CN215935348U - Air guide structure - Google Patents

Abstract

The utility model provides an air guide structure, which comprises a pipe body plate, an air guide part and a fixing part, wherein the pipe body plate comprises a plurality of first structural components, the first structural components are mutually spliced to form the pipe body plate, the air guide part comprises a plurality of second structural components, each second structural component is rotatably arranged on a first side or a third side of one first structural component, the second structural components surround the air guide part, the fixing part comprises a plurality of third structural components, the third structural components are rotatably arranged on a second side or a fourth side of the first structural components, and the first structural components, the second structural components and the third structural components can be spliced to form air guide channels which are adaptive to different electronic devices according to arrangement positions and installation objects.

Description

Air guide structure

Technical Field

The utility model relates to the technical field of ventilation, in particular to an air guide structure.

Background

The electron device during operation can produce the heat, and the continuous accumulation of heat can lead to the fact the damage to electron device, for making electron device can continuously work, need provide heat dissipation channel for electron device, for example, the ventilation passageway to make heat dissipation channel can take away the heat that electron device produced, but current different electron device all has dedicated heat dissipation wind-guiding structure usually, and the heat dissipation wind-guiding structure of different electron devices can not be general each other.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need for an improved wind guiding structure, which is formed by splicing a plurality of first structural members, second structural members and third structural members, and can be bent into a shape matching with an electronic device according to different electronic devices.

The utility model provides an air guide structure which comprises a tube plate, an air guide part and a fixing part, wherein the tube plate comprises a plurality of first structural components, the first structural components are spliced to form the tube plate, the air guide part comprises a plurality of second structural components, each second structural component is rotatably arranged on a first side or a third side of one first structural component, the second structural components surround the air guide part, the fixing part comprises a plurality of third structural components, and the third structural components are rotatably arranged on a second side or a fourth side of the first structural components.

According to the arrangement, the plurality of first structural members, the plurality of second structural members and the plurality of third structural members can be spliced to form the air guide channels adaptive to different electronic devices according to the arrangement positions and the installation objects.

In order to enable a plurality of first structural members to be mutually spliced to form the tube body plate, the first side edge of each first structural member is in clamping fit with the third side edge of the adjacent first structural member, two adjacent first structural members can be oppositely bent at the clamping position, the second side edge of each first structural member is in clamping fit with the fourth side edge of the adjacent first structural member, and two adjacent first structural members can be oppositely bent at the clamping position.

Furthermore, the first side edge of the first structural member is provided with a first clamping column, the third side edge of the first structural member is provided with a first clamping cylinder, and the first clamping column of the first structural member is in clamping fit with the first clamping cylinder of the adjacent first structural member; and the second side of first structure is equipped with the second joint post, first structure the fourth side is equipped with a second joint section of thick bamboo, first structure the second joint post with adjacent first structure the cooperation of a second joint section of thick bamboo joint.

In order to enable the mutually buckled first structural members to rotate relatively, the first structural members further comprise a plurality of connecting pieces arranged at intervals, the first clamping cylinders correspond to the first side edges of the first structural members, the second clamping cylinders correspond to the second side edges of the first structural members, the connecting pieces are arranged at the second side edges of the first structural members, the first clamping cylinders correspond to the connecting pieces at the first side edges, and the avoiding grooves are formed in the connecting pieces at the second side edges, so that when the two adjacent first structural members rotate relatively, the connecting pieces can be accommodated in the avoiding grooves.

So set up, through set up with the groove of dodging of connecting piece mutual correspondence on first joint section of thick bamboo with the second joint section of thick bamboo to make interconnect's first structural component can buckle relatively.

In order to enable the first clamping column to be clamped to the first clamping barrel and enable the second clamping column to be clamped to the second clamping barrel, the first clamping barrel is provided with a first notch so as to allow the first clamping column to penetrate through the first notch to accommodate the first clamping barrel; and the second clamping cylinder is provided with a second notch to allow the second clamping column to pass through the second notch to be accommodated in the second clamping cylinder.

According to the arrangement, the first clamping cylinder is provided with the first notch, so that the first clamping column is clamped to the first clamping cylinder through the first notch; through set up the second notch at a second joint section of thick bamboo for second joint post passes through a second notch joint to a second joint section of thick bamboo.

