CN212251877U - Automatic waterproof construction and cloud platform nacelle of water guide - Google Patents

Abstract

The utility model provides an automatic waterproof construction and cloud platform nacelle of water guide, waterproof construction includes: the water guide cover comprises a rotary shell, a water guide outer cover, a water guide inner cover, a drive connecting shell and a cover body connecting piece; the body connecting piece is arranged in the connecting piece accommodating groove; the cover body connecting piece is connected to the inside of the water guide outer cover; the water guide outer cover is provided with a waterproof outer ring wall; the water guide inner cover is provided with a waterproof separation groove structure; the waterproof partition groove structure extends into the water guide outer cover and is positioned on the inner side of the waterproof outer ring wall; the direction of the groove opening of the waterproof partition groove structure faces the waterproof outer ring wall; the upper end of the waterproof partition groove structure forms a height difference with the bottom end of the waterproof partition groove structure, and liquid in the groove is drained from a high position to a low position. The cloud platform nacelle includes: the holder core and the waterproof structure; the holder core is arranged in the rotating shell. This waterproof construction is used for bearing the function device that needs sealed water proof, sets up function device in rotating the casing, can realize keeping apart function device and outside, prevents that outside moisture from getting into rotating the casing, has replaced the main scheme that takes the sealing washer as the main of prior art.

Description

Automatic waterproof construction and cloud platform nacelle of water guide

Technical Field

The utility model relates to a cloud platform technical field especially relates to an automatic waterproof construction and cloud platform nacelle of water guide.

Background

The existing cloud deck is generally used in outdoor environment, so that the existing cloud deck is difficult to avoid being interfered by rainwater; the rainwater is mainly acidic and can corrode the structure inside the tripod head after entering the inside of the tripod head, so that the rainwater needs to be subjected to waterproof treatment; in the existing tripod head, the treatment means is to isolate water inside and outside the tripod head by using a sealing plug; however, this structure is still susceptible to water ingress in the face of heavy rain.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic waterproof construction of water guide, its waterproof partition groove structure's upper end forms the difference in height rather than the bottom for with the liquid of inslot from high-order drainage to low level.

The utility model also provides a cloud platform nacelle, it includes: the holder core and the waterproof structure; the holder core is arranged in the rotating shell.

To achieve the purpose, the utility model adopts the following technical proposal:

an automatically water-guiding waterproof structure comprising: the water guide cover comprises a rotary shell, a water guide outer cover, a water guide inner cover, a drive connecting shell and a cover body connecting piece;

the water guide outer cover is arranged on the outer side of the rotating shell; a connecting piece accommodating groove is formed in the drive connecting shell; the cover body connecting piece is arranged in the connecting piece accommodating groove; the cover body connecting piece is connected to the inside of the water guide outer cover; the water guide inner cover is arranged at the opening of the connecting piece accommodating groove and surrounds the outer side of the connecting piece of the cover body;

the water guide outer cover is provided with a waterproof outer ring wall; the water guide inner cover is provided with a waterproof separation groove structure; the waterproof partition groove structure extends into the water guide outer cover and is positioned on the inner side of the waterproof outer ring wall; the direction of the groove opening of the waterproof partition groove structure faces the waterproof outer ring wall; the upper end of the waterproof partition groove structure forms a height difference with the bottom end of the waterproof partition groove structure, and liquid in the groove is drained from a high position to a low position.

Preferably, the water guide outer cover is provided with a middle boss; the upper layer surface and the lower layer surface of the middle boss form a height difference;

the outer cover inner sealing groove is arranged on the surface of the upper layer surface; the cover body connecting piece is connected to the upper layer surface; the waterproof partition groove structure is positioned between the middle boss and the waterproof outer annular wall.

Preferably, the middle boss is provided with a water guide inclined end face;

the water guide inclined end face is transited from the lower layer face with a large area to the upper layer face with a small area.

