-covering surface; 210-hard board; 220-tarpaulin; 3-a first cavity; 4-first end sealing; 5-second end sealing; 6-sealing strips; 7-soft strips; 8-a second cavity; 9-a slide bar; 10-a pulley block; 11-a rotation mechanism; 111-a drum; 112-a worm gear assembly; 12-crack; 13-a connecting rod; 14-transverse support.

Detailed Description

The utility model is described in further detail below with reference to the accompanying examples.

Example 1

The canopy structure of a cool canopy as shown in fig. 1 has a main body provided with a keel 1 and a canopy surface 2, and the keel 1 is connected with the canopy surface 2 to form the canopy.

The awning surface 2 is provided with a hard board 210 and awning cloth 220, the hard board 210 and the awning cloth 220 are both connected with the keel 1, and the awning cloth 220 is positioned below the hard board 210 to form an awning structure with double awning surfaces, so that the awning structure is novel in structure and is more easily favored by consumers.

Furthermore, keel 1 is provided with first cavity 3, and the cooperation of hardboard 210 tip sets up in first cavity 3, hardboard 210 and keel 1 fixed connection, and the holistic joint strength of roof can be strengthened to the addition of hardboard 210 to reduce the probability that the roof is blown and is turned over by wind.

Tarpaulin 220 swing joint is in fossil fragments 1, and flexible regulation can be realized to tarpaulin 220 position promptly.

In this embodiment, the keel 1 is provided with a connecting member, and the connecting member realizes that the keel 1 is spliced and fixed.

The keel 1 is provided with side straight rods 120 and a top beam 110, the connecting piece is arranged on the top beam 110, the side straight rods 120 are connected with the top beam 110 through the connecting piece, the side straight rods 120 are at least two, the embodiment takes four side straight rods 120 as an example for description, the four side straight rods 120 are respectively arranged symmetrically according to the positions shown in fig. 1, the side straight rods 120 are left and right side rods of the keel 1, the top beam 110 is used for supporting the top of the keel 1, and a certain included angle is formed between the side straight rods 120 on two sides of the top beam 110, so that the keel is similar to a roof ridge in shape.

The connecting piece is set as a connecting rod 13, the connecting rod 13 is integrally formed on the top beam 110, and the connecting rod 13 is matched, inserted and fixed on the side straight rod 120. Of course, the connecting rod 13 and the top beam can be provided as a separate connecting structure.

The keel 1 is provided with a middle straight rod 130, the middle straight rod 130 is located between the two side straight rods 120 and is arranged in parallel with the side straight rods 120, the middle straight rod 130 forms a middle rod of the keel 1, the middle straight rod 130 is connected with the top beam 110, a plurality of middle straight rods 130 can be arranged, in the embodiment, three middle straight rods 130 are respectively connected with the top beam 110 as an example for description, as shown in fig. 1, the middle straight rods 130 are fixedly connected with the top beam 110 through connecting members, and the connecting members are preferably but not limited to the connecting members 13.

The keel 1 is further provided with a side bar 140, as shown in fig. 1, the side bar 140 is arranged parallel to the top beam 110, the side bar 140 and the top beam 110 are respectively arranged at two ends of the side straight bar 120 and the middle straight bar 130, and a bottom side bar of the keel 1 is formed along the bar 140.

A first end seal 4 is arranged between the edge rod 140 and the side straight rod 120, a second end seal 5 is arranged between the edge rod 140 and the middle straight rod 130, the first end seal 4 and the second end seal 5 are respectively fixedly connected with the edge rod 140, the side straight rod 120 and the middle straight rod 130, and the keel 1 formed through the connection structure has better overall stability.

The lateral straight bars 120 are connected with transverse supports 14, as shown in fig. 1, the transverse supports 14 are arranged parallel to the top beam 110 and transversely connected between the lateral straight bars 120, the transverse supports 14 are located below the middle straight bars 130, and the transverse supports 14 are used for further reinforcing the overall connection stability of the keel 1.

