CN210738169U

CN210738169U - Wave making device

Info

Publication number: CN210738169U
Application number: CN201920140583.6U
Authority: CN
Inventors: 沈孝芹; 严高超; 于复生; 梁为; 朱宝星; 祝凯旋; 张华强
Original assignee: Shandong Jianzhu University
Current assignee: Shandong Jianzhu University
Priority date: 2019-01-28
Filing date: 2019-01-28
Publication date: 2020-06-12
Anticipated expiration: 2029-01-28

Abstract

The utility model relates to a wave making device belongs to the manual work and makes unrestrained equipment field. The wave making machine comprises a wave making sheet, a rotating disc, a reduction gearbox A, a motor cage, a guide rail plate and a moving device, wherein one end of the wave making sheet is rotatably arranged on the rotating disc, the upper part of the rotating disc is connected with the output end of the reduction gearbox A, the motor A is connected with the reduction gearbox A, the motor A and the reduction gearbox A are fixedly arranged in the motor cage together, the guide rail plate is fixedly arranged on one side of the motor cage, and the moving device is matched with a guide rail on the guide rail plate to enable the moving device to slide on the guide rail plate. The wave making equipment of the device can move on a vertical plane, can make waves for liquids of different water levels, the depth of the waves generated by the working of the device can be adjusted, and meanwhile, the form, size and wave interval time of the waves can be well adjusted, so that the underwater space can be fully stirred.

Description

Wave making device

Technical Field

The technical scheme of the invention relates to a wave making device, in particular to a device which adopts a wave making sheet, a motor and a gear rack with special structures, and belongs to the field of artificial wave making equipment.

Background

With the further development of offshore resource development, more and more scientific research institutions gradually shift the focus to the development of offshore equipment, and trial runs are required in the development process of the offshore equipment, but not all scientific research institutions can carry out experiments on the sea under the condition that every trial run can be carried out, and in the development process of the offshore equipment, the scientific research institutions do not directly carry out trial runs on the sea. Because the sea state is complicated, the equipment is easily lost when the test machine is on the sea. Therefore, in the process of offshore equipment development, preliminary experiments need to be performed on land, the conventional method is to perform trial operation in a larger pond or to perform trial operation by a researcher in a pool, however, experiments performed in the pond or the pool cannot well simulate the severe offshore environment. Many factors need to be considered for the simulation of the offshore environment, such as the size and shape of the wave, the depth of the wave, and the time interval between waves. Although the traditional wave making machine can make waves, the traditional wave making device has a plurality of defects and is not suitable for a plurality of occasions.

For example, chinese patent CN106522598A discloses a wave generator capable of adjusting hydraulic power for amusement park construction facilities, which drives a blade to rotate by a motor to stir the water surface, thereby generating waves, and the device also enables the whole device to move on a vertical plane by the mutual cooperation of a hydraulic cylinder and a bracket, thereby stirring the liquids with different water levels, and the depth of the waves generated by the device can be adjusted, but the device cannot adjust the shape and size of the waves well, and only can stir the liquids with different water levels to form waves.

The patent that china patent CN206362526U announced, the device utilizes the motor to drive crank rocker mechanism and move, stirs through the wave making board to the surface of water and realizes making waves, but the wave that causes with the device only exists in the upper surface of water, can't go deep into under water at all, and the size and the form of wave can't carry out effectual regulation moreover.

Chinese patent CN103563829B discloses a method for manufacturing a surge machine and a surge machine floating body, the device fixes a motor and a reduction gearbox through a fixing rod, the motor and the reduction gearbox can not rotate along with the rotation of a blade, the motor is used for driving and the floating body rotates, so that the blade designed on the floating body can correspondingly stir the water surface, thereby causing waves, but the waves caused by the device only exist on the upper surface of the water, and cannot go deep into the water, and the size and the shape of the waves can not be effectively adjusted.

In summary, in the prior art, how to form complex and variable waves is not a good technical solution, so it is urgent to design a device which can be operated conveniently and can form complex and variable waves on different water surfaces.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a wave making device which can effectively adjust the size, the form, the depth of waves, the wave interval time and the like of the made waves, improve the simulation of a complex marine environment and overcome the defects in the prior art.