Preferably, the method further comprises the following steps: the outer cover inner sealing ring and the outer cover outer sealing ring;

the water guide outer cover is provided with an outer cover inner sealing groove at the contact position between the water guide outer cover and the cover body connecting piece; the outer cover inner sealing ring is arranged in the outer cover inner sealing groove and is pressed tightly by the cover body connecting piece;

the outer water guide cover is provided with an outer cover outer sealing groove at the contact position of the outer water guide cover and the rotating shell; the outer cover outer sealing ring is arranged in the outer cover outer sealing groove.

Preferably, the cover connecting piece is a driving device, and an output end of the cover connecting piece is fixed inside the water guide outer cover and used for driving the rotating shell to rotate.

Preferably, the rotating case includes: a rotating main shell and a rotating auxiliary shell;

the main rotating shell and the auxiliary rotating shell are integrally formed and combined; the water guide outer cover is arranged on the side wall of the rotating main shell;

the output end of the cover body connecting piece drives the water guide outer cover to rotate and drives the rotating main shell and the rotating auxiliary shell to synchronously rotate.

Preferably, the waterproof separation groove structure is provided with a collection groove and a plurality of waterproof separation grooves;

the lower ends of the plurality of water-proof grooves are communicated with the upper end of the gathering groove.

Preferably, the lower end of the collecting groove is provided with a water guide bottom plate which is obliquely arranged.

Preferably, the waterproof separation groove structure is arc-shaped; and two ends of the waterproof branch groove are respectively connected with the collection groove.

A pan-tilt pod comprising: the holder core and the waterproof structure;

the waterproof structure is the waterproof structure;

the holder core is arranged in the rotating shell.

The utility model has the advantages that:

this waterproof construction is used for bearing the function device that needs sealed water proof, sets up function device in rotating the casing, can realize keeping apart function device and outside, prevents that outside moisture from getting into rotating the casing, has replaced the main scheme that takes the sealing washer as the main of prior art.

Drawings

FIG. 1 is a schematic structural view of a waterproof structure;

FIG. 2 is a schematic cross-sectional view of a waterproof structure;

FIG. 3 is an exploded schematic view of a waterproof structure;

FIG. 4 is a schematic cross-sectional view of the water conducting outer cover and the water conducting inner cover;

FIG. 5 is a schematic structural view of a waterproof compartment structure;

FIG. 6 is a schematic structural view of a water-conducting cover;

FIG. 7 is a schematic structural view of a water-conducting cover;

fig. 8 is a schematic view of the structure of the pan-tilt-nacelle.

Wherein:

the water-saving water dispenser comprises a rotary shell 1, a water guide outer cover 2, a water guide inner cover 3, a driving connecting shell 4 and a cover body connecting piece 5;

a connector accommodating groove 41;

a rotary main shell 11 and a rotary auxiliary shell 12;

a waterproof outer annular wall 21, a middle boss 22, an outer cover inner sealing groove 24 and an outer cover outer sealing groove 25; an upper layer surface 221, a lower layer surface 222, a water guide inclined end surface 223 and a V-shaped groove 224;

a waterproof partition groove structure 31; a collection groove 311 and a waterproof separation groove 312; a water guide bottom plate 313; an inner sidewall 314;

an outer cover inner sealing ring 61 and an outer cover outer sealing ring 62.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

An automatically water-guiding waterproof structure comprising: the water-saving water dispenser comprises a rotary shell 1, a water guide outer cover 2, a water guide inner cover 3, a driving connecting shell 4 and a cover body connecting piece 5;

the water guide outer cover 2 is arranged on the outer side of the rotating shell 1; a connecting piece accommodating groove 41 is formed in the drive connecting shell 4; the cover body connecting piece 5 is arranged in the connecting piece accommodating groove 41; the cover body connecting piece 5 is connected to the inside of the water guide outer cover 2; the water guide inner cover 3 is arranged at the opening of the connecting piece accommodating groove 41 and surrounds the outer side of the cover body connecting piece 5;

