CN112376959B

CN112376959B - Swimming pool based on computer control

Info

Publication number: CN112376959B
Application number: CN202110060405.4A
Authority: CN
Inventors: 姜轮; 孙忠利; 姜福兴; 姜岩; 李卫勇; 丁学雷
Original assignee: Yantai Engineering and Technology College
Current assignee: Yantai aikrypton Digital Technology Co.,Ltd.
Priority date: 2021-01-18
Filing date: 2021-01-18
Publication date: 2021-09-03
Anticipated expiration: 2041-01-18
Also published as: CN112376959A

Abstract

The invention belongs to the technical field of swimming pools, in particular to a swimming pool based on computer control; comprises a pool body; the cavity of the tank body is divided into a shallow water area, a middle water area and a deep water area; a first liquid bin is arranged in the deep water area in the cavity of the tank body; the inner wall of the first liquid bin is fixedly connected with absorption pipes which are uniformly distributed; supporting plates are fixedly connected to the upper portion of each absorption tube in the inner walls of the two sides of the first liquid bin; two extrusion blocks are connected in the cavity of each absorption tube in a sliding manner; liquid holes which are uniformly distributed are formed in the center of each absorption tube body; the invention is mainly used for solving the problem that some swimming beginners often swim to a deep water area inadvertently when learning swimming in a private swimming pool, drowning occurs under the conditions that the swimming technology is not very skilled and safety facilities are not provided, safety accidents can occur to the beginners if a swimming coach is not beside the swimming pool, and the swimming beginners can drown in serious cases.

Description

Swimming pool based on computer control

Technical Field

The invention belongs to the technical field of swimming pools, and particularly relates to a computer control-based swimming pool.

Background

Swimming pools are special places where people perform swimming sports, and people can move or play games. Most swimming pools are built on the ground and can be divided into general swimming pools and warm water swimming pools according to the water temperature. Is divided into an indoor part and an outdoor part. The formal match swimming pool is 50 meters long, at least 21 meters wide and more than 1.8 meters deep; the pool for swimming, diving and water polo comprehensive use has water depth of 1.3-3.5 m and water temperature of 27-28 deg.c. There should be filtering and disinfecting equipment to keep the pool water clean, however, there are still certain problems with the current swimming pools, including the following:

in the prior art, some swimming beginners often swim to a deep water area carelessly when learning swimming in a private swimming pool, because the swimming technique is not very skilled, and under the condition of not having safety facilities, the drowning condition can appear, if the swimming coach is not beside the swimmer, the safety accident can be caused to the beginners, and the swimming beginners can drown in serious cases.

In view of the above, in order to overcome the above technical problems, the present invention is designed and developed to provide a computer-controlled swimming pool, which solves the above technical problems.

Disclosure of Invention

The invention provides a swimming pool based on computer control, which is mainly used for solving the problems that some swimming beginners often swim to a deep water area inadvertently when learning swimming in a private swimming pool, drowning occurs due to the fact that the swimming technology is not skilled and no safety facilities are provided, and if a swimming coach is not beside the swimming coach, safety accidents occur to the beginners, and the swimming beginners can be drowned seriously.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a swimming pool based on computer control, which comprises a pool body; the cavity of the tank body is divided into a shallow water area, a middle water area and a deep water area; a first liquid bin is arranged in the deep water area in the cavity of the tank body; the inner wall of the first liquid bin is fixedly connected with absorption pipes which are uniformly distributed; supporting plates are fixedly connected to the inner walls of the two sides of the first liquid bin above each absorption tube, and gaps are reserved between the supporting plates; two extrusion blocks are connected in the cavity of each absorption tube in a sliding manner, and the two extrusion blocks are connected through a spring; liquid holes are uniformly formed in the center of each absorption tube body, and the two extrusion blocks correspond to the liquid holes in the initial state and seal the liquid holes; a first sliding groove is formed in the inner wall of the cavity above the absorption tube on the opposite side of the two extrusion blocks; the outer surfaces of the two extrusion blocks are fixedly connected with two extrusion balls, and the extrusion balls on the opposite sides extend into the first sliding groove partially and seal the first sliding groove; a second sliding groove is formed in the inner wall of the absorption tube above the two first sliding grooves; a first sliding plate is connected in each second sliding groove in a sliding manner; one side of each first sliding plate, which is close to the corresponding extrusion block, is fixedly connected with an arc-shaped layer, and the arc-shaped layers extend into the first sliding grooves; first air holes are uniformly formed in the inner wall of each first sliding plate; second air holes which are uniformly distributed are formed in the inner wall of the absorption tube above each first sliding plate, and the second air holes and the first air holes are arranged in a staggered mode in the initial state; pull belts are fixedly connected to the opposite sides of the two extrusion blocks, and extend out of the absorption tube and are connected with a driving shaft of the driving motor; the driving motors are controlled by a computer program; each absorption tube is filled with gas in an initial state; a first empty box is arranged in the cavity of the tank body in the reclaimed water area, and a gap is reserved between the first empty box and the first liquid bin; the upper surface of the first empty box is provided with a second liquid bin, and the internal structure of the second liquid bin is completely the same as that of the first liquid bin; a second empty box is arranged in the cavity of the pool body in the shallow water area, and the second empty box is higher than the first empty box; a third liquid bin is arranged on the upper surface of the second empty box, and the internal structure of the third liquid bin is completely the same as that of the second liquid bin; a monitor is arranged in the tank body and is controlled by a computer;