The invention is realized by the following technical scheme: a method for manufacturing complex waves uses a device consisting of a wave making sheet, a rotating disc, a reduction gearbox A, a motor cage, a guide rail plate and a moving device, wherein one end of the wave making sheet is rotatably arranged on the rotating disc, the upper part of the rotating disc is connected with the output end of the reduction gearbox A through a coupling, the output end of the motor A is connected with the input end of the reduction gearbox A through the coupling, the motor A and the reduction gearbox A are fixedly arranged in the motor cage, the guide rail plate is fixedly arranged at one side of the motor cage, the moving device is matched with a guide rail on the guide rail plate, so that the moving device can slide on the guide rail plate, the position of the whole device relative to the water surface can be changed by adjusting the position of the moving device on the guide rail plate, waves can be manufactured at different water levels, and the interval time of the waves can be effectively adjusted by adjusting the rotating speed of, the motor B capable of driving the wave making sheet to rotate is arranged in the rotating disc, the area of the wave making sheet acting on the liquid can be changed after the motor rotates, and meanwhile, the wave making sheet contracts or expands to adjust the size and shape of the waves, so that complex waves are formed.

The wave making device comprises a wave making sheet, a rotating disc, a reduction gearbox A, a motor cage, a guide rail plate and a moving device, wherein one end of the wave making sheet is rotatably arranged on the rotating disc, the upper part of the rotating disc is connected with the output end of the reduction gearbox A through a coupler, the output end of the motor A is connected with the input end of the reduction gearbox A through the coupler, the motor A and the reduction gearbox A are fixedly arranged inside the motor cage together, the guide rail plate is fixedly arranged on one side of the motor cage, and the moving device is matched with a guide rail on the guide rail plate to enable the moving device to slide on the guide rail plate.

The motor B and the motor C are fixedly installed inside the rotating disc, an output shaft of the motor B is connected with a motor shaft hole in the wave making sheet through a spline, the motor B is uniformly distributed inside the rotating disc and can drive the wave making sheet to rotate so as to adjust the angle of the wave making sheet, the rotating interval of the motor B is 90 degrees in forward rotation to 90 degrees in reverse rotation, the wave making sheet is perpendicular to the ground when the rotating angle is 0 degree, a rope pulley is arranged on the motor C, a steel wire rope is wound on the rope pulley, and a rotating disc cover on the upper portion of the rotating disc is fixed on the rotating disc through screws.

The wave making sheet comprises a rod piece, a steel wire rope, a flexible skin, a sliding plate and a wave making plate, wherein a motor shaft hole matched with a motor B is designed on the wave making plate, a steel wire rope groove with smooth radian is also designed on the wave making plate, the rod piece of the wave making sheet is symmetrically arranged, the rod piece is divided into a rod piece A, a rod piece B and a rod piece C, the rod piece A and the rod piece B are rotatably arranged on the wave making plate through a pin shaft, the side part of the rod piece A is provided with the pin shaft hole, the rod piece B is provided with a sliding groove, the upper end of the rod piece C is arranged in the pin shaft hole at the side part of the rod piece A through the pin shaft, the middle part of the rod piece C is also fixedly provided with a convex block, the convex block is arranged in the sliding groove and can slide in the sliding groove, the two ends of the steel wire rope are connected with rope wheels on the motor C, the motor C rotates to drive the lengths of the two sides of the steel wire rope to change correspondingly, so that the sliding plate is driven to move up and down, the sliding plate drives the rod pieces to be linked, and the flexible skin is wrapped on the surface layer of the wave making sheet.

The guide rail plate is characterized in that guide rails are arranged on two sides of the guide rail plate, a gear groove is formed in the middle of the guide rail plate, a rack is vertically arranged on one side of the gear groove, the gear groove is vertically blocked by a partition plate, the partition plate is fixedly installed on the upper portion and the lower portion of the guide rail through screws, paired guide rails matched with the guide rails on the guide rail plate are arranged on two sides of the moving device, the moving device further comprises a motor D, a reduction gearbox D and a gear, the reduction gearbox D is provided with an input shaft and an output shaft, the motor D drives the gear to roll on the rack through the reduction gearbox, the moving device is driven to move up and down on the guide rail plate, a screw hole connected with an external lifting device is further formed in the moving device, and meanwhile.

The flexible skin is made of reinforced fibers with high elastic strength, motor output shafts of the motors A to D are connected in a spline mode, and the reduction gearbox A is a reduction gearbox with an output shaft coaxial with an input shaft.

The wave making device also comprises an external hoisting device, so that the wave making device can vertically enter and exit from the water surface.

