CN219096936U - Double-deck paddle board of standing of aerifing - Google Patents

Abstract

The utility model discloses a double-layer inflatable standing paddle board which is characterized by comprising a first inflatable board and a second inflatable board, wherein the first inflatable board comprises a first needle leakage layer; the second inflatable plate comprises two second leak-stitch layers which are adjacent to each other in the transverse direction; the two second needle leakage layers of the second air charging plate are arranged on the first air charging plate and are connected with the first air charging plate; the second inflatable plate is provided with a through opening, and a standing area of the first inflatable plate is arranged on the inner side of the opening. According to the utility model, the influence of water on the stability of the paddle board caused by the fact that the water passes through the paddle board from the front end in the moving process of the paddle board can be prevented; the paddle board is prevented from sinking under the condition of air leakage, and the buoyancy of the paddle board can be increased; can save the material of the needle leakage layer and greatly reduce the cost.

Description

Double-deck paddle board of standing of aerifing

Technical Field

The utility model relates to a double-layer inflatable standing paddle board, and belongs to the technical field of inflatable sports products.

Background

Standing paddle surfing is now becoming more popular, and surfers stand on paddles that move over water using paddles that can be used on calm water surfaces, but also in torrents and rivers in other bodies of water. The existing standing type paddle board is generally of a single-layer flat plate structure, in order to improve the safety of the paddle board, some paddle boards are provided with two air chambers, the paddle boards are prevented from sinking under the condition of air leakage, the single-layer flat plate structure is provided with an inflatable paddle board, the defect that water easily passes through the paddle board from the front end in the moving process of the paddle board to influence the stability of the paddle board is overcome, the air chambers of the single-layer flat plate structure are limited in smaller buoyancy, and the single-layer flat plate structure is insufficient in rigidity and easy to bend and deform when the load is large.

Disclosure of Invention

The utility model aims to solve the technical problems that: in the moving process of the paddle board, the problem that the stability of the paddle board is affected by how to prevent water from overflowing the paddle board from the front end is solved.

In order to solve the technical problems, the technical scheme of the utility model provides a double-layer inflatable standing paddle board, which is characterized by comprising a first inflatable plate and a second inflatable plate connected to the first inflatable plate, wherein the first inflatable plate comprises a first needle leakage layer; the second inflatable plate comprises two second leak-stitch layers which are adjacent to each other in the transverse direction; the second inflatable plate is provided with a through opening, and a standing area of the first inflatable plate is arranged on the inner side of the opening.

Preferably, the outer connecting piece is arranged on the outer sides of the first air charging plate and the second air charging plate and is connected with the first air charging plate and the second air charging plate, and the inner connecting piece is arranged on the inner side of the second air charging plate and is connected with the first air charging plate and the second air charging plate.

Preferably, the upper edge of the outer connecting sheet is connected with the upper surface edge of the second inflatable plate, and the lower edge of the outer connecting sheet is connected with the lower surface edge of the first inflatable plate; the upper edge of the inner connecting piece is connected with the upper surface edge of the second air charging plate, and the lower edge of the inner connecting piece is connected with the upper surface of the first air charging plate.

Preferably, the first and second miss needle layers comprise an upper fabric layer and a lower fabric layer which are arranged at intervals up and down, and the upper fabric layer and the lower fabric layer are connected through a plurality of stay wires; the upper surface of the upper fabric layer is provided with an upper rubberized fabric layer, and the lower surface of the lower fabric layer is provided with a lower rubberized fabric layer.

Preferably, the edges of the upper rubberized fabric layer and the lower rubberized fabric layer of the first needle leakage layer are connected with a peripheral side piece to form a first air chamber; the two second leak needle layers of the second inflatable plate are connected into a whole through the connecting sheet, the outer side edges of the rubberizing cloth layer and the lower rubberizing cloth layer of the second inflatable plate are connected with the other peripheral side sheet, and the inner side edges of the rubberizing cloth layer and the lower rubberizing cloth layer of the second leak needle layer are connected with the inner peripheral side sheet to form a second air chamber.

Preferably, the upper surface of the first inflatable plate is provided with an anti-slip layer, and the anti-slip layer is arranged in a standing area of the first inflatable plate.

Preferably, the two second needle leakage layers of the second inflatable plate are of symmetrical arc structures, so that the second inflatable plate forms a U-shaped structure with a through opening, and the standing area of the first inflatable plate is arranged on the inner side of the U-shaped structure.