The keel 1 is provided with a first cavity 3, the first cavity 3 is arranged on the side wall of the top beam 110 of the keel 1, and the end part of the hard plate 210 is clamped and fixed in the first cavity 3 on the top beam 110, as shown in fig. 2.

The first cavity 3 is formed in a side wall of the side straight rod 120 of the keel 1, specifically, a side wall of the side straight rod 120 close to the middle straight rod 130, and an end of the hard plate 210 is clamped and fixed in the first cavity 3 on the side straight rod 120, as shown in fig. 3.

The first cavity 3 is opened on the left and right side walls of the middle straight rod 130 along the length direction of the middle straight rod 130, as shown in fig. 4, and is used for placing a hard board 210 in a matching manner.

The first cavity 3 is provided with a sealing strip 6, and the sealing strip 6 is located between the keel 1 and the hard board 210, specifically, between the top beam 110, the side straight rod 120 or the middle straight rod 130 and the hard board 210, and is used for reinforcing the connection between the end of the hard board 210 and the keel 1.

In summary, after the periphery of the hard plate 210 is respectively clamped and fixed to the first cavity 3 disposed on the top beam 110, the side straight rod 120 and the middle straight rod 130, the edge rod 140 is fixedly connected to the side straight rod 120 and the middle straight rod 130 through the first end seal 4 and the second end seal 5, and meanwhile, the edge rod 140 can also be used for abutting against the bottom position of the hard plate 210.

Hard board 210 one side is provided with soft strip 7, and soft strip 7 sets up between hard board 210 and fossil fragments 1 for keep apart hard board 210, avoid its and fossil fragments 1 direct contact.

Furthermore, the soft strips 7 are disposed on the horizontal supports 14, and the hard board 210 is disposed above the horizontal supports 14, so as to reduce the sound generated by the hard board 210 due to raindrops, vibration, and the like.

In this embodiment, the tarpaulin 220 is disposed under the hard board 210 and movably connected to the keel 1.

The sliding rods 9 are arranged at the end parts of the tarpaulin 220, the sliding rods 9 are used for supporting the tarpaulin 220, and the sliding rods 9 are movably connected to the side straight rods 120, namely, the tarpaulin 220 and the sliding rods 9 can move relative to the side straight rods 120.

The second cavity 8 is formed in the side straight rod 120 along the length direction of the side straight rod, the end portion of the sliding rod 9 can be arranged in the second cavity 8 in a matched mode, and the end portion of the sliding rod 9 moves inside the side straight rod 120, so that the whole side straight rod is compact and attractive.

In order to facilitate the movement of the sliding rod 9 and the tarpaulin 220, the pulley block 10 is installed at the end of the sliding rod 9, as shown in fig. 1 and 3, the pulley block 10 is embedded in the second cavity 8, and the pulley block 10 converts the sliding connection of the sliding rod 9 relative to the side straight rod 120 into rolling connection, so that the movement of the sliding rod 9 and the tarpaulin 220 is smoother.

Specifically, the tarpaulin 220 is connected with a rotating mechanism 11, and the rotating mechanism 11 is used for driving the tarpaulin 220 to move.

The rotating mechanism 11 is provided with a roller 111, the tarpaulin 220 is connected with the roller 111, the roller 111 can drive the tarpaulin 220 to wind the roller 111 under the rolling condition, and two ends of the roller 111 are rotatably connected below the top beam 110 through a rotating shaft.

Further, the drum 111 is provided with a crack 12, the end of the tarpaulin 220 can pass through the crack 12 and extend out of the crack 12, under the supporting action of the drum 111, the two ends of the tarpaulin 220 respectively correspond to the keels 1 at the two sides of the top beam 110, i.e. the tarpaulin 220 at the two sides of the top beam 110 is an integral body, the drum 111 is rotated, the tarpaulin 220 can be wound on the drum 111, and the two ends of the tarpaulin 220 can simultaneously generate rolling motion along the side straight bars 120.