In order to enable the adjacent second structural parts to be connected with each other and enable the second structural parts to be connected to the first structural parts, each second structural part is provided with a fifth side and an adjacent seventh side which can be clamped and matched, the second structural parts can be bent and bent relatively at clamping positions, and each second structural part is provided with a sixth side which is clamped and matched with the first side of the first structural part, or each second structural part is provided with an eighth side which is clamped and matched with the third side of the first structural part, so that the second structure can rotate relative to the first structural part, or each second structural part is provided with a sixth side which is clamped and matched with the adjacent eighth side of the second structural part, and therefore the adjacent second structural parts can rotate relatively.

So set up for adjacent second structure can each other the joint cooperation, and can buckle relatively, make the second structure can block joint to the second structure simultaneously, so that the second structure can rotate relative to first structure.

Furthermore, a third clamping column is arranged on the first side edge of the second structural member, a third clamping cylinder is arranged on the third side edge, the third clamping column of the second structural member is in clamping fit with the adjacent third clamping cylinder of the second structural member, a fourth clamping column is arranged on the second side edge of the second structural member, a fourth clamping cylinder is arranged on the fourth side edge, and the fourth clamping column is in clamping fit with the first clamping cylinder of the first structural member; or the fourth clamping cylinder is in clamping fit with the first clamping column of the first structural member; or the fourth clamping cylinder is matched with the fourth clamping column of the adjacent second clamping piece in a clamping mode.

In order to make the first structure and the second structure of mutual joint can rotate relatively, interconnect's second structure can rotate relatively, the second structure still includes a plurality of intervals and sets up the connecting piece, a first joint section of thick bamboo passes through the connecting piece is fixed in the first side of first structure, a second joint section of thick bamboo passes through the connecting piece is fixed in first structure the second side, a first joint section of thick bamboo corresponds first side the connecting piece department has seted up and has dodged the groove, a second joint section of thick bamboo corresponds on the second side the connecting piece department has seted up and has dodged the groove.

So set up, offer the groove of dodging of mutually corresponding with the connecting piece through setting up at a third joint section of thick bamboo and a fourth joint section of thick bamboo to make interconnect's second structure can rotate relatively, the second structure can rotate relative first structure.

In order to enable the third clamping column to be clamped to the third clamping barrel, the fourth clamping column is clamped to the fourth clamping barrel, the first clamping barrel is clamped to the fourth clamping barrel, and the third clamping barrel is provided with a third notch so as to allow the third clamping column to penetrate through the third notch to be accommodated in the third clamping barrel; the fourth clamping cylinder is provided with a fourth notch to allow the first clamping column to pass through the fourth notch to be clamped to the fourth clamping cylinder; or the fourth clamping column penetrates through the first notch to be accommodated in the first clamping barrel; or, the fourth clamping column penetrates through the fourth notch to be accommodated in the fourth clamping cylinder.

According to the arrangement, the third clamping cylinder is provided with the third notch, so that the third clamping column can be clamped to the third clamping cylinder through the point notch; through set up the fourth notch at a fourth joint section of thick bamboo for fourth joint post passes through fourth notch holding in a fourth joint section of thick bamboo, makes first joint post pass through fourth notch holding in a fourth joint section of thick bamboo.

In order to enable the third structural component to be clamped to the first structural component to form a fixing part, the first side edge of the third structural component is in clamping fit with the second side edge of the first structural component, and the third structural component can rotate relative to the first structural component; and the third side edge of the third structural member is in clamping fit with the fourth side edge of the first structural member, and the third structural member can rotate relative to the first structural member.

According to the arrangement, the third structural members are rotatably mounted on the pipe body plate to form the fixing part capable of fixing the pipe body plate.

Further, the ninth side of third structural component is equipped with a fifth joint section of thick bamboo, and the tenth side is equipped with a fifth joint post, the fifth joint post with first structural component the cooperation joint of a second joint section of thick bamboo, the third structural component can be relative first structural component rotates, a fifth joint section of thick bamboo with first structural component the cooperation joint of second joint post, the third structural component can be relative first joint spare rotates.

The arrangement is such that the third structural member can be snapped to both sides of the first structural member.

In order to make the third structural component rotate relatively first structural component, the third structural component still includes the connecting piece, the fifth joint post passes through the connecting piece is fixed in the first side of third structural component, a fifth joint section of thick bamboo corresponds connecting piece department is equipped with dodges the groove.

