CN213192385U - Compact diving goggles capable of reducing resistance - Google Patents

Abstract

The utility model discloses a compact diving goggles capable of reducing resistance, which comprises a goggle bracket, lenses and a soft rubber mask, wherein the goggle bracket comprises a goggle bracket main body and a limit frame, the goggle bracket main body is provided with a goggle frame, and the inner edge of the goggle frame is provided with a first embedded convex plate and a first embedded concave position; the middle part of the main body of the spectacle frame is provided with an arc embedded convex edge; the limiting frame is provided with a second embedded concave position and a second embedded convex plate; an arc embedding groove is arranged in the middle of the limiting frame; the soft rubber mask is connected to the rear end of the spectacle frame main body, a notch is concavely arranged in the middle of the top of the soft rubber mask, a water chute is formed between the notch and the spectacle frame main body, and the water chute is communicated with a gap between the bridge of the nose and the spectacle hole. Therefore, the water chute is arranged between the soft rubber mask and the spectacle frame, so that water flow above and below the diving goggles is communicated through the water chute, and the diving resistance is reduced. Meanwhile, all parts of the diving goggles are compactly matched, and the diving goggles are small in overall size, stable and durable.

Description

Compact diving goggles capable of reducing resistance

Technical Field

The utility model belongs to the technical field of diving equipment technique and specifically relates to indicate a compact diving goggles of reducible resistance.

Background

Diving goggles are a kind of underwater activity which is more and more popular in the present time, and are protection devices which are used for protecting divers from water choking, protecting eyes from stimulation of seawater and other foreign matters and facilitating viewing of submarine landscapes. The common diving goggles mainly comprise a soft face mask, a goggle bracket and a protective lens, wherein the lens is fixed between the goggle brackets. The existing diving goggles have larger volume because the goggle bracket is made of plastic materials; the assembly and matching structures among all the parts of the diving goggles are few, and the diving goggles are easy to loosen, poor in stability and easy to deform; and the existing diving goggles are usually closed, so that the design is easy to generate large resistance when used in water. Therefore, the existing diving goggles should be improved to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a compact diving goggles with reduced resistance, which is provided with a water chute between the soft rubber mask and the lens frame, so that the water flow above and below the diving goggles is communicated by the water chute, and the water pressure above and below the diving goggles is the same, thereby reducing the diving resistance. Meanwhile, all parts of the diving goggles are compactly matched, and the diving goggles are small in overall size, stable and durable.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a compact diving goggles capable of reducing resistance comprises a goggle bracket, lenses and a soft rubber mask, wherein the goggle bracket comprises a goggle bracket main body and a limit frame detachably arranged on the goggle bracket main body, the goggle bracket main body is provided with a goggle frame, a plurality of first embedded convex plates and first embedded concave positions are arranged on the inner edge of the goggle frame, the first embedded convex plates and the first embedded concave positions are arranged adjacently in a staggered mode, embedded notches are arranged on the inner edge of the goggle frame corresponding to the first embedded convex plates, and the embedded notches are positioned below the first embedded convex plates; the lower edge of the middle part of the main body of the spectacle frame is provided with an arc embedded convex edge; the two side edges and the upper edge of the limit frame are respectively provided with a second embedded concave position and a second embedded convex plate, and the second embedded convex plate is clamped in the first embedded concave position; the second embedding concave position is provided with an embedding convex block corresponding to the embedding notch, the first embedding convex plate is clamped in the second embedding concave position, and the embedding convex block is clamped in the embedding notch; an arc embedding groove is arranged on the lower edge of the middle part of the limiting frame corresponding to the arc embedding convex edge, and the arc embedding convex edge is clamped in the arc embedding groove; the soft rubber mask is connected to the rear end of the spectacle frame main body, two spectacle holes are formed in the soft rubber mask corresponding to the lenses, and the lenses are arranged in the spectacle holes; be provided with bridge of the nose portion in flexible glue face guard middle part, this bridge of the nose portion is located two mirror holes below, has the clearance between bridge of the nose portion both sides and the homonymy mirror hole, is equipped with a breach in the middle of flexible glue face guard top in a concave way, forms the guiding gutter between this breach and the mirror holder main part, and this guiding gutter is linked together with the clearance between bridge of the nose portion and the mirror hole.

As a preferred embodiment: the arc embedding convex edge side is provided with a limiting notch, a limiting block is arranged on the arc embedding groove side corresponding to the limiting notch, the arc embedding convex edge is clamped in the arc embedding groove, and the limiting block is clamped in the limiting notch.

As a preferred embodiment: and two annular pressing frames are arranged on one side of the limiting frame, and the embedded lug and the limiting block are respectively formed by extending the annular pressing frames outwards.

