CN212090801U - Underwater obstacle facility for diving training and competition - Google Patents

Abstract

An underwater obstacle facility for diving training and competition is suitable for providing a basic framework of a flat still water area and comprises a horizontal traversing unit, a turning unit and an arc traversing unit. The horizontal traversing unit is fixedly arranged on the configuration plane of the base framework and has a linear motion space. The linear direction of the linear motion space is perpendicular to the gravity direction. The overturning unit is fixedly arranged on the base framework and keeps a distance with the side wall of the base framework. The arc-shaped traversing unit is fixedly arranged on a configuration plane on the base framework, is arranged between the horizontal traversing unit and the overturning unit and is provided with an arc-shaped motion space. Therefore, through the framework, a user can obtain more professional teaching, training and competition, and the diving skill is further improved.

Description

Underwater obstacle facility for diving training and competition

Technical Field

The present invention relates to an underwater obstacle facility for training and competition, and more particularly to an underwater obstacle facility for diving training and competition.

Background

Diving, particularly technical diving, originally refers to activities entering below water surface, such as underwater exploration, salvage, repair, underwater engineering and other operations, but diving has been developed into activities for the purposes of physical exercise, recreation and entertainment in the living society nowadays.

However, in order to make more people exposed to diving activities and even more specialized teaching, training and competition, it is imperative to have suitable diving underwater obstacle facilities.

Therefore, how to develop a solution to improve the above-mentioned disadvantages and inconveniences is an important issue that related manufacturers have been reluctant to find.

SUMMERY OF THE UTILITY MODEL

The creation provides an underwater obstacle facility for diving training and competition, which is used for solving the problems of the prior art.

According to one embodiment of the present invention, the underwater obstacle facility for diving training and competition is suitable for providing an infrastructure of a flat still water area, and comprises a horizontal traversing unit, a turning unit and an arc traversing unit. The horizontal traversing unit is fixedly arranged on the configuration plane of the base framework and has a linear motion space. The linear direction of the linear motion space is perpendicular to the gravity direction. The overturning unit is fixedly arranged on the base framework and keeps a first distance with the side wall of the base framework. The arc-shaped traversing unit is fixedly arranged on a configuration plane on the base framework, is arranged between the horizontal traversing unit and the overturning unit and is provided with an arc-shaped motion space.

According to one or more embodiments of the present invention, in the underwater obstacle facility for diving training and competition, the horizontal traversing unit further comprises a plurality of first hollow rings. The first hollow rings are arranged on the arrangement plane of the base framework at intervals. Each first hollow ring body is provided with a first opening, the first openings of the first hollow ring bodies are aligned with each other to jointly define a linear motion space, and the minimum linear distance from each first opening to the configuration plane of the base framework is consistent.

In the underwater obstacle arrangement for diving training and competition according to one or more embodiments of the present invention, the arc type traversing unit further includes a plurality of first columns. The first columns are arranged on the arrangement plane of the base framework at intervals. A passing space is arranged between any two adjacent first columns. The crossing spaces together define an arc-shaped motion space.

According to one or more embodiments of the present invention, in the underwater obstacle facility for diving training and competition, the turning unit further includes a second column. One end of the second column is arranged on the other side wall of the basic framework. The linear direction of the second cylinder is vertical to the gravity direction.

According to one or more embodiments of the present invention, the underwater obstacle arrangement for diving training and competition further comprises a slewing assistance unit. The slewing assist unit has a third cylinder. One end of the third column is erected on the configuration plane of the foundation framework and keeps a second distance with the side wall of the foundation framework. The linear direction of the third column is parallel to the gravity direction.

According to one or more embodiments of the present invention, the underwater obstacle arrangement for diving training and competition further comprises a ride-through unit. The lifting crossing unit is fixedly arranged on a configuration plane on the foundation framework and is provided with a wave-shaped channel.

According to one or more embodiments of the present invention, in the underwater obstacle facility for diving training and competition, the elevating and traversing unit further comprises a plurality of second hollow rings. The second hollow rings are arranged on the arrangement plane of the base framework at intervals. Each second hollow ring body has a second opening. The second openings have no same axes and define a wave-shaped channel together, and the minimum linear distances from the second openings to the configuration plane of the base structure are periodically changed.

According to one or more embodiments of the present invention, the underwater obstacle arrangement for diving training and competition further comprises a diagonal crossing unit. The slant penetrating unit is fixedly arranged on the other side wall of the base framework and is provided with a slant movement space. The linear direction of the oblique movement space is intersected with the gravity direction.