With such an arrangement, the third joint member can rotate relative to the first joint member by forming the avoidance groove in the fifth clamping cylinder of the third joint member.

In order to fix the air guide structure through the third structural member, a mounting hole is formed in the middle of the third structural member, and the air guide structure is mounted to a preset position through the mounting hole.

According to the arrangement, the mounting hole is formed in the middle of the third structural member, and the third fixing piece is mounted to the preset position through the mounting hole.

In order to enable the first structural member, the second structural member and the third structural member to be recycled, the adjacent first structural members are detachably connected, the first structural member and the second structural member are detachably connected, the adjacent second structural members are detachably connected, and the first structural member and the third structural member are detachably connected.

So set up, the joint of mutually supporting of first structure, second structure and third structure is removable connection.

The utility model provides an improved air guide structure, which is formed by splicing a plurality of first structural members, second structural members and third structural members, and can be bent into a shape matched with an electronic device according to different electronic devices.

Drawings

Fig. 1 is a schematic structural view of an air guide structure provided in the present invention;

fig. 2 is a schematic structural view of a first structural member in the wind guide structure shown in fig. 1;

fig. 3 is a schematic structural view of a second structural member in the wind guide structure shown in fig. 1;

fig. 4 is a schematic structural view of a third structural member in the wind guide structure shown in fig. 1;

fig. 5 is a schematic structural view of an air guiding structure according to another embodiment of the present invention;

fig. 6 is a schematic structural view of an air guiding structure according to another embodiment of the present invention.

100. A wind guide structure; 10. a first structural member; 11. a first side edge; 111. a first clamp post; 12. a second side edge; 121. a second clamp post; 13. a third side; 131. a first clamping cylinder; 1311. a first notch; 14. a fourth side; 141. a second clamping cylinder; 1411. a second notch; 20. a second structural member; 21. a fifth side; 211. a third clamping column; 22. a sixth side; 221. a fourth clamping column; 23. a seventh side; 231. a third clamping cylinder; 2311. a third notch; 24. an eighth side; 241. a fourth clamping cylinder; 2411. a fourth notch; 30. a third structural member; 31. a ninth side; 311. a fifth clamping cylinder; 3111. a fifth notch; 32. a tenth side; 321. a fifth clamping column; 33. mounting holes; 40. a connecting member; 50. avoiding the groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

It will be understood that when an element is referred to as being "mounted on" another element, it can be directly mounted on the other element or intervening elements may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. When an element is referred to as being "secured to" another element, it can be directly secured to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "or/and" includes any and all combinations of one or more of the associated listed items.

The electron device during operation can produce the heat, and the continuous accumulation of heat can lead to the fact the damage to electron device, for making electron device can continuously work, need provide heat dissipation channel for electron device, for example, the ventilation passageway to make heat dissipation channel can take away the heat that electron device produced, but current different electron device all has dedicated heat dissipation wind-guiding structure usually, and the heat dissipation wind-guiding structure of different electron devices can not be general each other.

In view of the above technical problems, the present invention provides an improved wind guiding structure, which is formed by splicing a plurality of first structural members, second structural members and third structural members, and can be bent into a shape matching with an electronic device according to different electronic devices.

Referring to fig. 1 to 6, fig. 1 is a schematic structural diagram of a wind guiding structure provided by the present invention, fig. 2 is a schematic structural diagram of a first structural member in the wind guiding structure shown in fig. 1, fig. 3 is a schematic structural diagram of a second structural member in the wind guiding structure shown in fig. 1, fig. 4 is a schematic structural diagram of a third structural member in the wind guiding structure shown in fig. 1, fig. 5 is a schematic structural diagram of a wind guiding structure in another embodiment provided by the present invention, and fig. 6 is a schematic structural diagram of a wind guiding structure in another embodiment provided by the present invention.

The utility model provides an air guide structure 100, wherein the air guide structure 100 comprises a first structural member 10, a second structural member 20 and a third structural member 30, a plurality of first structural members 10 are spliced to form a tube body plate, and the tube body plate is bent to form a hollow tube body for ventilation; the second structural member 20 is spliced to the end of the tube body plate for guiding the air flow to the tube body; the third structural member 30 is spliced to both sides of the pipe body, and the pipe body is fixed to a preset position through a third fixing member.