the water guide outer cover 2 is provided with a waterproof outer annular wall 21; the water guide inner cover 3 is provided with a waterproof partition groove structure 31; the waterproof partition groove structure 31 extends into the water guide outer cover 2 and is positioned on the inner side of the waterproof outer annular wall 21; the notch direction of the waterproof partition groove structure 31 faces the waterproof outer annular wall 21; the upper end of the waterproof partition groove structure 31 and the bottom end thereof form a height difference for guiding liquid in the groove from a high position to a low position.

This waterproof construction is used for bearing the function device that needs sealed water proof, sets up function device in rotating casing 1, can realize keeping apart function device and outside, prevents that outside moisture from getting into rotating casing 1, has replaced the main scheme that takes the sealing washer as the main of prior art.

Specifically, the rotary case 1 is used to carry a functional device, such as a pan-tilt mechanism of a cloud platform pod; generally, the prior art mainly takes sealing and drainage as main waterproof measures for waterproofing, and the scheme mainly takes water guide as a waterproof device; in this scheme, rotate and to be equipped with functional device in the casing 1, drive connecting shell 4 fixed mounting makes this waterproof construction unsettled setting in the wall body, consequently rotates and to need do between casing 1 and the drive connecting shell 4 and seal the processing. Facing to the rain environment, the water guide outer cover 2 is positioned at the outer side of the water guide inner cover 3, the water guide outer cover 2 can block rain, and the waterproof outer ring wall 21 blocks rain from entering the inside of the rotating shell 1 through the water guide inner cover 3, so that the waterproof outer ring wall is a first defense line of a waterproof structure; if a small part of rainwater crosses the water guide outer cover 2 and enters the water guide inner cover 3 in the water guide outer cover, such as Q1, the water guide inner cover 3 is provided with a waterproof partition groove structure 31, and the waterproof partition groove structure 31 is provided with a highest point and a lowest point; under the action of gravity and the groove-shaped drainage effect of the waterproof partition groove structure 31, water can flow from the highest point of the waterproof partition groove structure 31 to the lowest point, such as Q3 and Q4, water passing through the waterproof outer annular wall 21 part of the water guide outer cover 2 is guided out to the water guide outer cover 2 below the waterproof partition groove structure 31 and then guided out by the water guide outer cover 2, such as Q6, the waterproof effect is realized, the functional device inside the rotating shell 1 is protected, and the device can work in a rainwater environment.

The rotating shell 1, the water guide outer cover 2, the driving connecting shell 4 and the cover body connecting piece 5 are connected in a known connecting mode, such as welding, screw fixing, glue, clamping and the like; when the bolt is used, the bolt sequentially passes through the rotating shell 1 and the water guide outer cover 2 and is matched with the cover body connecting piece 5, so that the cover body connecting piece 5 is connected to the inside of the water guide outer cover 2; the water guide inner cover 3 is mounted on the drive connection housing 4 and positioned at the notch of the connector accommodation groove 41 to surround the cover connector 5. The water guide outer cover 2 is vertically arranged, and the opening of the water guide outer cover faces the cover body connecting piece 5; the cover body connecting piece 5 horizontally extends into the cover of the water guide outer cover 2, and the water guide inner cover 3 is surrounded on the outer side, so that water can be blocked by the water guide inner cover 3, and the water guide inner cover 3 and the cover body connecting piece 5 can be separated when rainwater enters the water guide inner cover 3. The waterproof outer ring wall 21 of the water guide cover 2 is preferably inclined, and water guided out from the lowest point of the waterproof groove partition structure 31 can pass through the inclined waterproof outer ring wall 21.

