CN114129992A - Simulator for simulating training of skiing sports - Google Patents

Abstract

The invention discloses a simulator for simulating training of skiing sports, which belongs to the technical field of skiing sports equipment and comprises a ski used for sliding on a snow road and two simulators which are respectively arranged above the front end plate and the rear end plate of the ski and are used for carrying out foot coordination prompt on a beginner on the ski by using light positions. The simulator includes a nut fixedly embedded in a board body of the snowboard, a bottom case assembly connected to a hole of the nut for supplying power to the simulator, and a top case assembly mounted on top of the bottom case assembly for giving a light indication to a beginner. The device carries out light prompt on a beginner by utilizing the flickering of the LED lamp beads at different positions in the simulator, thereby realizing the exercise of left-right steering without engaging coaches, saving the expenditure of learning skiing, and avoiding the condition that the mood is influenced by the fact that the beginner encounters an unfriendly coach because the trainer does not need to be engaged.

Description

Simulator for simulating training of skiing sports

Technical Field

The invention relates to the technical field of skiing sports equipment, in particular to a simulator for skiing sports simulation training.

Background

Skiing is a competitive sport where athletes mount skis on the bottom of boots and play speed, jump, and downhill on snow. The snowboarding is divided into single-board skiing and double-board skiing according to the number of the snowboards arranged under feet, wherein the single-board skiing is that two feet step on the same snowboard, and the double-board skiing is that two feet step on one snowboard respectively. In the snowboarding, for a beginner, the toes and the heels of both feet are coordinated with each other, and the beginner presses the board body of the snowboard with different forces, so that the edge of the snowboard is used for controlling the turning of the snowboard.

For example, taking the left foot of the beginner as the front and the right foot as the back, in the turn training of single board skiing, when needing to turn left, the left heel of the beginner steps down, the right foot lifts lightly, the human body lowers the center of gravity to the left front (the direction is referred to the skiing direction), the left side edge of the ski scrapes snow, and the ski deflects left; when the user needs to turn right, the beginner steps down on the tiptoe of the left foot, slightly lifts the right foot, lowers the center of gravity of the human body to the right front (the direction takes the sliding direction of the snowboard as a reference), and leads the edge on the right side of the snowboard to scrape snow, so that the snowboard deflects to the right.

However, for beginners, before exercise, the beginners need to follow the trainer and rely on the instruction of the trainer to exercise for turning left or turning right, but for beginners who progress slowly, asking for exercise for turning left or right is not only a cost, but also can be taught by the trainer if meeting with impatient personality trainers, thereby affecting the mood of the beginners.

Based on this, the invention designs a simulator for simulating training of skiing sports to solve the problems.

Disclosure of Invention

The invention aims to provide a simulator for ski sport simulation training, which solves the problems that although the beginners need to follow a coach around before practice and carry out left-turn or right-turn practice by means of the instruction of the coach, the requirement for teaching the practice of left-turn or right-turn practice is not only a cost for the beginners who progress slowly, but also the mind of the beginners can be influenced by the coach if meeting impatient temperament coaches.

In order to achieve the purpose, the invention provides the following technical scheme: a simulator for simulating the training of skiing sports is composed of a ski board for sliding on the snow path, and two simulators installed to the front and back surfaces of ski board for indicating the coordination between feet of beginner and student.

The simulator includes a nut fixedly embedded in a snowboard body, a bottom case assembly connected to a hole of the nut for supplying power to the simulator, and a top case assembly mounted on top of the bottom case assembly for providing a light indication to a beginner.

Preferably, the top surfaces of the board bodies of the snowboard are uniformly reserved with first mounting holes for mounting the fixing devices, and the top surfaces of the board bodies at the front end part and the rear end part of the snowboard are respectively provided with a second mounting hole for fixing the mounting screw cap.

Preferably, the base housing assembly includes a base housing for a protective housing and a lithium battery mounted in a cavity of the base housing.

Preferably, the bottom shell comprises a bottom shell body which is in a ship-shaped groove shape and has an upward notch, and a first screw hole for installing the top shell assembly is formed in each of top walls at the left end and the right end of the bottom shell body.

Preferably, a stud bolt for bolting with a nut is connected to the bottom wall of the middle part of the bottom shell.

Preferably, the wall of the cavity in the middle of the bottom shell is connected with four embedded columns distributed in a rectangular array, and the lithium storage battery is fixedly arranged in a clamping cavity formed by the four embedded columns.

Preferably, a mounting opening is opened to the diapire of drain pan casing right-hand member portion, and the inner chamber fixed mounting of mounting opening has a USB Type C interface that is used for charging the usefulness to lithium accumulator.

Preferably, the top shell component comprises a top shell used as a protective shell, two LED lamp beads arranged in the top shell and used for giving light prompts to a beginner, and a group of microprocessors for controlling the LED lamp beads.

