CN213862590U

CN213862590U - Novel surfboard body

Info

Publication number: CN213862590U
Application number: CN202022307113.XU
Authority: CN
Inventors: 马季骏
Original assignee: Shenzhen Tianyun Coastal Technology Co ltd
Current assignee: Shenzhen Tianyun geek Technology Co.,Ltd.
Priority date: 2020-10-15
Filing date: 2020-10-15
Publication date: 2021-08-03
Anticipated expiration: 2030-10-15

Abstract

A novel surfboard body relates to the technical field of surfboards. The water wave plate comprises a plate body and is characterized in that a strip-shaped flow guide structure is arranged on the end face of the plate body, which is in contact with water waves, and extends along the motion direction of the plate body, and in the motion process of the plate body, the strip-shaped flow guide structure is used for cutting liquid flowing through the end face of the plate body, which is in contact with the water waves, so as to stabilize the surfboard. Adopt above-mentioned technical scheme's surfboard plate body, it is through the design of strip water conservancy diversion structure, replace the fin of current surfboard, the holistic pleasing to the eye degree of surfboard has not only been guaranteed and the convenience of putting, the material of surfboard preparation has been saved moreover, the stationarity of surfboard when using has been promoted, avoided again simultaneously because the protrusion of fin, cause the fin easily to reduce, easily to the problem of foreign object in becoming fish tail or cutting, it is convenient to put, pleasing to the eye degree is high, the consumptive material is few, the advantage that the stationarity is high.

Description

Novel surfboard body

Technical Field

The utility model relates to a surfboard technical field, concretely relates to novel surfboard plate body.

Background

Surfing is a sport of fighting sea waves by taking sea waves as power and utilizing the super skill and balance capability of the surfing. A user stands on a surfboard or exercises a water surface that steers waves using a web, a kneeler, an inflatable rubber mat, a rowing boat, a kayak, etc.

Surfboards are sports equipment used for surfing. The traditional surfboard can be used only by being pushed by wind waves, but can not be used in water areas such as rivers, lakes and the like without waves or with small waves, so that the popularization of surfing is limited. In order to surf in a water area without wind waves or with small wind waves, a surfboard in the prior art drives a jet pump to generate thrust through a power supply and drives the surfboard to move on water.

In order to ensure the stability of the surfboard during sports, the board body of the existing surfboard is generally provided with the tail wing, and the tail wing is arranged at the tail end of the surfboard in a protruding mode.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, a novel surfboard plate body is provided, it passes through the design of strip water conservancy diversion structure, replace the fin of current surfboard, the holistic aesthetic measure of surfboard has not only been guaranteed and the convenience of putting, the material of surfboard preparation has been saved moreover, the stationarity of surfboard when using has been promoted, avoided again simultaneously because the protrusion of fin, cause the fin easily to break down, easily to the problem of foreign object in one-tenth fish tail or cutting, it puts the convenience to have, the aesthetic measure is high, the consumptive material is few, the high advantage of stationarity.

In order to achieve the above object, the utility model adopts the following technical scheme: the utility model provides a novel surfboard body, be provided with strip water conservancy diversion structure on the plate body and the terminal surface of unrestrained contact, strip water conservancy diversion structure is followed the direction of motion of plate body extends in the plate body motion in-process, strip water conservancy diversion structure is used for flowing through the liquid of the terminal surface of plate body and unrestrained contact is cut apart with steady surfboard.

Further, the strip-shaped flow guide structure comprises: the first flow guide assembly is arranged in the middle of the plate body; the second flow guide assemblies are positioned at two ends of the first flow guide assembly and extend from the tail part of the plate body to the middle part of the plate body; and the third flow guide assemblies are positioned at two ends, far away from the first flow guide assembly, of the second flow guide assembly.

Furthermore, the first flow guide assembly comprises two first flow guide convex strips which are symmetrically arranged; the second flow guide assembly comprises two second flow guide convex strips which are symmetrically arranged; the third flow guide assembly is internally provided with two third flow guide convex strips which are symmetrically arranged.

Further, two first water conservancy diversion sand grip, two second water conservancy diversion sand grip and two the cross section of third water conservancy diversion sand grip is triangle-shaped, two first water conservancy diversion sand grip, two second water conservancy diversion sand grip and two the third water conservancy diversion sand grip with the position department of plate body handing-over all is provided with the circular arc chamfer, and its keeping away from the edges and corners department of plate body one side leads and is equipped with the fillet.