Preferably, the water guide outer cover 2 is provided with a middle boss 22; the upper layer 221 and the lower layer 222 of the middle boss 22 form a height difference;

the outer cover inner seal groove 24 is disposed on the surface of the upper layer 221; the cover body connecting piece 5 is connected to the upper layer surface 221; the waterproof groove structure 31 is located between the middle boss 22 and the waterproof outer annular wall 21.

The middle boss 22 is positioned inside the water guide outer cover 2, preferably in the middle of the water guide outer cover 2; the waterproof groove separating structure 31 extends into the water guide outer cover 2 and is positioned between the waterproof outer annular wall 21 and the middle boss 22, as shown in fig. 2; when the external water passes through two lines of the water guide outer cover 2 and the waterproof partition groove structure 31, the water passes through the waterproof partition groove and enters the middle boss 22, such as Q51; because the upper layer 221 and the lower layer 222 of the middle boss 22 form a height difference, a gap is formed between the cover body connecting piece 5 and the position outside the middle boss 22, the vertically arranged middle boss 22 can lead water out from high to low through the side surface of the middle boss 22, the water flows downwards along the side surface of the middle boss 22 (such as Q52) and falls to the waterproof outer annular wall 21 of the water guide outer cover 2, the outside of the waterproof structure is led out along the inclined surface of the waterproof outer annular wall 21, and a third waterproof line (such as Q6) of the waterproof structure is formed.

The central boss 22 is in the shape of a cylinder with an upper layer 221 and a lower layer 222, such as a cylinder, a truncated cone, a rectangular parallelepiped, etc., preferably with a tapered end surface, i.e. the upper layer 221 transitions to the lower layer 222 through an inclined end surface, such as a truncated cone.

Preferably, the middle boss 22 is provided with a water guide inclined end surface 223;

the water guide inclined end surface 223 is transited from the lower layer surface 222 with a large area to the upper layer surface 221 with a small area.

The middle boss 22 is provided with a lower layer 222 and an upper layer 221, and the side surface is an obliquely arranged water guide inclined end surface 223 similar to a circular truncated cone; because the gap formed by the water guide inclined end surface 223 and the cover body connecting piece 5 forms the V-shaped groove 224, when the water body reaches the middle area of the water guide inner cover 3 at the vertically arranged middle boss 22, the water flows from one end of the lower layer surface 222 to one end of the upper layer surface 221 along the water guide inclined end surface 223 under the action of gravity, so that the moisture is prevented from lingering at the water guide inclined end surface 223, and the moisture only flows to one end of the upper layer surface 221 and then flows downwards (such as Q52) until flowing to the waterproof outer annular wall 21, and then is led out of the waterproof structure by the waterproof outer annular wall 21. Meanwhile, because the outer cover inner sealing ring 61 is arranged between the water guide outer cover 2 and the cover body connecting piece 5, moisture cannot enter the water guide outer cover and the cover body connecting piece from the outside, and the moisture can only be led out along the water guide inclined end surface 223, so that the sealing property of the waterproof structure is improved.

Preferably, the method further comprises the following steps: an outer cap inner seal ring 61 and an outer cap outer seal ring 62;

an outer cover inner sealing groove 24 is formed in the water guide outer cover 2 at the contact position between the water guide outer cover 2 and the cover body connecting piece 5; the outer cover inner sealing ring 61 is arranged in the outer cover inner sealing groove 24 and is pressed by the cover body connecting piece 5;

an outer cover outer sealing groove 25 is formed in the position, where the outer water guide cover 2 is in contact with the rotating shell 1, of the outer water guide cover 2; the outer cap outer seal ring 62 is mounted to the outer cap outer seal groove 25.

The outer cover inner sealing ring 61 is arranged at the contact position between the water guide outer cover 2 and the cover body connecting piece 5, so that the moisture can be effectively prevented from entering from the contact gap between the water guide outer cover 2 and the cover body connecting piece, and the sealing property between the water guide outer cover and the cover body connecting piece is improved. Specifically, the outer cover inner sealing ring 61 has certain elasticity, and the water guide outer cover 2 is fixed with the cover body connecting piece 5, so that the outer cover inner sealing ring 61 is deformed, the gap between the outer cover inner sealing ring and the cover body connecting piece can be reduced as much as possible, and the outer cover inner sealing ring and the cover body connecting piece are sealed.