Preferably, the top shell comprises a top shell body which is in a ship-shaped groove shape and has a downward notch, and the bottom walls of the left end and the right end of the top shell body are respectively provided with a jack used for installing the bottom shell body.

Preferably, the top wall of the middle part of the top shell is provided with a mounting hole, and a switch for controlling the simulator to be opened and closed is fixedly mounted in the hole cavity of the mounting hole.

Preferably, the wall of the cavity in the middle of the top shell is connected with two side plates which are arranged in bilateral symmetry, and the middle of the plate body of each side plate is provided with a wire hole for threading a lead wire.

Preferably, the plate body of the side plate is connected with a clamping strip for fixedly clamping the LED lamp beads.

Preferably, four mounting columns are arranged in a clamping cavity formed between the two side plates, the top ends of the mounting columns are connected to the wall of the cavity of the top shell, and a second screw hole used for mounting a microprocessor is formed in the bottom end of each mounting column.

Preferably, four corners of the microprocessor are respectively provided with a small hole for fixing, and the four small holes of the microprocessor are respectively aligned with the two screw holes of the four mounting posts.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, through the simulator arranged on the snowboard, the lighting prompt is carried out on the beginner by utilizing the flickering of the LED lamp beads at different positions in the simulator, the beginner controls the foot part corresponding to the lighting to step down on the snowboard, and the coordination of the other foot which does not need to be stepped down is carried out, so that the exercise of left-right steering is realized, a coach does not need to be engaged, the skiing learning expense is saved, and the condition that the mood is influenced by the unfriendly coach does not occur because the coach does not need to be engaged.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

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

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the ski construction of the present invention;

FIG. 3 is a schematic diagram of a simulator according to the present invention;

FIG. 4 is an exploded view of a simulator structure of the present invention;

FIG. 5 is an exploded view of the simulator structure of the present invention;

FIG. 6 is an exploded view of the bottom housing assembly of the present invention;

FIG. 7 is a first schematic view of a bottom case structure according to the present invention;

FIG. 8 is a second bottom case structure of the present invention;

FIG. 9 is an exploded view of the top housing assembly construction of the present invention;

FIG. 10 is a first schematic view of a top housing according to the present invention;

FIG. 11 is a second schematic view of the top case structure of the present invention;

FIG. 12 is a schematic view of the interior of the top and bottom housing of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-a snowboard, 01-a first mounting hole, 02-a second mounting hole;

2-simulator, 100-nut, 200-bottom shell assembly, 300-top shell assembly;

210-bottom shell, 211-bottom shell, 03-screw hole I, 212-stud, 213-embedded column, 214-USB Type C interface, 220-lithium storage battery;

310-top shell, 311-top shell body, 04-jack, 312-switch, 313-side plate, 05-line hole, 314-clamping strip, 315-mounting column, 06-screw hole II, 320-LED lamp bead and 330-microprocessor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a simulator for simulating training of skiing sports, which includes a snowboard 1 for sliding on a snow road and two simulators 2 installed above front and rear end plate surfaces of the snowboard 1 respectively for providing a foot coordination prompt to a beginner on the snowboard 1 by using light positions.

Referring to fig. 2, the snowboard 1 of the present invention is a single board for snowboarding, and mounting holes 01 for mounting fasteners are uniformly reserved on the top surface of the board body of the snowboard 1, wherein the fasteners are used for fixing feet of a person during snowboarding. In addition, the top surfaces of the board bodies at the front and rear end parts of the snowboard 1 are respectively provided with a second mounting hole 02 for mounting the simulator 2.

Referring to fig. 3-5, the simulator 2 of the present invention includes a nut 100 fixedly adhered in the cavity of the second mounting hole 02, a bottom case assembly 200 coupled to the cavity of the nut 100, and a top case assembly 300 mounted on the top of the bottom case assembly 200.

Referring to fig. 6 to 8, a bottom chassis assembly 200 according to the present invention includes a bottom chassis 210 as a protective housing and a lithium secondary battery 220 mounted in a cavity of the bottom chassis 210.

The bottom case 210 includes a bottom case body 211 having a boat-shaped groove shape and an upward opening, and a screw hole 03 is formed on each of top walls of left and right ends of the bottom case body 211. A stud 212 is connected to the bottom wall of the middle portion of the bottom case 211. The wall of the cavity in the middle of the bottom housing 211 is connected with four studs 213. A mounting opening is opened on the bottom wall of the right end of the bottom shell 211, and a USB Type C interface 214 for charging the lithium storage battery 220 is fixedly mounted in the inner cavity of the mounting opening.