In this embodiment, the first structural member 10 is substantially rectangular plate-shaped, the first side 11 of the first structural member 10 is provided with a first engaging column 111, the third side 13 of the first structural member 10 is provided with a first engaging tube 131, the first engaging column 111 is fixedly arranged along the first side 11 of the first structural member 10 by the connecting member 40, the length of the first clamping column 111 is equal to the length of the first side 11 of the first structural member 10, the first clamping tube 131 is disposed on the third side 13 of the first structural member 10, the side of the first clamping tube 131 relatively close to the first structural member 10 is fixedly connected to the first structural member 10, the side of the first clamping tube 131 relatively far from the first structural member 10 is opened with a first notch 1311, meanwhile, the connecting pieces 40 connected with the first clamping columns 111 are arranged at intervals along the length direction of the first side edge 11 of the first structural member 10, and the positions of the first clamping cylinders 131 corresponding to the connecting pieces 40 are provided with avoidance grooves 50; the first clamping column 111 of the first structural member 10 is clamped into the first clamping cylinder 131 of the adjacent first structural member 10 through the first notch 1311, and the first structural members 10 connected with each other can rotate relatively because the connecting member 40 is clamped and accommodated in the avoiding groove 50.

A second clamping column 121 is arranged at the second side 12 of the first structural member 10, a second clamping cylinder 141 is arranged at the fourth side 14 of the first structural member 10, the second clamping column 121 is fixedly arranged along the second side 12 of the first structural member 10 through a connecting piece 40, the length of the second clamping column 121 is equal to that of the second side 12 of the first structural member 10, the second clamping cylinder 141 is arranged at the fourth side 14 of the first structural member 10, a second notch 1411 is formed in one side, far away from the first structural member 10, of the second clamping cylinder 141, meanwhile, the second clamping column 121 is longer, the second clamping column 121 is fixedly connected with the second side 12 of the first structural member 10 through a plurality of connecting pieces 40 arranged at intervals, and a avoiding groove 50 is formed in the position, corresponding to the connecting pieces 40, of the second clamping cylinder 141; the second clamping column 121 of the first structural member 10 is clamped into the second clamping cylinder 141 of the adjacent first structural member 10 through the second notch 1411, and the first structural member 10 connected with each other can rotate relatively because the connecting members 40 are clamped and accommodated in the avoiding grooves 50, specifically, the second clamping column 121 is fixedly mounted to the side edge of the first structural member 10 through the four connecting members 40, and the four connecting members 40 are arranged at equal intervals.

In this embodiment, eight first structural members 10 are connected to each other to form a single rectangular tube plate, and two sides of the tube plate are bent oppositely and perpendicular to the adjacent first structural members 10 to form a tube with a hollow interior, it should be understood that the present invention is not limited to the number of the first structural members 10, and in other embodiments, the number of the first structural members 10 may be ten or twelve, as long as the first structural members can be bent oppositely to form a duct capable of guiding air.

So set up, through the mutual joint formation body board of a plurality of first structure 10, the body board can be buckled relatively in order to form the body that adapts to in electronic device.

It is to be understood that the present invention is not limited to the shape of the bent tube body after the first structural members 10 are spliced together, and in other embodiments, the tube body may be bent into a semi-cylindrical shape, a triangular prism shape, or the like, as long as the tube body can be adapted to the electronic device after being bent.

In addition, in order to facilitate the installation of the tube plate, the length of the first structural member 10 is about twice the width thereof in the present embodiment, but it is to be understood that the present invention is not limited to the relationship between the length and the width of the first structural member 10, and the first structural member 10 may have a square plate shape in other embodiments.

In this embodiment, the second structural member 20 is substantially rectangular plate-shaped, the fifth side 21 of the second structural member 20 is provided with a third clamping column 211, the seventh side 23 is provided with a third clamping cylinder 231, the third clamping column 211 is fixedly connected along the fifth side 21 of the second structural member 20 through the connecting member 40, the length of the third clamping column 211 is equal to the length of the fifth side 21 of the second structural member 20, the third clamping cylinder 231 is arranged on the seventh side 23 of the second structural member 20, one side of the third clamping cylinder 231 relatively far away from the second structural member 20 is provided with a third notch 2311, meanwhile, the connecting member 40 connected with the third clamping column 211 is arranged at intervals along the direction of the fifth side 21 of the second structural member 20, and a position of the third clamping cylinder 231 corresponding to the connecting member 40 is provided with an avoiding groove 50; the third clamping column 211 of the fifth side 21 of the second structural member 20 is clamped into the third clamping cylinder 231 of the adjacent second structural member 20 through the third slot 2311, and the second structural members 20 connected with each other can rotate relatively because the connecting member 40 is clamped and accommodated in the avoiding groove 50.