The rotating mechanism 11 is provided with a worm and gear assembly 112, the worm and gear assembly 112 is connected with the roller 111, and the driving force can be generated by operating the worm and gear assembly 112 to drive the roller 111 to move. Of course, other driving members capable of driving the roller 111 to rotate may be selected. It should be noted that the worm gear assembly 112 is applied to the awning to rotate the roller 111, and belongs to the prior art, and will not be described in detail herein.

The canopy structure formed in this embodiment, which is integrally formed in an inverted V shape, can be applied to a canopy shown in fig. 5.

Example 2

The embodiment is different from embodiment 1 in that two sides of the top beam 110 are respectively connected with an independent tarpaulin 220, that is, the tarpaulins 220 on two sides of the top beam 110 do not belong to a whole, the drum 111 and the tarpaulin 220 are connected as shown in fig. 6, one end of the tarpaulin 220 is clamped and fixed in a preset clamping groove of the drum 111, and the two tarpaulins 220 are symmetrically arranged with respect to the drum 111. The drum 111 is rotated to drive the two tarpaulins 220 to simultaneously wind on the surface of the drum 111.

In the state of using the above-mentioned connection structure, a roof structure located at one side of the top beam 110 may be selected, and the top beam 110 is directly fixed to a wall surface, so that it forms a canopy as shown in fig. 7. The foot rest is connected under the roof board to form a slope roof as shown in figure 8.

Although preferred embodiments of the present invention have been described in detail hereinabove, it should be clearly understood that modifications and variations of the present invention are possible to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a canopy structure of awning, its characterized in that, its main part is provided with fossil fragments (1) and tarpaulin (2), fossil fragments (1) are connected with tarpaulin (2), tarpaulin (2) include hardboard (210) and tarpaulin (220), hardboard (210) and fossil fragments (1) fixed connection, tarpaulin (220) swing joint in fossil fragments (1), hardboard (210) combine with tarpaulin (220) to form two tarpaulin structures, fossil fragments (1) are provided with first cavity (3), hardboard (210) tip cooperation sets up in first cavity (3).

2. Canopy structure of a canopy according to claim 1, characterized in that the keel (1) comprises side rails (120) and a top beam (110), the side rails (120) being provided at least in two, the keel (1) being provided with a connection to the top beam (110), the connection connecting the top beam (110) and the side rails (120).

3. Canopy structure of a canopy according to claim 2, characterized in that the keel (1) is provided with a central straight bar (130), the central straight bar (130) being located between the side straight bars (120), the central straight bar (130) being connected with the top beam (110) by means of a connecting piece.

4. Canopy structure of a canopy according to claim 3, characterized in that the keel (1) is provided with a border bar (140), the border bar (140) and the top beam (110) being located at both ends of the side bar (120) and the middle bar (130), respectively, a first end seal (4) being provided between the side bar (120) and the border bar (140), and a second end seal (5) being provided between the middle bar (130) and the border bar (140).

5. Canopy structure of a pergola in accordance with claim 1, characterized in that a sealing strip (6) is arranged in the first cavity (3), which sealing strip (6) is located between the keel (1) and the hard plate (210).

6. Canopy structure of a canopy according to claim 1, characterized in that the hard plate (210) is provided with a soft strip (7) on one side, the soft strip (7) being located between the hard plate (210) and the keel (1).

7. Canopy structure of a awning as claimed in claim 2, wherein the side poles (120) are provided with second cavities (8), the awning cloth (220) is connected with slide bars (9), the slide bars (9) are connected with pulley blocks (10), the pulley blocks (10) are built into the second cavities (8).

8. Canopy structure of a awning as claimed in claim 1, wherein the awning cloth (220) is provided with a turning mechanism (11), the turning mechanism (11) being connected to the awning cloth (220).

9. Canopy structure of a canopy according to claim 8, characterized in that the turning mechanism (11) is provided with a roller (111), the roller (111) being movably connected below the top beam (110), the canopy (220) following the roller (111) turning and being wound around the surface of the roller (111).

10. Canopy structure of a awning as claimed in claim 9, wherein the drum (111) is provided with a slit (12), the awning cloth (220) is passed through the slit (12), and the awning cloth (220) is rolled up on the surface of the drum (111).

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