when the swimming pool is in operation, in the prior art, some swimming beginners can often swim to a deep water area inadvertently when learning swimming in a private swimming pool, because the swimming technology is not very skilled and under the condition of no safety facility, the drowning condition can occur, if a swimming coach is not beside the swimming pool, the safety accident of the beginners can be caused, and the drowning of the swimming beginners can be caused seriously, the swimming pool manufactured by the invention can control the driving motor to drive the extrusion block to suck part of water in the swimming pool into the absorption tube through the computer program, so that the liquid level of the swimming pool can be reduced, the drowning condition of the swimming pool can be prevented, meanwhile, the cylindrical bag on the computer control auxiliary plate is released, at the moment, the swimming person can hold the cylindrical bag to stretch out the head of the water surface, and the safety guarantee can be provided for the swimming person in the process, when the swimming pool manufactured by the invention is used, when a swimmer is drowned when the swimmer inadvertently swims to a deep water area, the monitor controlled by the computer is used for observing that the swimmer is drowned, the monitor feeds back the drowned situation to the computer, the computer drives the motor to rotate, the drawstring can be wound and the two extrusion blocks in the absorption tube are pulled to move back and forth in the rotating process of the drive motor, the extrusion blocks can gradually separate from the liquid hole in the process of moving back and forth, after the liquid hole is completely opened, the water in the swimming pool can be pumped into the absorption tube through the liquid hole in the moving process of the extrusion blocks, the water level of the swimming pool can be reduced by jointly absorbing water through the absorption tubes, the drowning risk of the swimmer can be reduced, because the extrusion ball can seal the first sliding groove in an initial state, therefore, water in the swimming pool can be prevented from flowing into the absorption pipe, when the extrusion block moves to one side of the arc-shaped layer, the extrusion block can push the arc-shaped layer to move back and forth, meanwhile, the arc-shaped layer can drive the first sliding plate to slide in the second sliding groove, when the first sliding plate slides to the other side of the second sliding groove, the first air hole and the second air hole are overlapped, meanwhile, gas in the absorption pipe can be sprayed into the swimming pool through the first air hole and the second air hole in the sliding process of the extrusion block, water can be rolled in the gas spraying process, when the rolled water is contacted with a swimmer, the swimmer can be pushed to move upwards, the sinking speed of the swimmer can be reduced in the process, and therefore time can be won for the swimmer to save, because the internal structures in the first liquid bin, the second liquid bin and the third liquid bin are completely the same, when the swimmer is drowned, the absorption pipes in the first liquid bin, the second liquid bin and the third liquid bin can absorb water in the swimming pool, the speed that the water level descends in the swimming pool can be accelerated in the process, so that the survival probability of a swimmer can be further improved, meanwhile, the first liquid bin, the second liquid bin and the third liquid bin are all jet air to the water, the rolling degree of the water can be improved in the process, and the sinking speed of the drowned swimmer can be further reduced.