The water guide outer cover 2 plays a main waterproof role, and the outer cover outer sealing ring 62 is arranged between the water guide outer cover 2 and the rotating shell 1, so that water can be prevented from directly entering the rotating shell 1 from the space between the rotating shell 1 and the water guide outer cover 2; meanwhile, the outer cover outer sealing ring 62 has certain elasticity, and when the water guide outer cover 2 is tightly connected with the rotating shell 1, the outer cover outer sealing ring 62 is elastically deformed to reduce a connection gap between the water guide outer cover 2 and the rotating shell 1, so that the waterproofness is improved.

Preferably, the cover connecting part 5 is a driving device, and an output end of the driving device is fixed inside the water guide outer cover 2 and is used for driving the rotating shell 1 to rotate.

The cover body connecting piece 5 can be a common fixed block-shaped object, and only improves the compressing effect; meanwhile, the cover body connecting piece 5 can also be set as a driving device for driving the rotating shell body 1 to rotate; after the drive connecting shell 4 hangs the rotating shell 1 on the wall body, the cover body connecting piece 5 is started, and as the rotating shell 1 is connected with the water guide outer cover 2, the output end of the cover body connecting piece 5 can drive the rotating shell 1 and the water guide outer cover 2 to synchronously rotate, so that the rotation of the functional device in a sealed environment can be realized while the waterproof function is realized.

Specifically, the water guide outer cover 2 is connected with the rotating shell 1, an outer cover outer sealing ring 62 is arranged between the water guide outer cover 2 and the rotating shell 1, when the cover body connecting piece 5 drives the water guide outer cover 2 and the rotating shell 1 to rotate, the outer cover outer sealing ring 62 can also rotate under the driving action of the water guide outer cover 2 and the rotating shell, and the structure of the outer cover outer sealing ring 62 cannot be damaged due to friction between the outer cover outer sealing ring 62 and the shell, namely when the water guide outer cover 2 and the rotating shell 1 rotate, the sealing performance between the water guide outer cover 2 and the; meanwhile, the middle boss 22 and the upper layer 221 contact with the output end of the cover body connecting piece 5, and the outer cover inner sealing ring 61 between the middle boss and the upper layer synchronously rotates, so that the sealing performance between the middle boss and the outer cover inner sealing ring is not influenced; the water guide inner cover 3 is fixed with the driving connection shell 4, the position of the waterproof separation groove structure 31 is kept unchanged, and the direction of the groove opening of the waterproof separation groove structure 31 always faces the waterproof outer annular wall 21 and is used for isolating and guiding water.

Preferably, the rotary case 1 includes: a rotary main housing 11 and a rotary sub-housing 12;

the main rotating shell 11 and the auxiliary rotating shell 12 are integrally formed and combined; the water guide outer cover 2 is arranged on the side wall of the rotating main shell 11;

the output end of the cover body connecting piece 5 drives the water guide outer cover 2 to rotate and drives the rotating main shell 11 and the rotating auxiliary shell 12 to synchronously rotate.

Rotate main shell 11 and rotate 12 integrated into one piece of subshell and connect, it connects in an organic whole to rotate main shell 11 and rotate the subshell 12 both promptly, consequently need the drive to rotate under the vice shell 12 pivoted condition, only need the drive to rotate main shell 11 and rotate and can realize simultaneously drive and rotate vice shell 12, the outside of rotating vice shell 12 need not to increase the mounting hole, only rotate the necessary mounting hole of the outside installation of main shell 11 and be connected with water guide enclosing cover 2, and this mounting hole has the waterproof construction of this scheme again to lead away water, realized rotating the effect that the in-process does not have outside moisture to get into, the leakproofness has been improved. According to the scheme, a plurality of rotating auxiliary shells 12 can be arranged, and the tripod head machine cores with different functions are arranged in the rotating auxiliary shells 12, so that the tripod head pod has the functions of the machine cores with different types; and can drive a single shell body rotation driver to drive the rotation main shell 11, and the rotation auxiliary shell 12 can not enter water.