As a preferred embodiment: the outer part of the lens hole of the soft rubber mask is surrounded to form a clamping outer brim, a clamping inner brim is arranged on the inner wall of the lens frame corresponding to the clamping outer brim, and the clamping outer brim extends into the lens frame and is nested on the clamping inner brim; the inner wall of the lens hole is provided with an embedding step for embedding a lens in a surrounding way, and the lens is arranged on the embedding step.

As a preferred embodiment: the soft rubber mask comprises a supporting frame connected with the spectacle frame main body and a mask integrally connected with the rear end of the supporting frame.

As a preferred embodiment: the face guard is including the extension of pasting face portion and integrative the connection between face portion and above-mentioned carriage with the laminating of wearer's face, is connected with the enhancement strip that is used for strengthening face guard overall structure intensity between extension and the face portion outer wall that pastes.

As a preferred embodiment: and a waterproof strip which enables the face mask to be further attached to the face of a wearer to prevent water from entering the face mask is arranged on the inner wall of the joint of the face mask part and the extension part.

As a preferred embodiment: the upper surface of the second embedded convex plate of the limiting frame is provided with a plurality of anti-skid grooves.

As a preferred embodiment: the middle part of the upper edge of the main body of the spectacle frame is provided with a sunken part corresponding to the notch of the soft rubber mask, and the sunken part and the upper end of the notch are combined to form a water guide inlet of the water guide groove.

As a preferred embodiment: the middle part of the spectacle frame main body is provided with a nose bridge frame, and the arc embedding convex edge extends from one side of the nose bridge frame to the other side of the nose bridge frame; the shape of the arc embedding groove is matched with that of the arc embedding convex edge.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme, through constituting the diving goggles by mirror holder, lens and flexible glue face guard combination, set up the guiding gutter between flexible glue face guard and mirror holder, make diving goggles top and below rivers communicate by the guiding gutter. Therefore, the water pressure on the upper part and the lower part of the diving goggles is the same, the water pressure on the diving goggles is reduced, the resistance on the diving goggles when moving in water is reduced, the diving of a diver is smoother, and the diving experience is improved. Meanwhile, each component of the diving goggles is mutually limited and fixed through a multiple matching structure, so that the whole structure of the diving goggles is more compact, the size is smaller and more ingenious, and the diving goggles are more stable and durable.

To more clearly illustrate the structural features and effects of the present invention, the following detailed description is given with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a perspective view of a first viewing angle of the diving goggles of the present invention;

FIG. 2 is a perspective view of a second perspective of the diving goggles of the present invention;

FIG. 3 is a perspective view of the third viewing angle of the diving goggles of the present invention;

FIG. 4 is an exploded perspective view of the diving goggles of the present invention;

FIG. 5 is another perspective exploded view of the diving goggles of the present invention;

fig. 6 is a perspective view of the mirror holder of the present invention;

fig. 7 is a perspective view of another perspective of the frame of the present invention;

fig. 8 is a perspective view of the main body of the spectacle frame of the present invention.

The attached drawings indicate the following:

10. spectacle frame 11 and spectacle frame main body

111. Frame 112, first embedded convex plate

113. First embedding concave part 114, embedding notch

115. Arc embedded convex edge 116 and nose bridge frame

117. Limiting notch 118 and concave part

119. Clamping the inner eave 12 and the limit frame

121. A second embedding concave part 122 and a second embedding convex plate

123. Anti-skid groove 124 and embedded lug

125. Arc embedding groove 126 and annular pressing frame

127. Stopper 13 and connecting part

20. Lens

30. Soft rubber face mask 31 and lens hole

32. Bridge 33, gap

34. Notch 35, clamping outer eaves

36. Embedded step 37 and support frame

38. Face mask 381, face-fitting part

382. Extension 383 and reinforcing bar

384. Waterproof strip 40 and water chute

41. A water introduction inlet.

Detailed Description

The utility model discloses as shown in fig. 1 to 8, a compact diving goggles of reducible resistance, including mirror holder 10, two lenses 20 and flexible glue face guard 30, wherein:

the mirror holder 10 comprises a mirror holder body 11 and a limit frame 12 detachably mounted on the mirror holder body 11, wherein the mirror holder body 11 is provided with a mirror frame 111, the inner edge of the mirror frame 111 is provided with a plurality of first embedding convex plates 112 and first embedding concave positions 113, the first embedding convex plates 112 and the first embedding concave positions 113 are arranged adjacently in a staggered manner (the staggered arrangement can ensure that the mirror holder body 11 and the limit frame 12 are mutually occluded and fixed, so that the two are combined more tightly), an embedding notch 114 is arranged on the inner edge of the mirror frame 111 corresponding to the first embedding convex plates 112, and the embedding notch 114 is positioned below the first embedding convex plates 112. The lower edge of the middle part of the main body 11 of the spectacle frame is provided with an arc embedding convex edge 115; the two side edges and the upper edge of the position-limiting frame 12 are respectively provided with a second embedded concave portion 121 and a second embedded convex plate 122, the second embedded convex plate 122 is clamped in the first embedded concave portion 113, and the upper surface of the second embedded convex plate 122 is provided with a plurality of anti-skid grooves 123 (the anti-skid grooves 123 can play a role in skid resistance when holding the diving goggles, and can also play a role in skid resistance when assembling the goggle bracket 10). The second embedding recess 121 is provided with an embedding protrusion 124 corresponding to the embedding notch 114, the first embedding convex plate 112 is held in the second embedding recess 121, the embedding protrusion 124 is held in the embedding notch 114, and the matching between the embedding protrusion 124 and the embedding notch 114 can further improve the matching tightness between the first embedding convex plate 112 and the second embedding recess 121.

An arc embedding groove 125 is formed in the lower edge of the middle portion of the position-limiting frame 12 corresponding to the arc embedding convex edge 115, the arc embedding convex edge 115 is clamped in the arc embedding groove 125, and the arc embedding convex edge 115 and the arc embedding groove 125 are matched to enable the middle portion of the glasses frame main body 11 and the position-limiting frame 12 to be combined more tightly so as to prevent loosening.

In addition, the frame body 11 has a bridge 116 in the middle, the arc-shaped fitting groove 125 is formed to match the arc-shaped fitting ledge 115, and the arc-shaped fitting ledge 115 extends from one side of the bridge 116 to the other side of the bridge 116 in an inverted V-shape. Two annular pressing frames 126 (for limiting the lens 20 in the frame 111) are disposed on the limiting frame 12 at the side of the lens 20 corresponding to the lens 20, the embedding protrusion 124 is formed by extending the annular pressing frame 126 outward, and a limiting block 127 is disposed on the annular pressing frame 126, the limiting block 127 is disposed at the side of the arc embedding groove 125. A limiting notch 117 is arranged beside the arc embedding convex edge 115, the limiting notch 117 is matched with the limiting block 127, and after the arc embedding convex edge 115 is clamped in the arc embedding groove 125, the limiting block 127 is clamped in the limiting notch 117. And a connecting portion 13 for connecting a strap is provided at each end of the frame 10.

The soft rubber mask 30 is connected to the rear end of the spectacle frame main body 11, and two spectacle holes 31 are formed in the soft rubber mask 30 corresponding to the two lenses 20; the middle part of the soft rubber mask 30 is provided with a nose bridge part 32, the nose bridge part 32 is positioned at the lower position between the two mirror holes 31, and gaps 33 are respectively formed between the two sides of the nose bridge part 32 and the corresponding side mirror holes 31. A notch 34 is concavely arranged in the middle of the top of the soft rubber mask 30, a water chute 40 is formed between the notch 34 and the spectacle frame main body 11, and the water chute 40 is communicated with the gap between the nose bridge part 32 and the spectacle hole 31. A recess 118 is provided in the middle of the upper edge of the frame body 11 corresponding to the notch 34 of the soft rubber mask 30, and the recess 118 and the upper end of the notch 34 form a water inlet 41 of the water chute 40. The outer part of the lens hole 31 of the soft rubber mask 30 is surrounded to form a clamping outer brim 35, a clamping inner brim 119 is arranged on the inner wall of the lens frame 111 corresponding to the clamping outer brim 35, and the clamping outer brim 35 extends into the lens frame 111 and is nested on the clamping inner brim 119; an insertion step 36 for inserting the lens 20 is provided around the inner wall of the lens hole 31, and the lens 20 is mounted on the insertion step 36.

The soft rubber mask 30 comprises a supporting frame 37 connected with the main body 11 of the spectacle frame and a mask 38 integrally connected with the rear end of the supporting frame 37; the face mask 38 includes a face-fitting portion 381 adapted to fit the face of the wearer, and an extension portion 382 integrally connected between the face-fitting portion 381 and the support frame 37, and a reinforcing strip 383 for reinforcing the overall structural strength of the face mask 38 is connected between the extension portion 382 and the outer wall of the face-fitting portion 381. A waterproof strip 384 is provided on the inner wall where the face-fitting portion 381 and the extension 382 join to further fit the face mask 38 to the wearer's face to prevent water from entering the face mask 38.