Furthermore, the two first flow guide convex strips are inclined towards the sides close to each other, an included angle a between the end surface of the side, far away from each other, of each first flow guide convex strip and the plate body is 134-144 degrees, and an included angle b between the end surface of each first flow guide convex strip, connected with the plate body, is 65-85 degrees; and the distance A between the two first flow guide protruding strips is 126 mm, and the length B of the two first flow guide protruding strips is 742 mm.

Furthermore, the two second flow guide protruding strips are inclined towards the sides far away from each other, an included angle c between the end face of the side far away from each other on each second flow guide protruding strip and the plate body is 108-118 degrees, and an included angle d between the end face of each second flow guide protruding strip connected with the plate body is 65-85 degrees; two interval C between the second water conservancy diversion sand grip is 336 millimeters, and two the length D of second water conservancy diversion sand grip is 1021 millimeters.

Furthermore, the two third flow guide convex strips are inclined towards the sides far away from each other, the included angle e between the end surface of the side far away from each other on each third flow guide convex strip and the plate body is between 102 and 112 degrees, and the included angle f between the end surface of each third flow guide convex strip connected with the plate body is between 56 and 76 degrees; two interval E between the third water conservancy diversion sand grip is 550 millimeters, and two the length F of third water conservancy diversion sand grip is 482 millimeters.

Further, the distance G between one side of the first flow guide protruding strip close to the head end of the plate body and one side of the third flow guide protruding strip close to the head end of the plate body is 39 mm; the distance H between one side of the second flow guide protruding strip close to the head end of the plate body and one side of the third flow guide protruding strip close to the head end of the plate body is 206 mm.

Furthermore, the starting end and the terminating end of the first flow guide protruding strip, the second flow guide protruding strip and the third flow guide protruding strip are pointed ends.

Furthermore, still be provided with radiating part and spray pump installation department on the plate body and the terminal surface of unrestrained contact of water, still be provided with triangle decoration groove and power supply installation groove on the bearing end surface of plate body.

After the technical scheme is adopted, the utility model discloses beneficial effect does: when the surfboard is used, water flow flowing through the bottom of the surfboard is guided through the first diversion convex strip, the second diversion convex strip and the third diversion convex strip, so that the stability of the surfboard in operation is ensured; simultaneously, the strip water conservancy diversion structure through setting up replaces the fin among the prior art, has not only guaranteed the holistic pleasing to the eye degree of surfboard and the convenience of putting, has saved the material of surfboard preparation moreover, has avoided simultaneously again because the protrusion of fin, causes the fin easily to break and damage, easily to the problem of foreign object in becoming fish tail or cutting, has the security height, puts and puts the convenience, and pleasing to the eye degree is high, and the consumptive material is few, the advantage that the stationarity is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic structural view of the present embodiment in a three-dimensional state;

FIG. 2 is a first schematic structural diagram of the present embodiment;

FIG. 3 is a second schematic structural diagram of the present embodiment;

FIG. 4 is a first sectional view of the present embodiment;

fig. 5 is a second sectional view of the present embodiment.

Description of reference numerals: 100. a plate body; 200. a strip-shaped flow guide structure; 210. a first flow guide assembly; 211. A first flow guiding convex strip; 220. a second flow guide assembly; 221. a second flow guide convex strip; 230. a third flow guide assembly; 231. a third flow guide convex strip; 300. a heat dissipating section; 400. a spray pump mounting section; 500. a triangular decorative groove; 600. and a power supply mounting groove.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment as required without making a contribution, but all the embodiments are protected by the patent law within the scope of the claims of the present invention.

The present embodiment relates to a novel surfboard body, wherein, as shown in fig. 1 to 5, a strip-shaped diversion structure 200 is disposed on an end surface of the board body 100 contacting with the water waves, and the strip-shaped diversion structure 200 extends along a movement direction of the board body 100. In the movement process of the board body 100, the strip-shaped diversion structure 200 is used for diverting and dividing the liquid flowing through the end surface of the board body 100 contacting with the water waves, so that the surfboard is kept stable.

Specifically, as shown in fig. 2 to 5, the strip-shaped flow guide structure 200 includes: a first flow directing assembly 210, a second flow directing assembly 220, and a third flow directing assembly 230. The first flow guiding assembly 210 is disposed at a middle position of the plate body 100. The second flow guiding members 220 are disposed at two ends of the first flow guiding member 210, and the second flow guiding members 220 extend from the tail portion of the board body 100 to the middle portion of the board body 100. The third flow guiding assembly 230 is disposed at two ends of the second flow guiding assembly 220 far away from the first flow guiding assembly 210.