Sixth side 22 of second structure 20 is equipped with fourth joint post 221, eighth side 24 is equipped with a fourth joint section of thick bamboo 241, the sixth side 22 of passing through connecting piece 40 along second structure 20 of fourth joint post 221 is fixed to be set up, and the length of fourth joint post 221 equals the length of the sixth side 22 of second structure 20, a fourth joint section of thick bamboo 241 sets up in the eighth side 24 of second structure 20, one side and second structure 20 fixed connection that a fourth joint section of thick bamboo 241 is close to second structure 20 relatively, a fourth notch 2411 has been seted up to one side that a fourth joint section of thick bamboo 241 is kept away from second structure 20 relatively, simultaneously, the connecting piece 40 of connecting fourth joint post 221 sets up along the length direction interval of the sixth side 22 of second structure 20, and a position department that a fourth joint section of thick bamboo 241 corresponds with connecting piece 40 has been seted up and has been dodged groove 50.

In this embodiment, the second structure 20 is disposed on the first side 11 or the third side 13 of the first structure 10, the fourth clamping column 221 of the sixth side 22 of the second structure 20 is clamped into the first clamping cylinder 131 of the adjacent first structure 10 by the first notch 1311, so that the second structure 20 can rotate relative to the first structure 10, and the second structure 20 can swing relative to the first structure 10 to enlarge or reduce the air guiding part formed by the second structure 20, or, the second structure 20 is disposed on the first side 11 of the first structure 10, the fourth engaging tube 241 of the eighth side 24 of the second structure 20 is engaged with the first engaging post 111 of the first structure 10 through the fourth slot 2411, so that the second structure 20 can rotate relative to the first structure 10, and the second structure 20 swings relative to the first structure 10, so as to enlarge or reduce the air guiding portion formed by the second structure 20.

In this way, the plurality of second structures 20 are provided on the first side 11 or the third side 13 of the first structure 10 to form the air guiding portion, and the second structures 20 can be bent with respect to the first structure 10 to form the air guiding portion having different opening sizes.

It should be understood that the present invention is not limited to the connection of the ends of the second mounting parts disposed on the first side 11 or the third side 13 of the first structural member 10, and in other embodiments, the first structural member 10 is disposed in a cylindrical or triangular prism shape, the air guiding portion is engaged with the first side 11 or the third side 13 of the first structural member 10, and the second structural member 20 is bent along with the bending of the first structural member 10, so long as the second structural member 20 can rotate relative to the first structural member 10 to enlarge or reduce the air guiding opening.

It should be noted that, in order to facilitate the installation of the tube plate, in the present embodiment, the length of the second structure 20 is equal to the width of the first structure 10, the fourth snapping columns 221 and the fourth snapping cylinders 241 on the side portions of the second structure 20 are the same as the first snapping columns 111 and the second snapping cylinders 141 on the end portions of the first structure 10, and the length of the second structure 20 is about twice the width thereof, and it is understood that the present invention is not limited to the relationship between the length and the width of the second structure 20, and in other embodiments, the first structure 10 may have a square plate shape.

Meanwhile, as can be seen from the above description, the first structural member 10 and the second structural member 20 have the same structure, and only the size of the first structural member 10 is different from that of the second structural member 20, in other words, a plurality of second structural members 20 can be spliced into the first structural member 10.

In this embodiment, the third structural member 30 is substantially in a square plate shape, a ninth side 31 of the third structural member 30 is provided with a fifth clamping cylinder 311, a tenth side 32 is provided with a fifth clamping column 321, the fifth clamping column 321 is fixedly mounted on the tenth side 32 of the third structural member 30 through a connecting piece 40, the connecting piece 40 is located in the middle of the fifth clamping column 321, the fifth clamping cylinder 311 is disposed along the tenth side 32 of the third structural member 30, a fifth notch 3111 is disposed on one side of the fifth clamping cylinder 311 relatively far away from the third structural member 30, and an avoiding groove 50 is disposed in the middle of the fifth clamping cylinder 311 corresponding to the connecting piece 40, wherein the fifth clamping hole can be clamped into the second clamping hole of the second structural member 20 through the second notch 1411, and the second clamping column 121 of the second structural member 20 is clamped into the fifth clamping cylinder 311 through the fifth notch 3111.