Preferably, the two second needle leakage layers of the second inflatable plate are in symmetrical arc structures, so that the second inflatable plate forms a closed ring-shaped structure with a through opening, and the standing area of the first inflatable plate is arranged on the inner side of the ring-shaped structure.

Preferably, two reinforcing plates are further arranged on the outer sides of two sides of the first air inflation plate and the second air inflation plate, the two reinforcing plates are arranged between the outer connecting sheets and the first air inflation plate and the second air inflation plate, and extend from the middle parts of the first air inflation plate and the second air inflation plate to the front and rear directions respectively.

Preferably, the two reinforcing plates are connected with the inner surface of the outer connecting sheet; the outer connecting sheet is provided with a through hole for displaying the two reinforcing plates.

Compared with the prior art, the utility model has the following technical effects:

1. the second inflatable plate can prevent water from overflowing the paddle plate from the front end in the moving process of the paddle plate to influence the stability of the paddle plate;

2. the second inflatable plate and the first inflatable plate are arranged up and down to form a double-air-chamber structure which is arranged up and down, so that the paddle board can be prevented from sinking under the condition of air leakage, and the buoyancy of the paddle board can be increased;

3. the second inflatable plate is provided with two second needle leakage layers which are transversely arranged, so that the material of the needle leakage layers can be saved through makeup cutting, and the cost is greatly reduced;

4. the rigidity of the inflatable standing paddle board can be increased by the two reinforcing plates on two sides of the second inflatable board and the first inflatable board, and the middle part of the inflatable standing paddle board is prevented from bending and deforming under the condition of large load of the inflatable standing paddle board.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a dual-layer inflatable standing paddle (the second inflatable plate is U-shaped);

FIG. 2 is a schematic view of a structure of a needle leakage layer of the dual-layer inflated standing paddle shown in FIG. 1;

FIG. 3 is a schematic view of the overall structure of a dual-layer inflated standing paddle (with the second inflatable panel in a closed loop configuration);

FIG. 4 is a schematic view of a structure of a needle leakage layer of the dual-layer inflated standing paddle shown in FIG. 3;

FIG. 5 is a cross-sectional view A-A of FIG. 1;

fig. 6 is a schematic diagram of a single needle leakage layer of a dual layer inflated standing paddle.

Detailed Description

In order to make the utility model more comprehensible, preferred embodiments accompanied with figures are described in detail below.

The utility model provides a double-layer inflatable standing paddle board, which is shown in figures 1-4, and comprises a first inflatable board 1, a second inflatable board 3, an outer connecting piece 5 and an inner connecting piece 2, wherein the second inflatable board 3, the outer connecting piece 5 and the inner connecting piece 2 are connected to the first inflatable board 1, and the first inflatable board 1 comprises a needle leakage layer, namely a first needle leakage layer 11; the second inflatable plate 3 has a through opening inside which the standing area Z of the first inflatable plate 1 is arranged, the second inflatable plate 3 comprising two laterally adjacent, i.e. two second, needle-leaking layers 12.

The outer connecting piece 5 is arranged on the outer sides of the first air-charging plate 1 and the second air-charging plate 3 and is connected with the first air-charging plate 1 and the second air-charging plate 3, and the inner connecting piece 2 is arranged on the inner side of the second air-charging plate 3 and is connected with the first air-charging plate 1 and the second air-charging plate 3.

As shown in fig. 5 and 6, the miss-stitch layer (i.e., the first miss-stitch layer 11 and the second miss-stitch layer 12) includes an upper fabric layer 16 and a lower fabric layer 17 which are connected to each other by a plurality of pull wires 19 and are spaced up and down, i.e., between the upper fabric layer 16 and the lower fabric layer 17, by a plurality of pull wires 19. The outer surfaces of the upper fabric layer 16 and the lower fabric layer 17 are respectively provided with an upper rubberized fabric layer 14 and a lower rubberized fabric layer 18 (such as PVC rubberized fabric or PU rubberized fabric), namely, the upper surface of the upper fabric layer 16 is provided with the upper rubberized fabric layer 14, and the lower surface of the lower fabric layer 17 is provided with the lower rubberized fabric layer 18.