According to one or more embodiments of the present invention, in the underwater obstacle facility for diving training and competition, the slant crossing unit includes a plurality of third hollow rings. The third hollow rings are arranged on the other side wall of the base framework at intervals. The third openings have no same axle center and jointly define an oblique movement space.

In accordance with one or more embodiments of the present invention, the underwater obstacle facility for diving training and competition further comprises a sports court. The sports court comprises at least one underwater goal. Underwater goals all have a passageway.

Therefore, through the framework, a user can obtain more professional teaching, training and competition, and the diving skill is further improved.

The foregoing is merely illustrative of the problems to be solved, the technical solutions to the problems, the effects thereof, and the like, and the details of the present invention will be described in the following detailed description and the related drawings.

Drawings

The above and other objects, features, advantages and embodiments of the present invention will become more apparent from the following description when taken in conjunction with the accompanying drawings in which:

FIG. 1 is a schematic view of an underwater obstacle arrangement for diving training and competition applications of an embodiment of the present creation;

FIG. 2 is a schematic view of an underwater obstacle arrangement for diving training and competition use in accordance with an embodiment of the present invention; and

FIG. 3 is a schematic view of an underwater obstacle arrangement for use in diving training and competition according to an embodiment of the present invention.

Detailed Description

In the following description, numerous implementation details are set forth in order to provide a thorough understanding of the present invention. However, it will be apparent to those skilled in the art that these implementation details are not required in some embodiments of the present disclosure and should not be used to limit the present disclosure. In addition, some conventional structures and components are shown in simplified schematic form in the drawings. Additionally, the dimensions of the various elements in the drawings are not necessarily to scale, for the convenience of the reader.

FIG. 1 is a schematic view of an underwater obstacle arrangement for use in diving training and competition according to one embodiment of the present invention. As shown in fig. 1, an underwater obstacle facility for diving training and competition use is adapted in an infrastructure 10 that provides a calm water area. The calm water area is broadly referred to as a swimming pool or a calm open water diving spot, and the infrastructure 10 can be used for general swimming, diving and professional diving training, such as but not limited to a river, a lake, an indoor or outdoor swimming pool, and the like. In the case of an indoor swimming pool, the base structure 10 has a bottom surface 11 and a plurality of side walls 12. The bottom surface 11 connects the side walls 12, and the side walls 12 and the bottom surface 11 together surround the deep submergible trough 14, that is, the bottom surface 11 is the deepest part of the deep submergible trough 14.

The underwater obstacle facility for diving training and competition comprises a horizontal crossing unit 100, an arc type crossing unit 200 and a turning unit 300. The horizontal penetration unit 100 is disposed in the deep diving water tank 14 and is fixed on a plane disposed in the deep diving water tank 14, such as the bottom surface 11, however, the present invention is not limited thereto. The horizontal traverse unit 100 has a linear motion space 120 so that the diver D can perform training and teaching of horizontal linear motion at the same height in the linear motion space 120. The linear direction 121 of the linear motion space 120 is perpendicular to the gravity direction G. The arc traversing unit 200 is located in the deep diving tank 14, is fixedly arranged on a configuration plane (for example, the bottom surface 11 of the deep diving tank 14) on the foundation structure 10, is arranged between the horizontal traversing unit 100 and the turning unit 300, and has an arc motion space 230, so that a diver D can train and teach an arc motion at the same height in the arc motion space 230. The turning unit 300 is located in the deep diving water tank 14, is fixed on the base structure 10, and keeps a first distance a1 with the side wall 12 of the base structure 10, so that the diver D can train and teach turning in water at the first distance a 1.

More specifically, the horizontal traversing unit 100 further comprises a plurality of first hollow rings 110. The first hollow rings 110 are disposed at intervals on the disposition plane of the foundation structure 10 (e.g., the bottom surface 11 of the deep submergible tank 14). Each first hollow ring 110 includes a first annular ring 111 and a first opening 112. The first opening 112 penetrates the first annular ring 111. The first circular rings 111 are fixedly erected on the arrangement plane of the base frame 10, and the first openings 112 of the first circular rings 111 are coaxial and aligned with each other to define the linear motion space 120. In other words, the minimum straight-line distance 113 from the axis of each first opening 112 to the arrangement plane of the base structure 10 is consistent.

The arc type traverse unit 200 further includes a plurality of first columns 210. The first columns 210 are disposed at intervals on the disposition plane of the foundation structure 10 (e.g., the bottom surface 11 of the deep diving tank 14). The long axis direction 211 of each first column 210 is parallel to the gravity direction G. A through space 220 is formed between any two adjacent first pillars 210. These through spaces 220 collectively define the arc-shaped motion space 230. Therefore, the diver D can train and teach the arc-shaped movement along the arc-shaped movement spaces 230 of the first columns 210.