Preferably, the wave making sheet can be designed as a telescopic wave plate, the telescopic wave plate is composed of a spring, a steel wire rope, a fixed pulley, a sheet body and a sandwich plate, the spring, the steel wire rope, the fixed pulley and the sandwich plate are installed in the sheet body together, wherein the sheet body is hollow, a motor shaft hole is arranged on the sheet body, one end of the spring is fixed in the sheet body, the number of the spring is symmetrically arranged relative to the middle of the sheet body, the other end of the spring is fixed on the sandwich plate, the sandwich plate is installed in the sheet body, the fixed pulleys are installed at two ends in the sheet body, one end of the steel wire rope is connected with the sandwich plate, the other end of the steel wire rope changes the direction of the steel wire rope through the fixed pulley, the steel wire rope penetrates out from one side of the motor shaft hole and is connected with a rope pulley, the motor shaft hole is used for being connected with a motor output shaft on the motor B.

Preferably, the wave making sheet can also adopt a cross wave sheet, one end of the cross wave sheet is connected with an output shaft of the motor B through a motor shaft hole, the length ratio of the wide side to the narrow side of the cross wave plate is 2:1, and meanwhile, a smooth fillet is guided on the cross wave sheet.

The above-mentioned wave making device is obtained by known means, the components of which are known to the person skilled in the art, and the method of connecting the components is known to the person skilled in the art.

The wave-making device has the beneficial effects that the wave-making equipment of the device can move on a vertical plane, so that waves can be made on liquids with different water levels, the depth of waves generated by the device can be adjusted, the shape and size of the waves and the interval time of the waves can be well adjusted, and the underwater space can be fully stirred. The device uses a moving device with a guide rail to move up and down under the matching of a gear and a rack, so that the device has stable transmission, the up-and-down moving distance can be calculated, and the up-and-down moving speed can be controlled. The device uses motor B to drive the wave making plate to carry out rotary motion, the shape and the size of regulation wave that can be fine, and motor B drives the wave making plate and rotates, makes the wave making plate change for the contained angle of the surface of water, and when motor A drives the rolling disc motion, the wave making plate will produce the wave of different effects. Meanwhile, the connecting rod mechanism is designed in the wave making plate, so that when the steel wire rope moves under the driving of the motor C, the connecting rod mechanism can be changed from a telescopic state to an unfolding state, the flexible skin can correspondingly stretch, the action area and the action form of the wave making plate on liquid are increased or reduced, waves generated by the wave making device are diversified and complicated, and the shape and the size of the waves are inconsistent due to the fact that the stressed area and the stressed shape of the wave making plate are different. The device adopts motor A to drive the rolling disc, and operating personnel can adjust the interval time of regulation wave through the rotational speed of adjusting motor A. When the telescopic wave plate is adopted, the steel wire rope can be driven by the motor C to run, and the sandwich plate can be correspondingly contracted under the action of the steel wire rope and the spring, so that the contact area of the telescopic wave plate to liquid is changed. When the cross wave sheet is adopted, the motor B drives the cross wave plate to rotate, and the contact area of the cross wave plate relative to the water surface can be continuously changed, so that the shape and size of the wave are adjusted.

Drawings

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

FIG. 2 is a block diagram of the motor cage and guide rail plate of the present invention;

FIG. 3 is a block diagram of a mobile device according to the present invention;

FIG. 4 is an exploded view of the rotating disk of the present invention;

fig. 5 is a structural view of a motor C and a sheave of the present invention;

FIG. 6 is a schematic view of the overall structure of the present invention combined with an external lifting device;

fig. 7 is a schematic view of an overall structure of the wave making sheet in a state where the bar member is contracted according to the first embodiment of the present invention;

fig. 8 is a schematic view of the overall structure of the wave-making sheet in the unfolded state of the bar member according to the first embodiment of the present invention;

fig. 9 is an exploded view of a wave making sheet according to a first embodiment of the present invention;

FIG. 10 is a schematic structural view of the wave making sheet of the present invention when the motor B rotates clockwise or counterclockwise by 90 degrees;

FIG. 11 is a schematic structural view of the wave-making sheet of the present invention when the motor B rotates in forward or reverse direction by 0 °;

FIG. 12 is a schematic structural view of the wave-making sheet of the present invention when the motor B rotates forward or backward by less than 90 degrees;

fig. 13 is a schematic structural view of the wave making sheet according to the second embodiment of the present invention after installation;

fig. 14 is a sectional view of a wave making sheet according to a second embodiment of the present invention;

fig. 15 is a schematic structural view of the wave making sheet according to the third embodiment of the present invention after installation;

fig. 16 is a schematic structural diagram of a wave making sheet in the third embodiment of the present invention.