Preferably, each support plate is of a hollow design; a compression bag is arranged in the inner wall of each supporting plate; each compression bag is communicated with a part of second air holes through an extension pipe;

during operation, in the air injection process of the absorption pipe, part of air can flow into the telescopic pipe, the air flowing into the telescopic pipe can push the telescopic pipe to stretch, so that the compression bag can be extruded out of the support plate, meanwhile, the air can flow into the compression bag through the telescopic pipe, the air flowing into the compression bag can expand the compression bag towards two sides, the height of the bottom of the swimming pool can be increased in the process, and the safety accidents caused by the fact that feet of swimmers cannot touch the bottom of the swimming pool can be prevented.

Preferably, the left end faces of the second liquid chamber and the third liquid chamber are hinged with auxiliary plates, and the auxiliary plates are designed to be inclined in an initial state; the two auxiliary plates are driven by a motor, and the motor is controlled by a computer program; elongated slots which are uniformly distributed are formed in the inner walls of the two auxiliary plates; a cylindrical bag is arranged in each long groove through a short rod, and gas is filled in the cylindrical bag; the end surfaces of two sides of each long groove are rotatably connected with a C-shaped ring, and the C-shaped rings play a role in fixing the cylindrical bag in an initial state; the outer surface of each C-shaped ring is fixedly connected with first gear teeth which are uniformly arranged; a third sliding groove is formed in the inner wall of the auxiliary plate below each C-shaped ring, and the third sliding groove part is communicated with the long groove; a second sliding plate is connected in the two third sliding grooves in a sliding mode through springs, and the other end of the second sliding plate is fixedly connected with a motor shaft through a first pull rope; one side of each third sliding groove, which is communicated with the long groove, is fixedly connected with a second gear tooth on the upper surface of the second sliding plate, and the second gear tooth is meshed with the first gear tooth;

when the swimming pool is in work, the columnar bag is arranged on the auxiliary plate, so that the friction force between the auxiliary plate and the feet of a swimmer can be increased, the condition that the swimmer slips in the process of ascending is prevented, when the swimmer drowns, the computer controls the motor to rotate through a program, the auxiliary plate can be driven to rotate in the rotating process of the motor, when the auxiliary plate is parallel to the first liquid tank, the motor stops rotating, the feet of the swimmer can be supported in the rotating process of the auxiliary plate, so that the swimmer can be supported to prevent the drowning condition from continuously worsening, the first pull rope can be wound in the rotating process of the motor, the second sliding plate in the third sliding groove can be pulled to slide in the winding process of the first pull rope, the first gear teeth are driven to rotate through the second gear teeth in the sliding process of the second sliding plate, and the C-shaped ring can be driven to rotate anticlockwise in the rotating process of the first gear teeth, when the opening of the C-shaped ring faces upwards, the C-shaped ring can release the cylindrical bag fixed in the long groove, at the moment, the cylindrical bag can float on the water surface, and a swimmer can hold the cylindrical bag, so that safety protection can be provided for the swimmer in the process, and the swimmer is prevented from being aggravated under the condition of drowning.

Preferably, a long plate is fixedly connected to the center position of the supporting plate in the inner wall of one supporting plate at the left sides of the two auxiliary plates; the inner walls of the two long plates are hinged with support rods; the other ends of the two support rods are hinged with a top plate; the left end faces of the two auxiliary plates are fixedly connected with second pull ropes, and the second pull ropes penetrate through the long plate and are fixedly connected with the upper end faces of the support rods;

the during operation, can take the pulling second stay cord at accessory plate pivoted in-process, can stimulate the vaulting pole to rotate at the in-process that the second stay cord removed, vaulting pole stall when the vaulting pole rotates ninety degrees, the roof is propped up simultaneously, can further improve the height of swimming pool bottom at this in-process, thereby can support drowned person, prevent that the drowned condition will continue to worsen, can promote the vaulting pole at the expanded in-process of compression bag simultaneously and rotate certain range, thereby can reduce the pulling force that second stay cord pulling vaulting pole needs, thereby can prevent that the second stay cord can't pull up the vaulting pole, influence the propping of ejector pin and start the work.