Preferably, the first flow guiding assembly 210 includes two first flow guiding protruding strips 211 symmetrically disposed therein. The second flow guiding assembly 220 includes two second flow guiding protruding strips 221 symmetrically disposed therein. The third flow guiding assembly 230 includes two third flow guiding protruding strips 231 symmetrically disposed therein.

Preferably, as shown in fig. 2 to 5, the cross-sections of the two first ribs 211, the two second ribs 221 and the two third ribs 231 are triangular. The positions where the two first flow guiding protruding strips 211, the two second flow guiding protruding strips 221 and the two third flow guiding protruding strips 231 are connected with the plate body 100 are all provided with arc chamfers, and fillets are arranged at edges of the first flow guiding protruding strips, the second flow guiding protruding strips and the third flow guiding protruding strips, which are far away from one side of the plate body 100.

Further, as shown in fig. 2 to 5, both the first ribs 211 are inclined toward the side close to each other. And the included angle a between the end surface of the first guiding protruding strip 211 and the plate body 100 is 134-144 degrees. The included angle b between the end surfaces of each first guiding protruding strip 211 and the plate body 100, which are connected with each other, is 65-85 degrees. The distance a between the two first flow guide protruding strips 211 is 126 mm, and the length B of each of the two first flow guide protruding strips 211 is 742 mm. In this embodiment, an included angle a between the end surfaces of the first guiding protrusions 211 on the sides away from each other and the plate body 100 is 139 degrees. The included angle b between the end surfaces of each first guiding protruding strip 211 and the plate body 100 is 75 degrees.

Further, as shown in fig. 2 to 5, the two second guiding ribs 221 are inclined to the side away from each other. And the included angle c between the end surface of the side of the second guiding protrusion 221 away from each other and the plate body 100 is 108-118 degrees. The included angle d between the end surfaces of each second guiding protrusion 221, which are connected to the plate body 100, is 65-85 degrees. The distance C between the two second flow guide protruding strips 221 is 336 mm, and the length D of each of the two second flow guide protruding strips 221 is 1021 mm. In this embodiment, an included angle c between the end surfaces of the second guiding protrusions 221 on the sides away from each other and the plate body 100 is 113 degrees. The included angle d between the end surfaces of each second flow guiding protruding strip 221 and the plate body 100 is 75 degrees.

Further, as shown in fig. 2 to 5, the two third ribs 231 are inclined toward the sides away from each other. And the included angle e between the end surface of the side of the third guiding protruding strip 231 away from each other and the plate body 100 is between 102 degrees and 112 degrees. The included angle f between the end surfaces of each third guiding protruding strip 231, which are connected with the plate body 100, is 56-76 degrees. The distance E between the two third flow guiding protruding strips 231 is 550 mm, and the length F of each of the two third flow guiding protruding strips 231 is 482 mm. In this embodiment, an included angle e between the end surfaces of the third guiding protrusions 231 on the sides far away from each other and the plate body 100 is 107 degrees. The included angle f between the end surfaces of each third guiding protrusion 231 connected to the plate body 100 is 66 degrees.

Preferably, as shown in fig. 2 to 5, a distance G between a side (i.e., a right end) of the first guiding protrusion 211 close to the head end of the board body 100 and a side (i.e., a right end) of the third guiding protrusion 231 close to the head end of the board body 100 is 39 mm. The distance H between the first end (i.e., the right end) of the second guiding protrusion 221 and the first end (i.e., the right end) of the third guiding protrusion 231 is 206 mm.

Preferably, as shown in fig. 2 to 5, the starting ends and the terminating ends of the first ribs 211, the second ribs 221 and the third ribs 231 are all sharp ends. In the present embodiment, the second guiding protrusion 221 and the third guiding protrusion 231 are both bent to a side away from the first guiding protrusion 211. The plate body 100 is also provided with a heat dissipating unit 300 and a pump mounting unit 400 on the end surface thereof contacting the water waves. A triangular decorative groove 500 and a power supply installation groove 600 are further provided on the bearing end surface of the plate body 100.

After the technical scheme is adopted, the utility model discloses beneficial effect does: when the surfboard is used, the water flow passing through the bottom of the surfboard is guided through the arranged first guide convex strip 211, the second guide convex strip 221 and the third guide convex strip 231, so that the running stability of the surfboard is ensured; meanwhile, the strip-shaped flow guide structure 200 replaces the tail wing in the prior art, so that the overall attractiveness and the placement convenience of the surfboard are guaranteed, the material for manufacturing the surfboard is saved, the problem that the tail wing is easy to break and damage and scratch or cut foreign objects due to the protrusion of the tail wing is avoided, and the surfboard placement machine has the advantages of high safety, convenience in placement, high attractiveness, few material consumption and high stability.