Preferably, the waterproof separation groove structure 31 is provided with a collection groove 311 and a plurality of waterproof separation grooves 312;

the lower ends of the water separation preventing grooves 312 are communicated with the upper end of the collecting groove 311.

The waterproof branched grooves 312 sequentially extend into the water guide outer cover 2, the more inside the water guide outer cover 2, the more difficult the moisture enters the waterproof branched grooves 312 (such as Q2) close to the inside under the isolation of the waterproof outer annular wall 21, and the moisture can be made to enter the water guide outer cover 2 according to Q2 only by designing a plurality of waterproof branched grooves 312, as shown in fig. 4, 2 waterproof branched grooves 312 are provided; most of the moisture flows out to the bottom in the outer water-proof grooves 312 (e.g., Q3), and the moisture in the water-proof grooves 312 is converged to the collecting groove 311 (e.g., Q4), and flows out uniformly from the collecting groove 311, and the moisture is guided to the water-proof outer annular wall 21 (e.g., Q6) below the collecting groove 311, thereby preventing the moisture from flowing into the water-proof grooves 312.

Preferably, the lower end of the collecting trough 311 is provided with a water guide bottom plate 313 which is obliquely arranged.

When the water flows through the collecting groove 311, the water reaches the water guide bottom plate 313 of the collecting groove 311, and because the water guide bottom plate 313 is arranged obliquely, the water is guided downwards by the guiding function of the water guide bottom plate 313, so that the water is prevented from staying in the collecting groove 311, and the water guiding function and the waterproofness of the waterproof structure are improved.

Preferably, the waterproof partition groove structure 31 is arc-shaped; the two ends of the water separation preventing groove 312 are respectively connected with the collecting groove 311.

The waterproof partition groove structure 31 can be other inclined surface structures, for example, the groove shapes of the waterproof branch groove 312 and the collection groove 311 can be designed into a multi-section curve structure or a linear structure; however, the protection range is within the range that water flows from the high position in the water separation preventing groove 312 to the low position collecting groove 311; the waterproof partition groove structure 31 is preferably circular arc-shaped, and the waterproof separating groove 312 and the collecting groove 311 are circular arc-shaped structures; the circular arc-shaped structure can well surround the cover body connecting piece 5, and water dripped from the upper part is guided by the waterproof separation groove structure 31, so that the inside of the rotating shell 1 is protected, and droppings are prevented from dropping into the cover body connecting piece 5. The two ends of the water-proof sub-groove 312 are respectively connected with the collecting groove 311 to form an unclosed (or closed) annular structure, which facilitates the installation of the cover body connecting piece 5; meanwhile, for the unclosed annular structure, the position of the water guide bottom plate 313 for guiding water out is higher than the closed position, and water droppings guided out of the water guide bottom plate 313 are not easy to splash back when being splashed to the waterproof outer annular wall 21 below; and because of the unclosed annular structure, the time for water to pass through the water separation preventing grooves 312 and the collecting grooves 311 is short relative to the closed state, and the drainage efficiency is higher.

The waterproof partition groove structure 31 is provided with a plurality of waterproof partition grooves 312; the waterproof sub-groove 312 is located between the middle boss 22 and the waterproof outer annular wall 21; the water-proof grooves 312 are separated by inner side walls 314; the height of the inner side wall 314 adjacent to the water-proof sub-groove 312 is reduced in sequence from the outside to the inside of the water guide outer cover 2.