Preferably, the inner walls of the two top plates are rotatably connected with a first gear through torsion springs; third pull ropes are wound on the rotating shafts of the two first gears, and the other ends of the third pull ropes are fixedly connected with the long plate; a fourth sliding groove is formed in the inner wall of the top plate above the two gears; toothed plates are connected in the two fourth sliding grooves in a sliding mode and are meshed with the gears;

the during operation, because the third stay cord that links firmly on the roof links firmly with first gear, at the in-process that the roof lifted up, the third stay cord can stimulate first gear revolve, can promote the pinion rack at first gear revolve's in-process and shift out the fourth spout, can increase the area of roof at this in-process to can provide the bigger supporting range of area for the swimmer, thereby can make the swimmer stand and contact the drowned condition on the roof.

Preferably, the baffles which are uniformly arranged are hinged in the inner wall of the left side of the first empty box, and the baffles are mutually attached and seal the first empty box in an initial state; each baffle extends upwards through a fourth pull rope and is fixedly connected with a motor shaft of a motor arranged on the corresponding auxiliary plate; the internal structure of the second empty box is the same as that of the first empty box;

the during operation, can stimulate the fourth stay cord at supplementary planking pivoted in-process and remove, the baffle that evenly arranges can be driven at the in-process that the fourth stay cord removed removes, and take place the separation between the baffle, water in the swimming pool can flow into first empty incasement through the space between the baffle this moment, water yield in the swimming pool can further be reduced at this in-process, thereby can reduce the water level of swimming pool, and then can provide safety guarantee for the swimmer, because the inner structure of second empty case is the same with first empty incasement inner structure, when water in the swimming pool flows into the second empty incasement, can further reduce the water level in the swimming pool, thereby further provide safety guarantee for the swimmer.

The invention has the following beneficial effects:

1. the swimming pool manufactured by the invention can drive the extrusion block to suck part of water in the swimming pool into the absorption pipe by controlling the driving motor through the computer program, so that the liquid level of the swimming pool can be reduced, the condition that a swimmer drowns can be prevented, meanwhile, the computer controls the cylindrical bag on the auxiliary plate to be released, so that the cylindrical bag can be released, the swimmer can hold the cylindrical bag at the moment and extend the head out of the water surface, and the safety guarantee can be provided for the swimmer in the process, so that the condition that the swimmer drowns and dies can be prevented.

2. According to the invention, the cylindrical bag is arranged, the second sliding plate in the third sliding groove can be pulled to slide in the winding process of the first pull rope, the first gear teeth are driven to rotate by the second gear teeth in the sliding process of the second sliding plate, the C-shaped ring can be driven to rotate anticlockwise in the rotating process of the first gear teeth, when the opening of the C-shaped ring is upward, the C-shaped ring can release the cylindrical bag fixed in the long groove, at the moment, the cylindrical bag can float on the water surface, and a swimmer can hold the cylindrical bag, so that safety protection can be provided for the swimmer in the process, and the swimmer can be prevented from being aggravated in the drowning condition.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a body diagram of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is an enlarged view of a portion of FIG. 2 at B;

FIG. 5 is an enlarged view of a portion of FIG. 2 at C;

FIG. 6 is a cross-sectional view of an absorber tube of the present invention;

FIG. 7 is an enlarged view of a portion of FIG. 6 at D;

in the figure: the device comprises a tank body 1, a first liquid cabin 11, a supporting plate 12, a compression bag 13, a telescopic pipe 14, an absorption pipe 15, an extrusion block 16, a liquid hole 18, a first sliding groove 19, an extrusion ball 191, a second sliding groove 192, a first sliding plate 193, an arc-shaped layer 194, a first air hole 195, a second air hole 196, a pull belt 197, an auxiliary plate 2, a long groove 21, a cylindrical bag 22, a C-shaped ring 23, a first gear tooth 24, a third sliding groove 25, a second sliding plate 26, a first pull rope 27, a second gear tooth 28, a long plate 3, a support rod 31, a top plate 32, a second pull rope 33, a first gear 34, a third pull rope 35, a fourth sliding groove 36, a toothed plate 37, a baffle plate 38, a fourth pull rope 39, a first empty box 4, a second liquid cabin 41, a second empty box 42 and a third liquid cabin 43.

Detailed Description

A computer-controlled swimming pool according to the present invention will now be described with reference to figures 1 to 7.