With this arrangement, the third structural member 30 and the first structural member 10 can be clamped to each other by providing the fifth clamping cylinder 311 and the fifth clamping column 321 on the third structural member 30.

Meanwhile, the middle of the third joint member 30 is provided with a mounting hole 33, the third joint member 30 is fixedly mounted to the preset position through the mounting hole 33, and the number of the third joint members 30 is four, and the four third joint members are respectively arranged at two ends of two side edges of the pipe body to fixedly mount the pipe body to the preset position.

Note that, in the present embodiment, in order to facilitate the third structural member 30 to be fixedly attached to the side portion of the first structural member 10, the length of the end portion of the third structural member 30 is one eighth of the side edge of the first structural member 10.

The utility model provides an improved air guide structure 100, the air guide structure 100 is formed by splicing a plurality of first structural members 10, second structural members 20 and third structural members 30, and the air guide structure 100 can be bent into a shape matched with an electronic device according to different electronic devices.

The features of the above-described embodiments may be arbitrarily combined, and for the sake of brevity, all possible combinations of the features in the above-described embodiments are not described, but should be construed as being within the scope of the present disclosure as long as there is no contradiction between the combinations of the features.

It should be understood by those skilled in the art that the above embodiments are only for illustrating the present invention and are not to be used as a limitation of the present invention, and that suitable changes and modifications of the above embodiments are within the scope of the claimed invention as long as they are within the spirit and scope of the present invention.

Claims (14)

1. The air guide structure comprises a pipe body plate, an air guide portion and a fixing portion, and is characterized in that the pipe body plate comprises a plurality of first structural members (10), the first structural members (10) are spliced to form the pipe body plate, the air guide portion comprises a plurality of second structural members (20), each second structural member (20) is rotatably installed on a first side (11) or a third side (13) of one first structural member (10), the second structural members (20) surround the air guide portion, the fixing portion comprises a plurality of third structural members (30), and the third structural members (30) are rotatably arranged on a second side (12) or a fourth side (14) of the first structural members (10).

2. The air guiding structure as defined in claim 1, wherein the first side (11) of each first structural member (10) is snap-fitted to the third side (13) of an adjacent first structural member (10), and two adjacent first structural members (10) can be bent relatively at the snap-fitting position, and

each second side edge (12) of the first structural component (10) is in clamping fit with the adjacent fourth side edge (14) of the first structural component (10), and the two adjacent first structural components (10) can be bent relatively at clamping positions.

3. The air guiding structure as recited in claim 2, wherein the first side edge (11) of the first structural member (10) is provided with a first clamping column (111), the third side edge (13) of the first structural member (10) is provided with a first clamping barrel (131), and the first clamping column (111) of the first structural member (10) is in clamping fit with the first clamping barrel (131) of the adjacent first structural member (10); and

second side (12) of first structure spare (10) are equipped with second joint post (121), first structure spare (10) fourth side (14) are equipped with second joint section of thick bamboo (141), first structure spare (10) second joint post (121) and adjacent first structure spare (10) second joint section of thick bamboo (141) joint cooperation.

4. The air guiding structure as defined in claim 3, wherein the first structural member (10) further comprises a plurality of spaced apart connectors (40), the first clamping column (111) is fixed on the first side (11) of the first structural member (10) through the connecting piece (40), the second clamping column (121) is fixed on the second side edge (12) of the first structural member (10) through the connecting piece (40), an avoiding groove (50) is formed in the position, corresponding to the connecting piece (40) of the first side edge (11), of the first clamping cylinder (131), an avoiding groove (50) is formed in the position, corresponding to the connecting piece (40) of the second side edge (12), of the second clamping cylinder (141), so that the connecting piece (40) can be accommodated in the avoiding groove (50) when two adjacent first structural members (10) rotate relatively.

5. The air guide structure according to claim 4, wherein the first clamping cylinder (131) is provided with a first notch (1311) to allow the first clamping column (111) to pass through the first notch (1311) to receive the first clamping cylinder (131); and

the second clamping cylinder (141) is provided with a second notch (1411) to allow the second clamping column (121) to pass through the second notch (1411) to be accommodated in the second clamping cylinder (141).