The edges of the upper and lower cloth layers 14 and 18 of the first inflatable panel 1 are connected to a peripheral side panel 20 defining a first air chamber; the two second needle leakage layers 12 of the second inflatable plate 3 are connected into a whole through connecting pieces (namely an upper connecting piece 9 and a lower connecting piece 10, as shown in fig. 2 and 4), the outer side edges of an upper rubberized fabric layer 14 and a lower rubberized fabric layer 18 of the second inflatable plate 3 are connected with the other peripheral side piece 20, and the inner side edges of the upper rubberized fabric layer 14 and the lower rubberized fabric layer 18 of the second needle leakage layer 12 are connected with the inner peripheral side piece 13, so as to define a second air chamber.

The upper edge of the outer connecting sheet 5 is connected with the upper surface edge of the rubberized fabric layer 14 of the second inflatable plate 3 in an adhesive mode after being bent, and the lower edge of the outer connecting sheet 5 is connected with the lower surface edge of the lower rubberized fabric layer 18 of the first inflatable plate 1 in an adhesive mode after being bent; the upper edge of the inner connecting piece 2 is bent and then connected with the upper surface edge of the rubberizing cloth layer 14 of the second inflatable plate 3 in an adhesive mode, and the lower edge of the inner connecting piece 2 is bent and then connected with the upper surface of the rubberizing cloth layer 14 of the first inflatable plate 1 in an adhesive mode.

The first inflatable plate 1 is provided with an anti-slip layer 15, the anti-slip layer 15 is connected with the rubberizing fabric layer 14 of the first inflatable plate 1 in an adhesive mode, and the anti-slip layer 15 is arranged in the standing area Z of the first inflatable plate 1.

The two second needle leakage layers 12 of the second inflatable plate 3 are of symmetrical arc structures, and the two second needle leakage layers 12 are spliced into a U-shaped structure (shown in fig. 2), so that the second inflatable plate 3 forms the U-shaped structure (shown in fig. 1) with a through opening, and the standing area Z of the first inflatable plate 1 is arranged on the inner side of the U-shaped structure. In another embodiment, the two second leak-stitch layers 12 of the second air inflation plate 3 are in symmetrical arc structures. Alternatively, the two second needle-leaking layers 12 are combined into a closed ring-shaped structure (as shown in fig. 3), so that the standing area Z of the first air-inflating plate 1, which is formed by the second air-inflating plate 3 having a ring-shaped structure with a through opening (as shown in fig. 4), is provided inside the ring-shaped structure. (wherein the front end of the first inflatable plate 1 is Q and the rear end of the first inflatable plate 1 is H)

At least one of the outer connecting piece 5, the inner connecting piece 2, the upper connecting piece 9 and the lower connecting piece 10 is made of a net clamping adhesive tape material. The net clamping adhesive tape comprises two layers of PVC or PU adhesive tapes and net cloth clamped between the two layers of adhesive tapes. In this embodiment, the outer connecting piece 5, the inner connecting piece 2, the upper connecting piece 9 and the lower connecting piece 10 are made of a net-sandwiched adhesive tape.

As shown in fig. 1 and 5, two reinforcing plates 6 (carbon fiber plates, glass fiber reinforced plastic plates or metal plates) are further arranged on the outer sides of the two sides of the first air-filled plate 1 and the second air-filled plate 3, and the two reinforcing plates 6 are arranged between the outer connecting piece 5 and the first air-filled plate 1 and the second air-filled plate 3 and extend in the front-rear direction from the middle parts of the first air-filled plate 1 and the second air-filled plate 3 respectively.

The two reinforcing plates 6 are connected with the inner surface of the outer connecting sheet 5 by means of glue. The outer connecting sheet 5 is provided with a through hole 7 for displaying the two reinforcing plates 6, the two reinforcing plates 6 can strengthen the rigidity of the double-layer inflatable standing paddle board, and the double-layer inflatable standing paddle board is prevented from bending after being loaded.

In a specific implementation, the front end of the first inflatable plate 1 is aligned with the front end of the second inflatable plate 3, or the front end of the second inflatable plate 3 protrudes beyond the front end of the first inflatable plate 1. The length of the second inflatable panel 3 is less than or equal to the length of the first inflatable panel 1. The first air-charging plate 1 and the second air-charging plate 3 are respectively provided with an air valve, namely a rear air valve 8 positioned on the first air-charging plate 1, and a front air valve 4 positioned on the second air-charging plate 3 for charging and discharging the first air-charging plate 1 and the second air-charging plate 3.