Embodiment 1, as shown in fig. 1 to 7, a computer-based swimming pool according to the present invention includes a pool body 1; the cavity of the tank body 1 is divided into a shallow water area, a middle water area and a deep water area; a first liquid bin 11 is arranged in a cavity of the tank body 1 in the deep water area; the inner wall of the first liquid bin 11 is fixedly connected with absorption pipes 15 which are uniformly arranged; supporting plates 12 are fixedly connected to the inner walls of the two sides of the first liquid bin 11 above each absorption tube 15, and gaps are reserved between the supporting plates 12; two extrusion blocks 16 are connected in a sliding manner in the cavity of each absorption tube 15, and the two extrusion blocks 16 are connected through springs; liquid holes 18 which are uniformly distributed are formed in the center of the tube body of each absorption tube 15, and the two extrusion blocks 16 correspond to the liquid holes 18 in the initial state and seal the liquid holes 18; a first sliding groove 19 is formed in the inner wall of the cavity above the absorption tube 15 at the opposite side of the two extrusion blocks 16; the outer surfaces of the two extrusion blocks 16 are fixedly connected with two extrusion balls 191, and the extrusion balls 191 on the opposite sides extend into the first sliding groove 19 partially and seal the first sliding groove 19; a second chute 192 is arranged above the two first chutes 19 and is arranged in the inner wall of the absorption tube 15; a first sliding plate 193 is slidably connected in each second sliding groove 192; one side of each first sliding plate 193, which is close to the corresponding extrusion block 16, is fixedly connected with an arc-shaped layer 194, and the arc-shaped layers 194 all extend into the first sliding groove 19; first air holes 195 which are uniformly distributed are formed in the inner wall of each first sliding plate 193; second air holes 196 which are uniformly arranged are formed in the inner wall of the absorption tube 15 above each first sliding plate 193, and the second air holes 196 and the first air holes 195 are arranged in a staggered manner in the initial state; pull belts 197 are fixedly connected to the opposite sides of the two extrusion blocks 16, and the pull belts 197 extend out of the absorption pipe 15 and are connected with a driving shaft of a driving motor; the driving motors are controlled by a computer program; each of the absorber tubes 15 is filled with gas in an initial state; a first empty box 4 is arranged in a cavity of the tank body 1 in the reclaimed water area, and a gap is reserved between the first empty box 4 and the first liquid bin 11; the upper surface of the first empty box 4 is provided with a second liquid tank 41, and the internal structure of the second liquid tank 41 is completely the same as that of the first liquid tank 11; a second empty box 42 is arranged in a cavity of the pool body 1 in the shallow water area, and the second empty box 42 is higher than the first empty box 4; a third liquid tank 43 is mounted on the upper surface of the second empty tank 42, and the internal structure of the third liquid tank 43 is completely the same as that of the second liquid tank 41; a monitor is arranged in the pool body 1 and is controlled by a computer;

in the prior art, some swimming beginners often swim to a deep water area inadvertently when learning swimming in a private swimming pool, because the swimming technology is not very skilled and the drowning condition can occur without safety facilities, if a swimming coach is not beside the swimming person, the safety accident can be caused to the beginners, and the swimming beginners can drown in serious cases;

the swimming pool manufactured by the invention can drive the extrusion block 16 to suck part of water in the swimming pool into the absorption pipe 15 by controlling the driving motor through the computer program, so that the liquid level of the swimming pool can be reduced, the situation that a swimmer drowns can be prevented, meanwhile, the computer controls the cylindrical bag 22 on the auxiliary board 2 to be released, so that the cylindrical bag 22 can be released, the swimmer can hold the cylindrical bag 22 at the moment, the head of the swimmer extends out of the water surface, and the safety guarantee can be provided for the swimmer in the process, so that the situation that the swimmer drowns and dies can be prevented;