In the figure: 1. motor D, 2, reduction gearbox D, 3, screw hole, 4, rack, 5, wave making sheet, 6, rotating disc, 7, motor cage, 8, reduction gearbox a, 9, motor a, 10, guide rail plate, 11, lug, 12, gear groove, 13, guide rail, 14, moving device, 15, motor B, 16, motor C, 17, spline, 18, rotating disc cover, 19, external hoisting device, 20, rope sheave, 21, cross wave plate, 22, motor shaft hole, 23, telescopic wave plate, 501, wave making plate, 502, flexible skin, 503, bar a, 504, bar B, 505, sliding plate, 506, wire rope, 507, bar C, 2301, spring, 2302, sheet body, 2303, sandwich plate, 2304, fixed pulley.

Detailed Description

The invention is further described with reference to the following figures and examples.

The invention relates to a method for manufacturing complex waves, which uses a device consisting of a wave making sheet 5, a rotating disc 6, a reduction gearbox A8, a motor A9, a motor cage 7, a guide rail plate 10 and a moving device 14, wherein one end of the wave making sheet 501 is rotatably arranged on the rotating disc 6, the upper part of the rotating disc 6 is connected with the output end of the reduction gearbox A8 through a coupling, the output end of the motor A9 is connected with the input end of the reduction gearbox A8 through the coupling, the motor A9 and the reduction gearbox A8 are fixedly arranged in the motor cage 7, the guide rail plate 10 is fixedly arranged at one side of the motor cage 7, the moving device 14 is matched with a guide rail 13 on the guide rail plate 10, so that the moving device 14 can slide on the guide rail plate 10, the position of the device relative to the water surface can be changed by adjusting the position of the moving device 14 on the guide rail plate 10, waves can be manufactured at, meanwhile, the interval time of the waves can be effectively adjusted by adjusting the rotating speed of the motor A9, the motor B15 which can drive the wave making sheet 5 to rotate is designed in the rotating disc 6, the area of the wave making sheet 501 acting on the liquid can be changed after the motor rotates, and meanwhile, the wave making sheet 5 contracts or expands, so that the size and the shape of the waves can be adjusted, and the complex waves are formed.

The embodiment shown in fig. 1 shows that the wave making device comprises a wave making sheet 5, a rotating disc 6, a reduction gearbox A8, a motor A9, a motor cage 7, a guide rail plate 10 and a moving device 14, wherein one end of the wave making sheet 501 is rotatably installed on the rotating disc 6, the upper part of the rotating disc 6 is connected with the output end of the reduction gearbox A8 through a coupler, the output end of the motor A9 is connected with the input end of the reduction gearbox A8 through the coupler, and the motor A9 and the reduction gearbox A8 are fixedly installed inside the motor cage 7; as shown in fig. 2, the rail plate 10 is fixedly installed at one side of the motor cage 7, and the moving device 14 is engaged with the rail 13 of the rail plate 10 so that the moving device 14 can slide on the rail plate 10.

As shown in fig. 4, a motor B15 and a motor C16 are fixedly installed inside the rotating disc 6, an output shaft of the motor B15 is connected with a motor shaft hole 22 on the wave making sheet 5 through a spline 17, the motor B15 is uniformly distributed inside the rotating disc 6, the motor B15 can drive the wave making sheet 5 to rotate so as to adjust the angle of the wave making sheet 5, the rotating section of the motor B15 is from 90 degrees of forward rotation to 90 degrees of reverse rotation, when the rotation angle is 0 degree, the wave making sheet 5 is perpendicular to the ground, the motor B15 adjusts the shape and size of the wave by changing the angle of the wave making sheet 5 relative to the liquid level, a rope pulley 20 is arranged on the motor C16, as shown in fig. 5, a steel wire rope 506 is wound on the rope pulley 20, a rotating disc cover 18 on the upper portion of the rotating disc 6 is fixed on the rotating disc 6 through screws, and a reduction gearbox a8 is connected with the upper portion.

As shown in fig. 10 to 12, in a state where the motor B15 drives the wave making sheet 5 to rotate at a certain angle, when the motor B15 rotates at no angle, the wave making sheet 5 is perpendicular to the liquid level, and when the rotating disc 6 drives the wave making sheet 5 to rotate, the generated wave is a wave without rising buoyancy and falling capability; when the wave making sheet 5 rotates for a certain angle under the driving of the motor B15 and the rotating disc 6 drives the wave making sheet 5 to rotate, the generated waves have the acting force of floating or sinking.