The utility model discloses a design is key in that, through constituting the swim goggles by mirror holder, lens and flexible glue face guard combination, set up the guiding gutter between flexible glue face guard and mirror holder, make swim goggles top and below rivers communicate by the guiding gutter. Therefore, the water pressure on the upper part and the lower part of the diving goggles is the same, the water pressure on the diving goggles is reduced, the resistance on the diving goggles when moving in water is reduced, the diving of a diver is smoother, and the diving experience is improved. Meanwhile, each component of the diving goggles is mutually limited and fixed through a multiple matching structure, so that the whole structure of the diving goggles is more compact, the size is smaller and more ingenious, and the diving goggles are more stable and durable.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modification, equivalent change and modification made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. A compact diving goggles that reduces drag, comprising: the spectacle frame comprises a spectacle frame body and a limit frame detachably arranged on the spectacle frame body, wherein the spectacle frame body is provided with a spectacle frame, the inner edge of the spectacle frame is provided with a plurality of first embedded convex plates and first embedded concave positions, the first embedded convex plates and the first embedded concave positions are arranged adjacently in a staggered mode, embedded notches are arranged on the inner edge of the spectacle frame corresponding to the first embedded convex plates, and the embedded notches are positioned below the first embedded convex plates; the lower edge of the middle part of the main body of the spectacle frame is provided with an arc embedded convex edge; the two side edges and the upper edge of the limit frame are respectively provided with a second embedded concave position and a second embedded convex plate, and the second embedded convex plate is clamped in the first embedded concave position; the second embedding concave position is provided with an embedding convex block corresponding to the embedding notch, the first embedding convex plate is clamped in the second embedding concave position, and the embedding convex block is clamped in the embedding notch; an arc embedding groove is arranged on the lower edge of the middle part of the limiting frame corresponding to the arc embedding convex edge, and the arc embedding convex edge is clamped in the arc embedding groove; the soft rubber mask is connected to the rear end of the spectacle frame main body, two spectacle holes are formed in the soft rubber mask corresponding to the lenses, and the lenses are arranged in the spectacle holes; be provided with bridge of the nose portion in flexible glue face guard middle part, this bridge of the nose portion is located two mirror holes below, has the clearance between bridge of the nose portion both sides and the homonymy mirror hole, is equipped with a breach in the middle of flexible glue face guard top in a concave way, forms the guiding gutter between this breach and the mirror holder main part, and this guiding gutter is linked together with the clearance between bridge of the nose portion and the mirror hole.

2. The drag reducing compact diving mask of claim 1, wherein: the arc embedding convex edge side is provided with a limiting notch, a limiting block is arranged on the arc embedding groove side corresponding to the limiting notch, the arc embedding convex edge is clamped in the arc embedding groove, and the limiting block is clamped in the limiting notch.

3. The drag reducing compact diving mask of claim 2, wherein: and two annular pressing frames are arranged on one side of the limiting frame, and the embedded lug and the limiting block are respectively formed by extending the annular pressing frames outwards.

4. The drag reducing compact diving mask of claim 1, wherein: the outer part of the lens hole of the soft rubber mask is surrounded to form a clamping outer brim, a clamping inner brim is arranged on the inner wall of the lens frame corresponding to the clamping outer brim, and the clamping outer brim extends into the lens frame and is nested on the clamping inner brim; the inner wall of the lens hole is provided with an embedding step for embedding a lens in a surrounding way, and the lens is arranged on the embedding step.

5. The drag reducing compact diving mask of claim 1, wherein: the soft rubber mask comprises a supporting frame connected with the spectacle frame main body and a mask integrally connected with the rear end of the supporting frame.

6. The drag reducing compact diving mask of claim 5, wherein: the face guard is including the extension of pasting face portion and integrative the connection between face portion and above-mentioned carriage with the laminating of wearer's face, is connected with the enhancement strip that is used for strengthening face guard overall structure intensity between extension and the face portion outer wall that pastes.

7. The drag reducing compact diving mask of claim 6, wherein: and a waterproof strip which enables the face mask to be further attached to the face of a wearer to prevent water from entering the face mask is arranged on the inner wall of the joint of the face mask part and the extension part.

8. The drag reducing compact diving mask of claim 1, wherein: the upper surface of the second embedded convex plate of the limiting frame is provided with a plurality of anti-skid grooves.

9. The drag reducing compact diving mask of claim 1, wherein: the middle part of the upper edge of the main body of the spectacle frame is provided with a sunken part corresponding to the notch of the soft rubber mask, and the sunken part and the upper end of the notch are combined to form a water guide inlet of the water guide groove.

10. The drag reducing compact diving mask of claim 1, wherein: the middle part of the spectacle frame main body is provided with a nose bridge frame, and the arc embedding convex edge extends from one side of the nose bridge frame to the other side of the nose bridge frame; the shape of the arc embedding groove is matched with that of the arc embedding convex edge.

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