when a swimming pool manufactured by the invention is used, when a swimmer drowns when the swimmer does not swim to a deep water area, the monitor controlled by the computer is used for observing that the swimmer drowns, the monitor feeds back the drowning to the computer, the computer drives the motor to rotate, the pull belt 197 can be wound and the two squeezing blocks 16 in the absorption tube 15 are pulled to move back and forth in the rotating process of the driving motor, the squeezing blocks 16 can gradually separate from the liquid hole 18 in the process of moving the squeezing blocks 16 back and forth, after the liquid hole 18 is completely opened, water in the swimming pool can be pumped into the absorption tube 15 through the liquid hole 18 in the moving process of the squeezing blocks 16, the water level of the swimming pool can be reduced through the common water absorption of the plurality of absorption tubes 15, the risk of the swimmer drowning can be reduced, the first sliding groove 19 can be sealed by the squeezing ball 191 in an initial state, so that the water in the swimming pool can be prevented from flowing into the absorption tubes 15, when the squeezing block 16 moves to one side of the arc layer 194, the squeezing block 16 can push the arc layer 194 to move back and forth, meanwhile, the arc layer 194 can drive the first sliding plate 193 to slide in the second sliding groove 192, when the first sliding plate 193 slides to the other side of the second sliding groove 192, at the moment, the first air hole 195 and the second air hole 196 coincide, meanwhile, in the sliding process of the squeezing block 16, air in the absorption pipe 15 can be sprayed into the swimming pool through the first air hole 195 and the second air hole 196, water can be enabled to turn over in the spraying process of the air, when the turning water is contacted with a swimmer, the swimmer can be pushed to move upwards, in the process, the sinking speed of the swimmer can be reduced, so that time can be won for the swimmer to rescue, because the internal structures in the first liquid chamber 11, the second liquid chamber 41 and the third liquid chamber 43 are completely the same, when the swimmer drowns, the absorption pipes 15 in the first liquid chamber 11, the second liquid chamber 41 and the third liquid chamber 43 all absorb water, the speed that the water level descends in the swimming pool can be accelerated in the process, so that the survival probability of a swimmer can be further improved, meanwhile, the first liquid bin 11, the second liquid bin 41 and the third liquid bin 43 spray air into water, the degree of water rolling can be improved in the process, and the sinking speed of the drowned swimmer can be further reduced.

Example 2, each of the support plates 12 is of hollow design; a compression bag 13 is arranged in the inner wall of each supporting plate 12; each of the compression bladders 13 is communicated with a part of the second air holes 196 through the extension pipe 14;

during operation, in the process of injecting air from the absorption pipe 15, part of the air flows into the extension pipe 14, the air flowing into the extension pipe 14 pushes the extension pipe 14 to stretch, so that the compression bag 13 can be extruded out of the support plate 12, meanwhile, the air flows into the compression bag 13 through the extension pipe 14, and the air flowing into the compression bag 13 can expand the compression bag 13 to two sides, so that the height of the bottom of the swimming pool can be increased in the process, and safety accidents caused by the fact that feet of swimmers cannot touch the bottom of the pool can be prevented. In embodiment 3, the auxiliary plates 2 are hinged to the left end surfaces of the second fluid reservoir 41 and the third fluid reservoir 43, and the auxiliary plates 2 are designed to be inclined in the initial state; the two auxiliary plates 2 are driven by a motor, and the motor is controlled by a computer program; elongated slots 21 which are uniformly distributed are formed in the inner walls of the two auxiliary plates 2; a cylindrical bag 22 is arranged in each long groove 21 through a short rod, and gas is filled in the cylindrical bag 22; the end surfaces of two sides of each long groove 21 are rotatably connected with a C-shaped ring 23, and the C-shaped rings 23 play a role in fixing the cylindrical bags 22 in an initial state; the outer surface of each C-shaped ring 23 is fixedly connected with first gear teeth 24 which are uniformly arranged; a third sliding groove 25 is formed in the inner wall of the auxiliary plate 2 below each C-shaped ring 23, and part of the third sliding groove 25 is communicated with the long groove 21; a second sliding plate 26 is connected in the two third sliding grooves 25 in a sliding manner through a spring, and the other end of the second sliding plate 26 is fixedly connected with a motor shaft through a first pull rope 27; each third sliding groove 25 is fixedly connected with a second gear tooth 28 on one side communicated with the long groove 21 and the upper surface of the second sliding plate 26, and the second gear tooth 28 is meshed with the first gear tooth 24;