The flipping unit 300 further includes a single second cylinder 310. One end of the second pillar 310 is disposed on the other sidewall 13 of the base frame 10. The linear direction 311 of the second cylinder 310 is perpendicular to the gravity direction G. Therefore, the diver D can train and teach the diver to turn around the second column 310 at the first interval A1.

FIG. 2 is a schematic view of an underwater obstacle arrangement for use in diving training and competition according to an embodiment of the present invention. As shown in fig. 2, the underwater obstacle facility for diving training and competition further includes a swing assisting unit 400 based on the above embodiment. The swing assist unit 400 has a single third cylinder 410. One end of the third pillar 410 is erected on the disposition plane of the foundation structure 10 (e.g. the bottom surface 11 of the deep diving tank 14), and is kept at the second distance a2 from the sidewall 12 of the foundation structure 10. The linear direction 411 of the third column 410 and the gravity direction G are parallel to each other. Therefore, the diver D can train and teach the underwater rotation around the third column 410 at the second interval A2. In the present embodiment, the swing assisting unit 400 is located between the arc traversing unit 200 and the sidewall 12 of the base structure 10, for example, however, the present disclosure is not limited thereto.

In addition, the underwater obstacle facility for diving training and competition also includes a pass-through unit 500. The elevation traversing unit 500 is fixedly arranged on a configuration plane (such as the bottom surface 11 of the deep diving water tank 14) on the foundation structure 10, and is provided with a wave-shaped channel 520, so that a diver D can train and teach elevation traversing in water with height change in the wave-shaped channel 520.

More specifically, the elevating crossing unit 500 further includes a plurality of second hollow rings 510. The second hollow rings 510 are disposed at intervals on the disposition plane of the foundation structure 10 (e.g., the bottom surface 11 of the deep diving tank 14). Each second hollow ring 510 includes a second torus 511 and a second opening 512. The second opening 512 extends through the second ring 511. The second circular rings 511 are fixedly erected on the arrangement plane of the foundation 10 (e.g. the bottom surface 11 of the deep diving tank 14), but the second openings 512 of the second circular rings 511 are not coaxial with each other, so as to define the wave-shaped channel 520. In other words, the minimum linear distance 521 from each of the second openings 512 to the disposition plane of the base structure 10 varies periodically. In other words, the minimum linear distance 521 from the axis of each second opening 512 to the arrangement plane of the base structure 10 gradually increases and then decreases. In the present embodiment, the traverse unit 500 is located between the arc-shaped traverse unit 200 and the horizontal traverse unit 100, for example, however, the present disclosure is not limited thereto.

The underwater obstacle arrangement for diving training and competition purposes further comprises an oblique crossing unit 600. The slant crossing unit 600 is fixedly installed on the other sidewall 13 of the base structure 10, and has a slant movement space 620, so that the diver D can perform a training and teaching of height-changing slant crossing in water in the slant movement space 620. The linear direction 621 of the diagonal movement space 620 intersects the gravity direction G.

More specifically, the diagonal pass-through unit 600 includes a plurality of third hollow rings 610. Each third hollow ring 610 includes a third circular ring 611 and a third opening 612. The third opening 612 extends through the third ring body 611. The third hollow rings 610 are disposed at intervals on the other side wall 12 of the base frame 10. For example, the third circular bodies 611 are fixedly erected on the other side wall 13 of the base structure 10. In addition, the third openings 612 have no same axial center, and together define an oblique movement space 620. In other words, the minimum straight distance 613 from the axis of each third opening 612 to the arrangement plane of the foundation structure 10 (e.g. the bottom surface 11 of the deep diving tank 14) gradually increases or decreases.

FIG. 3 is a schematic view of an underwater obstacle arrangement for use in diving training and competition according to an embodiment of the present invention. As shown in fig. 3, on the basis of the above embodiment, the underwater obstacle facility for diving training further comprises an athletic court 700. The athletic court 700 includes two underwater goals 710 separated from each other. Each underwater goal 710 has a channel 711. Thus, a plurality of divers D can perform shooting competitions in the deep diving tank 14.

For example, a person who has viewed a halite movie, such as the athletic court 700, may be playing a quebeck game by positioning the bottom propellers K on the legs of the diver D to simulate a wizard flying in the sky with a broom, until the wizard shoots a ball into an underwater goal 710, or catches a golden horsetail (e.g., a small submarine).