Wherein the aperture of the nut 100 is facing upwards so that the stud 212 is bolted to the bore of the nut 100. Furthermore, the aperture of the nut 100 does not extend through the bottom of the nut 100, so that when the stud 212 is screwed into the aperture of the nut 100, the stud 212 extends through the aperture of the nut 100 and damages the body of the ski 1.

The embedded columns 213 are in the shape of right-angle steel, and four corners of the bottom of the lithium storage battery 220 are embedded in the internal corner cavities of the four embedded columns 213 respectively.

Referring to fig. 9-12, the top case assembly 300 of the present invention includes a top case 310 for use as a protective case, two LED light bulbs 320 for providing light indication, and a set of microprocessors 330.

The top case 310 includes a top case 311 having a boat-shaped groove shape and a downward opening, and the bottom walls of the left and right ends of the top case 311 are respectively provided with a stepped through hole-shaped insertion hole 04. The top wall of the middle part of the top shell 311 is provided with a mounting hole penetrating through the top wall, and a switch 312 for controlling the simulator 2 to be opened and closed is fixedly mounted in the hole cavity of the mounting hole. The wall of the cavity in the middle of the top shell 311 is connected with two side plates 313 which are arranged in bilateral symmetry, and the middle of the plate body of the side plates 313 is provided with a wire hole 05 for threading a wire. The plate body of the two side plates 313 is connected with a clamping strip 314 for fixedly clamping the LED lamp beads 320. Four mounting columns 315 are arranged in a clamping cavity formed between the two side plates 313, the top ends of the mounting columns 315 are connected to the wall of the cavity of the top shell 311, and the bottom ends of the mounting columns 315 are provided with two screw holes 06 for mounting the microprocessor 330.

The top case 311 is made of a transparent material, so that the light of the LED lamp bead 320 penetrates through the top case 311 to be observed by human eyes.

The side plate 313 is made of an opaque material, so that light rays of the LED lamp beads 320 positioned on the left side are prevented from being transmitted out of the right end portion of the top shell 311, and light rays of the LED lamp beads 320 positioned on the right side are prevented from being transmitted out of the left end portion of the top shell 311.

The locking strip 314 connected to the plate body of the left side plate 313 is located on the left side of the side plate 313, and the locking strip 314 connected to the plate body of the right side plate 313 is located on the right side of the side plate 313.

Wherein, the four mounting posts 315 are distributed in the middle shell cavity of the top shell 311 in a rectangular array. The microprocessor 330 has a small hole for fixing at each of four corners, and the four small holes of the microprocessor 330 are aligned with the two screw holes 06 of the four mounting posts 315. After a screw is used to pass through the small hole of the microprocessor 330, the screw is screwed into the bore of the screw hole two 06 aligned with the small hole and tightened, so that the microprocessor 330 is fixedly installed below the four mounting posts 315, and the microprocessor 330 is located in the middle case cavity of the top case 311. After the microprocessor 330 is turned on by the switch 312, the two LED lamp beads 320 are controlled to alternately flash, the flashing time of a single LED lamp bead 320 is between 5s and 10s, and the alternate flashing interval time of the two LED lamp beads 320 is between 30s and 60 s.

Wherein, the slot of the bottom case 211 and the slot of the top case 311 are covered, and two screw holes 03 of the bottom case 211 are aligned with the two insertion holes 04 of the top case 311 respectively. After a screw is used to pass through the hole of the jack 04, the screw is screwed into the hole of the screw hole one 03 aligned with the jack 04 and tightened, so that the bottom case 211 and the top case 311 are fixedly mounted together.

For convenience in describing the use of the present invention, the following descriptions of the front, rear, left and right etc. orientations are made with reference to the direction in which the snowboard 1 is slid forward.

When the invention is used, the front end and the rear end of the snowboard 1 are respectively provided with the simulator 2, and two tips of the simulators 2 respectively point to the left edge and the right edge of the snowboard 1. Taking the example of a beginner with the left foot in front and the right foot in back, the simulator 2 at the front end of the snowboard 1 represents the left foot of the beginner, and the simulator 2 at the back end of the snowboard 1 represents the right foot of the beginner. The left end of the simulator 2 is directed to the left edge of the snowboard 1, and the heel of the beginner is on the same side as the left edge of the snowboard 1, so the left end of the simulator 2 represents the heel; the right end of the simulator 2 is directed to the right edge of the ski 1 and the beginner's toes are on the same side of the right edge of the ski 1, so the right end of the simulator 2 represents the toes.

When the invention is used, a beginner turns on the switch 312 to start the simulator 2, and when the LED lamp bead 320 at the left end of the simulator 2 at the front end of the snowboard 1 flickers, the switch corresponds to the heel of the left foot, so that after the afterglow of eyes of the beginner glimpses the LED lamp bead 320 at the position to flicker, the beginner can control the left heel to step down and the right foot to lift lightly, and the beginner can lower the gravity center towards the direction pointed by the left end of the simulator 2 arranged at the front end of the snowboard 1, thus realizing left turn.