when the swimming pool is in operation, the columnar bag 22 is arranged on the auxiliary plate 2, so that the friction force between the auxiliary plate 2 and the feet of a swimmer can be increased, the condition that the swimmer slips in the process of ascending a slope is prevented, when the swimmer drowns, the computer controls the motor to rotate through a program, the auxiliary plate 2 can be driven to rotate in the process of rotating the motor, when the auxiliary plate 2 is parallel to the first liquid tank 11, the motor stops rotating, the feet of the swimmer can be supported in the process of rotating the auxiliary plate 2, so that the swimmer can be lifted to prevent the drowning condition from continuously worsening, the first pull rope 27 can be wound in the process of rotating the motor, the second sliding plate 26 in the third sliding groove 25 can be pulled to slide in the process of winding the first pull rope 27, the first gear teeth 24 are driven to rotate through the second gear teeth 28, and the C-shaped ring 23 can be driven to rotate anticlockwise in the process of rotating the first gear teeth 24, when the opening of the C-shaped ring 23 is upward, the C-shaped ring 23 can release the cylindrical bag 22 fixed in the long groove 21, at the moment, the cylindrical bag 22 floats on the water surface, a swimmer can hold the cylindrical bag 22, and safety protection can be provided for the swimmer in the process, so that the swimmer is prevented from being aggravated in a drowning condition.

In embodiment 4, the long plate 3 is fixedly connected to the inner wall of one support plate 12 at the left side of two auxiliary plates 2 at the center of the support plate 12; the inner walls of the two long plates 3 are hinged with support rods 31; the other ends of the two stay bars 31 are hinged with a top plate 32; the left end faces of the two auxiliary plates 2 are fixedly connected with second pull ropes 33, and the second pull ropes 33 penetrate through the long plate 3 and are fixedly connected with the upper end faces of the support rods 31;

in operation, can take the pulling second stay cord 33 at the pivoted in-process of accessory plate 2, can pull the vaulting pole 31 at the in-process that second stay cord 33 removed and rotate, vaulting pole 31 stops rotating when vaulting pole 31 rotates ninety degrees, roof 32 is propped up simultaneously, can further improve the height of swimming pool bottom at this in-process, thereby can support drowning person, prevent that the drowning condition will continue to worsen, can push vaulting pole 31 at the expanded in-process of compression bag 13 simultaneously and rotate certain range, thereby can reduce the pulling force that second stay cord 33 pulling vaulting pole 31 needs, thereby can prevent that second stay cord 33 can't pull vaulting pole 31 up, influence the start-up work of propping of ejector pin.

In embodiment 5, the inner walls of the two top plates 32 are rotatably connected with a first gear 34 through a torsion spring; third pull ropes 35 are wound on the rotating shafts of the two first gears 34, and the other ends of the third pull ropes 35 are fixedly connected with the long plate 3; a fourth sliding chute 36 is arranged above the two gears and in the inner wall of the top plate 32; toothed plates 37 are connected to the two fourth sliding grooves 36 in a sliding manner, and the toothed plates 37 are meshed with gears;

during operation, because the third stay cord 35 that links firmly on roof 32 links firmly with first gear 34, at the in-process that roof 32 lifts up, first gear 34 rotation can be pulled to third stay cord 35, can promote the pinion rack 37 and shift out fourth spout 36 at the in-process that first gear 34 rotated, can increase the area of roof 32 at this in-process to can provide the bigger support range of area for the swimmer, thereby can make the swimmer stand and contact the condition of drowning on roof 32.

Embodiment 6, the baffle plates 38 are evenly arranged in the inner wall of the left side of the first empty box 4 in a hinged mode, and the baffle plates 38 are mutually attached and seal the first empty box 4 in an initial state; each baffle 38 extends upwards through a fourth pull rope 39 and is fixedly connected with a motor shaft of a motor mounted on the corresponding auxiliary plate 2; the internal structure of the second empty box 42 is the same as that of the first empty box 4;

when the swimming pool water level reducing device works, the fourth pull rope 39 can be pulled to move in the rotating process of the auxiliary plate 2, the baffle plates 38 which are uniformly arranged can be driven to move in the moving process of the fourth pull rope 39, the baffle plates 38 are separated, at the moment, water in the swimming pool can flow into the first empty box 4 through gaps among the baffle plates 38, the water amount in the swimming pool can be further reduced in the process, the water level of the swimming pool can be reduced, and safety guarantee can be provided for a swimmer, because the internal structure of the second empty box 42 is the same as that of the first empty box 4, when the water in the swimming pool flows into the second empty box 42, the water level in the swimming pool can be further reduced, and safety guarantee is further provided for the swimmer.