6. The wind guiding structure as defined in claim 5, wherein the fifth side (21) of each second structural member (20) is capable of being engaged with the seventh side (23) of the adjacent second structural member (20), and two adjacent second structural members (20) are capable of being bent relatively at the engaged position, and

each sixth side (22) of second structure (20) with first side (11) joint cooperation of first structure (10), or each eighth side (24) of second structure (20) with third side (13) joint cooperation of first structure (10), so that the second structure can be relative first structure (10) rotate, or each sixth side (22) and adjacent of second structure (20) the eighth side (24) joint cooperation of second structure (20), so that it is adjacent second structure (20) can rotate relatively.

7. The air guide structure according to claim 6, wherein a fifth side (21) of the second structural member (20) is provided with a third clamping column (211), a seventh side (23) is provided with a third clamping cylinder (231), the third clamping column (211) of the second structural member (20) is in clamping fit with the third clamping cylinder (231) of the adjacent second structural member (20), and

a fourth clamping column (221) is arranged on a sixth side edge (22) of the second structural member (20), a fourth clamping cylinder (241) is arranged on an eighth side edge (24), and the fourth clamping column (221) is in clamping fit with the first clamping cylinder (131) of the first structural member (10); or, the fourth clamping cylinder (241) is in clamping fit with the first clamping column (111) of the first structural component (10); or the fourth clamping cylinder (241) is in clamping fit with the fourth clamping column (221) of the adjacent second clamping piece.

8. The wind guide structure according to claim 7, wherein the second structure member (20) further comprises a plurality of connectors (40) arranged at intervals, the first clamping cylinder (131) is fixed to the first side (11) of the first structure member (10) through the connectors (40), the second clamping cylinder (141) is fixed to the second side (12) of the first structure member (10) through the connectors (40), an avoiding groove (50) is formed at the position, corresponding to the first side (11), of the first clamping cylinder (131), and an avoiding groove (50) is formed at the position, corresponding to the connectors (40) on the second side (12), of the second clamping cylinder (141).

9. The air guide structure according to claim 8, wherein the third clamping cylinder (231) is provided with a third notch (2311) to allow the third clamping column (211) to be received in the third clamping cylinder (231) through the third notch (2311); and

the fourth clamping cylinder (241) is provided with a fourth notch (2411) to allow the first clamping column (111) to pass through the fourth notch (2411) to be clamped to the fourth clamping cylinder (241); or, the fourth clamping column (221) passes through the first notch (1311) to be clamped to the first clamping cylinder (131); or, the fourth clamping column (221) penetrates through the fourth notch (2411) to be clamped to the fourth clamping cylinder (241).

10. The air guiding structure as defined in claim 9, wherein the ninth side (31) of the third structural element (30) is in snap fit with the second side (12) of the first structural element (10), and the third structural element (30) can rotate relative to the first structural element (10); and a process for the preparation of a coating,

the tenth side edge (32) of the third structural component (30) is in clamping fit with the fourth side edge (14) of the first structural component (10), and the third structural component (30) can rotate relative to the first structural component (10).

11. The air guide structure according to claim 10, wherein a ninth side (31) of the third structural member (30) is provided with a fifth clamping cylinder (311), a tenth side (32) is provided with a fifth clamping column (321), the fifth clamping column (321) is in matched clamping connection with the second clamping cylinder (141) of the first structural member (10), the third structural member (30) can rotate relative to the first structural member (10), the fifth clamping cylinder (311) is in matched clamping connection with the second clamping column (121) of the first structural member (10), and the third structural member (30) can rotate relative to the first structural member (10).

12. The wind guiding structure according to claim 11, wherein the third structural member (30) further comprises a connecting member (40), the fifth engaging column (321) is fixed to the first side (11) of the third structural member (30) through the connecting member (40), and an avoiding groove (50) is formed in the position, corresponding to the connecting member (40), of the fifth engaging cylinder (311).

13. The air guide structure according to claim 12, wherein a mounting hole (33) is formed in a middle portion of the third structural member (30), and the air guide structure is mounted to a predetermined position through the mounting hole (33).

14. The air guiding structure as recited in claim 1, wherein adjacent first structural members (10) are detachably connected, the first structural members (10) are detachably connected with the second structural members (20), adjacent second structural members (20) are detachably connected, and the first structural members (10) are detachably connected with the third structural members (30).

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