Claims (10)

1. A double-layer inflatable standing paddle board is characterized by comprising a first inflatable board (1) and a second inflatable board (3) connected to the first inflatable board (1), wherein the first inflatable board (1) comprises a first needle leakage layer (11); the second inflatable plate (3) comprises two second leak-stitch layers (12) which are adjacent to each other in the transverse direction; the second inflatable plate (3) is provided with a through opening, and a standing area (Z) of the first inflatable plate (1) is arranged on the inner side of the opening.

2. A dual-layer inflatable standing paddle according to claim 1, further comprising an outer connecting piece (5) and an inner connecting piece (2), wherein the outer connecting piece (5) is arranged on the outer sides of the first inflatable plate (1) and the second inflatable plate (3) and is connected with the first inflatable plate (1) and the second inflatable plate (3), and the inner connecting piece (2) is arranged on the inner side of the second inflatable plate (3) and is connected with the first inflatable plate (1) and the second inflatable plate (3).

3. A double-deck inflatable standing paddle according to claim 2, wherein the upper edge of the outer connecting piece (5) is connected with the upper surface edge of the second inflatable plate (3), and the lower edge of the outer connecting piece (5) is connected with the lower surface edge of the first inflatable plate (1); the upper edge of the inner connecting sheet (2) is connected with the upper surface edge of the second inflatable plate (3), and the lower edge of the inner connecting sheet (2) is connected with the upper surface of the first inflatable plate (1).

4. A double-layer inflatable standing paddle according to claim 1, wherein the first and second needle-leaking layers (11, 12) each comprise an upper fabric layer (16) and a lower fabric layer (17) arranged at intervals up and down, and the upper fabric layer (16) and the lower fabric layer (17) are connected by a plurality of stay wires (19); the upper surface of the upper fabric layer (16) is provided with an upper adhesive tape layer (14), and the lower surface of the lower fabric layer (17) is provided with a lower adhesive tape layer (18).

5. A two-layer inflated standing paddle board as claimed in claim 4 wherein the edges of the upper (14) and lower (18) rubberized fabric layers of the first leak-stitch layer (11) are joined to a peripheral side panel (20) to form a first air chamber; the two second needle leakage layers (12) of the second inflatable plate (3) are connected into a whole through connecting sheets, the outer side edges of the upper adhesive tape layer (14) and the lower adhesive tape layer (18) of the second inflatable plate (3) are connected with the other peripheral side sheet (20), and the inner side edges of the upper adhesive tape layer (14) and the lower adhesive tape layer (18) of the second needle leakage layer (12) are connected with the inner peripheral side sheet (13) to form a second air chamber.

6. A two-layer inflatable standing paddle according to claim 1, wherein the upper surface of the first inflatable panel (1) is provided with an anti-slip layer (15), the anti-slip layer (15) being arranged in the standing area (Z) of the first inflatable panel (1).

7. A two-layer inflated standing paddle as claimed in claim 1, wherein the two second needle-leaking layers (12) of the second inflatable panel (3) are of symmetrical arc-shaped construction, so that the second inflatable panel (3) forms a U-shaped construction with a through opening, and the standing area (Z) of the first inflatable panel (1) is arranged inside the U-shaped construction.

8. A two-layer inflated standing paddle as claimed in claim 1, characterized in that the two second needle-leaking layers (12) of the second inflatable panel (3) are of symmetrical arc-shaped construction, so that the second inflatable panel (3) forms a closed ring-shaped construction with a through opening, the standing zone (Z) of the first inflatable panel (1) being arranged inside the ring-shaped construction.

9. The double-layer inflatable standing paddle board according to claim 2, wherein two reinforcing plates (6) are further arranged on the outer sides of two sides of the first inflatable plate (1) and the second inflatable plate (3), the two reinforcing plates (6) are arranged between the outer connecting piece (5) and the first inflatable plate (1) and the second inflatable plate (3), and extend in the front-rear direction from the middle parts of the first inflatable plate (1) and the second inflatable plate (3) respectively.

10. A double-deck inflated standing paddle board as claimed in claim 9 wherein the two reinforcing plates (6) are connected to the inner surface of the outer connecting piece (5); the outer connecting sheet (5) is provided with a through hole (7) for displaying the two reinforcing plates (6).

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