As shown in fig. 7 to 9, the wave making sheet 5 includes a bar member, a wire rope 506, a flexible skin 502, a sliding plate 505, and a wave making plate 501, the wave making plate 501 is designed with a motor shaft hole 22 matched with a motor B15, the wave making plate 501 is also designed with a wire rope 506 groove with a smooth arc, the bar members of the wave making sheet 5 are symmetrically arranged, wherein the bar member is divided into a bar member a503, a bar member B504 and a bar member C507, the bar member a503 and the bar member B504 are rotatably mounted on the wave making plate 501 through a pin shaft, the side portion of the bar member a503 is provided with a pin shaft hole, the bar member B504 is provided with a sliding groove, the upper end of the bar member C507 is mounted in the pin shaft hole of the side portion of the bar member a503 through a pin shaft, the middle portion of the bar member C507 is further fixedly provided with a projection 11, the projection 11 is mounted in the sliding groove, the projection 11 can, the steel wire rope 506 is arranged in a steel wire rope 506 groove, two ends of the steel wire rope 506 are connected with the rope wheel 20 on the motor C16, the motor C16 rotates to drive the lengths of two sides of the steel wire rope 506 to change correspondingly, so as to drive the sliding plate 505 to move up and down, the flexible skin 502 is wrapped on the surface layer of the wave making sheet 5, the sliding plate 505 moving up and down drives each rod piece to perform corresponding linkage, the front end of the wave making sheet 501 contracts and expands correspondingly, the acting area and the acting shape of the wave making sheet 501 acting on the water surface are changed, and the size and the shape of the generated waves are different.

The guide rail plate comprises a guide rail plate 10, guide rails 13 are arranged on two sides of the guide rail plate 10, a gear groove 12 is arranged in the middle of the guide rail plate, a rack 4 is vertically arranged on one side of the gear groove 12, the upper portion and the lower portion of the gear groove 12 are blocked by partition plates, the partition plates are fixedly arranged on the upper portion and the lower portion of the guide rail 13 through screws, paired guide rails 13 matched with the guide rails 13 on the guide rail plate 10 are arranged on two sides of a moving device 14, the moving device 14 further comprises a motor D1, a reduction gearbox D2 and gears, as shown in figure 3, the reduction gearbox D2 is a reduction gearbox with an input shaft perpendicular to an output shaft, the motor D1 drives the gears to roll on the rack 4 through the reduction gearbox, so that the guide rail plate 10 moves up and down relative to the moving device 14, a screw hole 3 connected with an external lifting device 19 is further.

The flexible skin 502 is made of reinforced fibers with high elastic strength, the motor output shafts of the motor A9 and the motor D1 are connected in a spline 17 mode, and the reduction gearbox A8 is a reduction gearbox with the output shaft coaxial with the input shaft.

As shown in fig. 6, the wave making device should also include an external lifting device 19 to allow the wave making device to move vertically in and out of the water.

Example 1

According to the above-mentioned fig. 1 to fig. 12, a wave making device is made, when an operator uses the device, the operation of the motor D1 is controlled to drive the gear to engage and transmit on the rack 4, so that the track plate 10 moves up and down relative to the moving device 14, and the height of the wave making plate 501 relative to the liquid level changes, thereby achieving the effect of changing the wave making depth. The wave making interval can be changed by changing the rotating speed of the motor A9 and reducing or increasing the rotating speed of the wave making sheet 5. The operation of the motor B15 changes the included angle of the wave making sheet 5 relative to the liquid level, the wave making sheets 5 with different rotation angles rotate to generate waves with different lifting forces, and the change of the stressed area changes the size of the waves. The motor C16 drives the steel cable 506 to operate, so that the shape of the wave-making sheet 5 is greatly changed under the combined action of the rod members and the flexible skin 502, and the shape of the generated wave can be correspondingly changed. Thereby creating complex and variable waves and better simulating complex sea conditions.

Example 2

As shown in fig. 1 to 6 and fig. 10 to 14, in the manufactured wave making device, the wave making sheet 5 is designed as a telescopic wave plate 23, and the motor C16 drives the steel wire rope 506 to operate, so that the telescopic wave plate 23 extends or contracts under the interaction of the spring 2301 and the steel wire rope 506, the force bearing area of the telescopic wave plate 23 is changed, and the generated waves are more complex and variable.