It should be understood that the first hollow ring 110, the second hollow ring 510, the third hollow ring 610, the first post 210, the second post 310, the third post 410, and the underwater goal 710 may be components made of, for example, plastic or other suitable materials.

Finally, the above-described embodiments are not intended to be limiting, and those skilled in the art will be able to make various changes and modifications without departing from the spirit and scope of the present disclosure. Therefore, the protection scope of the present disclosure should be determined by the appended claims.

[ notation ] to show

10 infrastructure

11 bottom surface

12. 13 side wall

14: deep diving water tank

100 horizontal pass through unit

110 first hollow ring body

111 the first ring body

112 first opening

113 minimum straight-line distance

120 linear motion space

121 in the linear direction

200 arc type crossing unit

210 first cylinder

211 longitudinal direction of the shaft

220 passing through the space

230 arc type motion space

300 turning unit

310 second column

311 linear direction

400 gyration assist unit

410 the third column

411 linear direction

500 lifting crossing unit

510 second hollow ring body

511 the second ring body

512 the second opening

520 wave-shaped channel

521 minimum straight-line distance

600 slant crossing unit

610 third hollow ring body

611, a third ring body

612 third opening

613 minimum straight-line distance

620 oblique movement space

621 linear direction

700 sports field

710 underwater goal

711 channel

A1 first distance

A2 second distance

D, diver

G is the direction of gravity

K, underwater propeller.

Claims (10)

1. An underwater obstacle facility for use in diving training and competition, adapted to provide a flat water area in an infrastructure, characterized by:

the horizontal traversing unit is fixedly arranged on the configuration plane of the basic framework and is provided with a linear motion space, wherein the linear direction of the linear motion space is vertical to the gravity direction;

the overturning unit is fixedly arranged on the basic framework and keeps a proper distance with the side wall of the basic framework; and

and the arc-shaped traversing unit is fixedly arranged on the configuration plane on the basic framework, is arranged between the horizontal traversing unit and the overturning unit and is provided with an arc-shaped motion space.

2. An underwater obstacle arrangement for diving training and competition purposes as recited in claim 1, wherein the horizontal traversing unit further comprises:

the first hollow rings are arranged on the arrangement plane of the base framework at intervals, each first hollow ring is provided with a first opening, the first openings of the first hollow rings are aligned with each other to define the linear motion space together, and the minimum linear distance from each first opening to the arrangement plane of the base framework is consistent.

3. An underwater obstacle arrangement for diving training and competition purposes as recited in claim 1, wherein the arc type traversing unit further comprises:

the first columns are arranged on the arrangement plane of the basic framework at intervals, wherein a through space is formed between any two adjacent first columns, and the through spaces jointly define the arc-shaped motion space.

4. An underwater obstacle arrangement for diving training and competition purposes as recited in claim 1, wherein the flipping unit further comprises:

one end of the second column is arranged on the other side wall of the basic framework, and the linear direction of the second column is perpendicular to the gravity direction.

5. An underwater obstacle arrangement for use in diving training and competition according to claim 1, further comprising:

and the rotation assisting unit is provided with a third column, one end of the third column is vertically arranged on the configuration plane of the foundation framework and keeps a second proper distance with the side wall of the foundation framework, and the linear direction of the third column is parallel to the gravity direction.

6. An underwater obstacle arrangement for use in diving training and competition according to claim 1, further comprising:

the lifting traversing unit is fixedly arranged on the configuration plane on the basic framework and is provided with a wave-shaped channel.

7. An underwater obstacle arrangement for diving training and competition purposes as recited in claim 6, wherein the elevating traversing unit further comprises:

the second hollow rings are arranged on the arrangement plane of the basic framework at intervals, each second hollow ring is provided with a second opening, the second openings do not have the same axle center, the wave-shaped channel is defined together, and the minimum straight line distance from each second opening to the arrangement plane of the basic framework is changed periodically.

8. An underwater obstacle arrangement for use in diving training and competition according to claim 1, further comprising:

and the oblique crossing unit is fixedly arranged on the other side wall of the basic framework and is provided with an oblique movement space, wherein the linear direction of the oblique movement space is mutually intersected with the gravity direction.

9. An underwater obstacle arrangement for training and racing diving as claimed in claim 8, wherein the slant-passing unit includes a plurality of third hollow rings, the third hollow rings are disposed at intervals on the other side wall of the base structure, and the third openings have no same axial center with each other and jointly define the slant movement space.

10. An underwater obstacle arrangement for use in diving training and competition according to claim 1, further comprising:

a sports court comprises at least one underwater goal, and the underwater goal is provided with a channel.

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