When the invention is used, a beginner turns on the switch 312 to start the simulator 2, and when the LED lamp bead 320 at the right end of the simulator 2 at the front end of the snowboard 1 flickers, the switch corresponds to the tiptoe of the left foot, so that after the LED lamp bead 320 glancing at the position by the afterglow of eyes of the beginner can control the tiptoe of the left foot to step down and the right foot to slightly lift, and the gravity center of the beginner is lowered towards the direction pointed by the right end of the simulator 2 arranged at the front end of the snowboard 1, thus realizing right turn.

In the foregoing, exemplary embodiments of the proposed solution have been described in detail with reference to preferred embodiments, however, it will be understood by those skilled in the art that many variations and modifications may be made to the specific embodiments described above, and that many combinations of the various features and structures presented in the present invention may be made without departing from the inventive concept, the scope of which is defined by the appended claims.

Claims (9)

1. Simulator for simulated training of skiing sports, comprising a ski (1) intended to slide on a snow-covered road, characterized in that: the device also comprises two simulators (2) which are respectively arranged above the front and rear end plate surfaces of the snowboard (1) and used for carrying out foot coordination prompt on a beginner on the snowboard (1) by using the light position;

the simulator (2) comprises a nut (100) fixedly embedded in a board body of the snowboard (1), a bottom case assembly (200) connected with a hole of the nut (100) and used for supplying power to the simulator (2), and a top case assembly (300) arranged at the top of the bottom case assembly (200) and used for giving a light prompt to a beginner.

2. A simulator for ski sport simulation training according to claim 1, wherein: the top surfaces of the board bodies of the snowboard (1) are uniformly reserved with first mounting holes (01) for mounting the fixing devices, and the top surfaces of the board bodies at the front end part and the rear end part of the snowboard (1) are respectively provided with second mounting holes (02) for fixing mounting nuts (100).

3. A simulator for ski sport simulation training according to claim 2, wherein: the base housing assembly (200) comprises a base housing (210) as a protective housing and a lithium accumulator (220) mounted in a housing cavity of the base housing (210).

4. A simulator for ski sport simulation training according to claim 3, wherein: bottom shell (210) include one and be ship type trough-shaped and bottom shell casing (211) that the notch faces up, and the roof at both ends respectively is seted up one and is used for installing screw hole (03) of top shell subassembly (300) about bottom shell casing (211).

5. A simulator for ski sport simulation training according to claim 4, wherein: the bottom wall of the middle part of the bottom shell body (211) is connected with a stud (212) which is used for being bolted with the screw cap (100);

the wall of a shell cavity in the middle of the bottom shell (211) is connected with four embedded columns (213) which are distributed in a rectangular array shape, and the lithium storage battery (220) is fixedly arranged in a clamping cavity formed by the four embedded columns (213);

a mounting hole is formed in the bottom wall of the right end portion of the bottom shell body (211), and a USB Type C interface (214) used for charging a lithium storage battery (220) is fixedly mounted in an inner cavity of the mounting hole.

6. A simulator for ski sport simulation training according to claim 4, wherein: the top shell assembly (300) comprises a top shell (310) used as a protective shell, two LED lamp beads (320) installed in the top shell (310) and used for giving light prompts to beginners, and a group of microprocessors (330) for controlling the LED lamp beads (320).

7. A simulator for ski sport simulation training according to claim 6, wherein: the top shell (310) comprises a top shell (311) which is in a ship-shaped groove shape and has a downward notch, and the bottom walls of the left end and the right end of the top shell (311) are respectively provided with an insertion hole (04) for installing the bottom shell (211).

8. A simulator for ski sport simulation training according to claim 7, wherein: the top wall of the middle part of the top shell (311) is provided with a mounting hole, and a switch (312) for controlling the simulator (2) to be opened and closed is fixedly mounted in the hole cavity of the mounting hole;

the wall of the shell cavity in the middle of the top shell (311) is connected with two side plates (313) which are arranged symmetrically left and right, and the middle of the plate body of each side plate (313) is provided with a wire hole (05) for threading a wire;

a clamping strip (314) for fixedly clamping the LED lamp beads (320) is connected to the plate body of the side plate (313);

four mounting columns (315) are arranged in a clamping cavity formed between the two side plates (313), the top ends of the mounting columns (315) are connected to the wall of the cavity of the top shell (311), and a second screw hole (06) for mounting the microprocessor (330) is formed in the bottom end of each mounting column (315).

9. A simulator for ski sport simulation training according to claim 8, wherein: four corners of the microprocessor (330) are respectively provided with a small hole for fixing, and the four small holes of the microprocessor (330) are respectively aligned with the two (06) screw holes of the four mounting columns (315).

Images