Example 3

As shown in fig. 1 to 6, 10 to 12, and 15 to 16, the wave making device is obtained, the wave making sheet 5 is a cross wave sheet, one end of the cross wave sheet is connected with the output shaft of the motor B15 through the motor shaft hole 22, the length ratio of the wide side to the narrow side of the cross wave sheet 21 is 2:1, the cross wave sheet is guided with a smooth fillet, and the motor B15 rotates to enable the action area of the cross wave sheet 21 relative to the liquid to change greatly, so that the generated waves are more complicated and changeable.

Therefore, the scope of the present invention should not be limited to the disclosure of the embodiments, but includes various alternatives and modifications without departing from the scope of the present invention, which is defined by the claims of the present patent application.

Claims

1. The utility model provides a wave making device, includes wave making piece, rolling disc, reducing gear box A, motor cage, guide rail board and mobile device, its characterized in that: one end of the wave making sheet is rotatably arranged on the rotating disc, the upper part of the rotating disc is connected with the output end of the reduction gearbox A through the coupler, the output end of the motor A is connected with the input end of the reduction gearbox A through the coupler, the motor A and the reduction gearbox A are fixedly arranged inside the motor cage together, the guide rail plate is fixedly arranged on one side of the motor cage, and the moving device is matched with the guide rail on the guide rail plate to enable the moving device to slide on the guide rail plate.

2. A wave making apparatus as claimed in claim 1, wherein: the motor B and the motor C are fixedly installed inside the rotating disc, an output shaft of the motor B is connected with a motor shaft hole in the wave making sheet through a spline, the motor B is uniformly distributed inside the rotating disc and can drive the wave making sheet to rotate so as to adjust the angle of the wave making sheet, the rotating interval of the motor B is 90 degrees in forward rotation to 90 degrees in reverse rotation, the wave making sheet is perpendicular to the ground when the rotating angle is 0 degree, a rope pulley is arranged on the motor C, a steel wire rope is wound on the rope pulley, and a rotating disc cover on the upper portion of the rotating disc is fixed on the rotating disc through screws.

3. A wave making apparatus as claimed in claim 1, wherein: the wave making sheet comprises a rod piece, a steel wire rope, a flexible skin, a sliding plate and a wave making plate, wherein a motor shaft hole matched with a motor B is designed on the wave making plate, a steel wire rope groove with smooth radian is also designed on the wave making plate, the rod piece of the wave making sheet is symmetrically arranged, the rod piece is divided into a rod piece A, a rod piece B and a rod piece C, the rod piece A and the rod piece B are rotatably arranged on the wave making plate through a pin shaft, the side part of the rod piece A is provided with the pin shaft hole, the rod piece B is provided with a sliding groove, the upper end of the rod piece C is arranged in the pin shaft hole at the side part of the rod piece A through the pin shaft, the middle part of the rod piece C is also fixedly provided with a convex block, the convex block is arranged in the sliding groove and can slide in the sliding groove, the two ends of the steel wire rope are connected with rope wheels on the motor C, the motor C rotates to drive the lengths of the two sides of the steel wire rope to change correspondingly, so that the sliding plate is driven to move up and down, the sliding plate drives the rod pieces to be linked, and the flexible skin is wrapped on the surface layer of the wave making sheet.

4. A wave making apparatus as claimed in claim 1, wherein: the guide rail plate is characterized in that guide rails are arranged on two sides of the guide rail plate, a gear groove is formed in the middle of the guide rail plate, a rack is vertically arranged on one side of the gear groove, the upper portion and the lower portion of the gear groove are blocked by partition plates, the partition plates are fixedly mounted on the upper portion and the lower portion of the guide rail through screws, paired guide rails which are paired with the guide rails on the guide rail plate are arranged on two sides of the moving device, the moving device further comprises a motor D, a reduction gearbox D and a gear, the reduction gearbox D is provided with a reduction gearbox, an input shaft is perpendicular to an output shaft, the motor D drives the gear to roll on the rack through the reduction gearbox, the moving device is driven.

5. A wave making apparatus as claimed in claim 1, wherein: the motor output shafts of the motors A to D are connected in a spline mode, and the reduction gearbox A is a reduction gearbox with the output shaft coaxial with the input shaft.

6. A wave making apparatus as claimed in claim 1, wherein: the wave making device also comprises an external hoisting device, so that the wave making device can vertically enter and exit from the water surface.

7. A wave making apparatus as claimed in claim 3, wherein: the flexible skin is made of reinforced fibers with high elastic strength.