A cradle head pod comprises a cradle head core 006 and a waterproof structure 005;

the waterproof structure is the waterproof structure;

the holder core is arranged in the rotating shell 1.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. The utility model provides an automatic waterproof construction of water guide which characterized in that includes: the water guide cover comprises a rotary shell, a water guide outer cover, a water guide inner cover, a drive connecting shell and a cover body connecting piece;

the water guide outer cover is arranged on the outer side of the rotating shell; a connecting piece accommodating groove is formed in the drive connecting shell; the cover body connecting piece is arranged in the connecting piece accommodating groove; the cover body connecting piece is connected to the inside of the water guide outer cover; the water guide inner cover is arranged at the opening of the connecting piece accommodating groove and surrounds the outer side of the connecting piece of the cover body;

the water guide outer cover is provided with a waterproof outer ring wall; the water guide inner cover is provided with a waterproof separation groove structure; the waterproof partition groove structure extends into the water guide outer cover and is positioned on the inner side of the waterproof outer ring wall; the direction of the groove opening of the waterproof partition groove structure faces the waterproof outer ring wall; the upper end of the waterproof partition groove structure forms a height difference with the bottom end of the waterproof partition groove structure, and liquid in the groove is drained from a high position to a low position.

2. The automatic water guiding waterproof structure as claimed in claim 1, wherein the water guiding outer cover is provided with a middle boss; the upper layer surface and the lower layer surface of the middle boss form a height difference;

the outer cover inner sealing groove is arranged on the surface of the upper layer surface; the cover body connecting piece is connected to the upper layer surface; the waterproof partition groove structure is positioned between the middle boss and the waterproof outer annular wall.

3. The automatic water guiding waterproof structure as claimed in claim 2, wherein the central boss is provided with a water guiding inclined end face;

the water guide inclined end face is transited from the lower layer face with a large area to the upper layer face with a small area.

4. The automatically water guiding waterproof structure as claimed in claim 3, further comprising: the outer cover inner sealing ring and the outer cover outer sealing ring;

the water guide outer cover is provided with an outer cover inner sealing groove at the contact position between the water guide outer cover and the cover body connecting piece; the outer cover inner sealing ring is arranged in the outer cover inner sealing groove and is pressed tightly by the cover body connecting piece;

the outer water guide cover is provided with an outer cover outer sealing groove at the contact position of the outer water guide cover and the rotating shell; the outer cover outer sealing ring is arranged in the outer cover outer sealing groove.

5. The automatic water guiding waterproof structure as claimed in claim 1, wherein the cover connecting member is a driving device, and an output end of the cover connecting member is fixed inside the water guiding outer cover for driving the rotation housing to rotate.

6. The automatic water guiding waterproof structure as claimed in claim 5, wherein the rotation housing comprises: a rotating main shell and a rotating auxiliary shell;

the main rotating shell and the auxiliary rotating shell are integrally formed and combined; the water guide outer cover is arranged on the side wall of the rotating main shell;

the output end of the cover body connecting piece drives the water guide outer cover to rotate and drives the rotating main shell and the rotating auxiliary shell to synchronously rotate.

7. The automatic water guiding waterproof structure according to any one of claims 1 to 6, wherein the waterproof partition structure is provided with a collection groove and a plurality of waterproof branch grooves;

the lower ends of the plurality of water-proof grooves are communicated with the upper end of the gathering groove.

8. The automatic water guiding waterproof structure as claimed in claim 7, wherein the lower end of the collecting trough is provided with a water guiding bottom plate which is obliquely arranged.

9. The automatic water guiding waterproof structure according to claim 8, wherein the waterproof partition groove structure is arc-shaped; and two ends of the waterproof branch groove are respectively connected with the collection groove.

10. A cloud deck pod is characterized by comprising a cloud deck core and a waterproof structure;

the waterproof structure is the waterproof structure according to any one of claims 1 to 9;

the holder core is arranged in the rotating shell.

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