The above description is only for the purpose of illustration and not limitation, and other modifications or equivalent replacements made by those skilled in the art to the technical solution of the present invention should be covered by the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solution of the present invention.

Claims

1. The utility model provides a novel surfboard body, its characterized in that, be provided with strip water conservancy diversion structure (200) on the terminal surface of plate body (100) and the unrestrained contact of water, strip water conservancy diversion structure (200) are followed the direction of motion of plate body (100) extends plate body (100) motion in-process, strip water conservancy diversion structure (200) are used for will flowing through the liquid of plate body (100) and the terminal surface of unrestrained contact is cut apart with steady surfboard.

2. The novel surfboard body as claimed in claim 1, wherein the strip shaped flow directing structure (200) comprises: the first flow guide assembly (210), the first flow guide assembly (210) is arranged in the middle of the plate body (100);

the second flow guide assemblies (220) are positioned at two ends of the first flow guide assembly (210), and the second flow guide assemblies (220) extend from the tail parts of the plate body (100) to the middle part of the plate body (100); and the number of the first and second groups,

the third flow guide assembly (230) is positioned at two ends, far away from the first flow guide assembly (210), of the second flow guide assembly (220).

3. The novel surfboard body as claimed in claim 2, wherein the first deflector assembly (210) includes two first deflector beads (211) symmetrically disposed therein; the second flow guide assembly (220) comprises two second flow guide convex strips (221) which are symmetrically arranged; the third flow guide assembly (230) comprises two third flow guide protruding strips (231) which are symmetrically arranged.

4. The novel surfboard body as claimed in claim 3, wherein the cross-section of each of the two first flow guiding ribs (211), the two second flow guiding ribs (221), and the two third flow guiding ribs (231) is triangular, the positions where the two first flow guiding ribs (211), the two second flow guiding ribs (221), and the two third flow guiding ribs (231) meet the board body (100) are all provided with arc chamfers, and the corners of the side of the board body (100) away from the board body are provided with fillets.

5. The novel surfboard body as claimed in claim 4, wherein two of the first ribs (211) are inclined to the side close to each other, and the angle a between the end surface of the side away from each other on the first ribs (211) and the board body (100) is between 134 degrees and 144 degrees, and the angle b between the end surface of each first rib (211) connected with the board body (100) is between 65 degrees and 85 degrees; and the distance A between the two first flow guide convex strips (211) is 126 mm, and the length B of the two first flow guide convex strips (211) is 742 mm.

6. The novel surfboard body as claimed in claim 4, wherein both of the second ribs (221) are inclined to the side away from each other, and the angle c between the end surface of the side away from each other on the second ribs (221) and the board body (100) is between 108 degrees and 118 degrees, and the angle d between the end surface of each second rib (221) and the board body (100) is between 65 degrees and 85 degrees; the distance C between the two second flow guide protruding strips (221) is 336 mm, and the length D of the two second flow guide protruding strips (221) is 1021 mm.

7. The novel surfboard body as claimed in claim 4, wherein two of said third ribs (231) are inclined to the side away from each other, and the angle e between the end surface of the side away from each other of said third ribs (231) and said board body (100) is between 102 degrees and 112 degrees, and the angle f between the end surface of each of said third ribs (231) and the end surface of said board body (100) connected to each other is between 56 degrees and 76 degrees; the distance E between the two third flow guide protruding strips (231) is 550 mm, and the length F of each of the two third flow guide protruding strips (231) is 482 mm.

8. The novel surfboard body as claimed in claim 4, wherein the distance G between the first rib (211) on the side near the head end of the board body (100) and the third rib (231) on the side near the head end of the board body (100) is 39 mm; the distance H between one side, close to the head end of the plate body (100), of the second flow guide protruding strip (221) and one side, close to the head end of the plate body (100), of the third flow guide protruding strip (231) is 206 mm.

9. The novel surfboard body as claimed in claim 4, wherein the starting and terminating ends of the first (211), second (221) and third (231) ribs are pointed.

10. The novel surfboard body as claimed in any one of claims 1-9, wherein the board body (100) is further provided with a heat dissipating part (300) and a spray pump mounting part (400) on the end surface contacting with the water wave, and the board body (100) is further provided with a triangular decorative groove (500) and a power supply mounting groove (600) on the bearing end surface.