The specific working process is as follows:

when the swimming pool made by the invention is used, when a swimmer drowns when the swimmer does not swim to a deep water area, the monitor controlled by the computer is used for observing that the swimmer drowns, the monitor feeds back the drowning to the computer, the computer drives the motor to rotate, the pull belt 197 can be wound and the two extrusion blocks 16 in the absorption tube 15 are pulled to move back and forth in the rotating process of the drive motor, the extrusion blocks 16 can gradually separate from the liquid hole 18 in the process of moving the extrusion blocks 16 back and forth, after the liquid hole 18 is completely opened, the water in the swimming pool can be pumped into the absorption tube 15 through the liquid hole 18 in the moving process of the extrusion blocks 16, the water level of the swimming pool can be reduced through the common water absorption of the absorption tubes 15, thereby the risk of the drowning of the swimmer can be reduced, and the first sliding groove 19 can be sealed by the extrusion ball 191 in an initial state, therefore, water in the swimming pool can be prevented from flowing into the absorption pipe 15, when the extrusion block 16 moves to one side of the arc-shaped layer 194, the extrusion block 16 can push the arc-shaped layer 194 to move back and forth, meanwhile, the arc-shaped layer 194 can drive the first sliding plate 193 to slide in the second sliding groove 192, when the first sliding plate 193 slides to the other side of the second sliding groove 192, at the moment, the first air hole 195 and the second air hole 196 coincide, meanwhile, gas in the absorption pipe 15 can be sprayed into the swimming pool through the first air hole 195 and the second air hole 196 in the sliding process of the extrusion block 16, water can roll in the gas spraying process, when the rolling water is contacted with a swimmer, the swimmer can be pushed to move upwards, the sinking speed of the swimmer can be reduced in the process, time can be won for the swimmer, and because the internal structures in the first liquid tank 11, the second liquid tank 41 and the third liquid tank 43 are completely the same, when the swimmer drowns, the absorption tubes 15 in the first liquid chamber 11, the second liquid chamber 41 and the third liquid chamber 43 absorb water in the swimming pool, the speed of water level reduction in the swimming pool can be accelerated in the process, so that the survival probability of the swimmer can be further improved, meanwhile, the first liquid chamber 11, the second liquid chamber 41 and the third liquid chamber 43 spray air into the water, the degree of water rolling can be improved in the process, and the sinking speed of the drowner is further reduced.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A swimming pool based on computer control, comprising: comprises a tank body (1); the cavity of the tank body (1) is divided into a shallow water area, a middle water area and a deep water area; a first liquid bin (11) is arranged in a cavity of the pool body (1) in the deep water area; the inner wall of the first liquid bin (11) is fixedly connected with absorption pipes (15) which are uniformly arranged; supporting plates (12) are fixedly connected in the inner walls of the two sides of the first liquid bin (11) above each absorption tube (15), and gaps are reserved between the supporting plates (12); two extrusion blocks (16) are connected in a sliding manner in the cavity of each absorption tube (15), and the two extrusion blocks (16) are connected through springs; liquid holes (18) are uniformly formed in the center of each absorption tube (15), and the two extrusion blocks (16) correspond to the liquid holes (18) in the initial state and seal the liquid holes (18); a first sliding groove (19) is formed in the inner wall of the cavity above the absorption tube (15) on the opposite side of the two extrusion blocks (16); the outer surfaces of the two extrusion blocks (16) are fixedly connected with two extrusion balls (191), and the extrusion balls (191) on the opposite sides partially extend into the first sliding groove (19) and seal the first sliding groove (19);

a second sliding groove (192) is arranged above the two first sliding grooves (19) and in the inner wall of the absorption pipe (15); a first sliding plate (193) is connected in each second sliding groove (192) in a sliding manner; one side of each first sliding plate (193), which is close to the corresponding extrusion block (16), is fixedly connected with an arc-shaped layer (194), and the arc-shaped layers (194) extend into the first sliding grooves (19); first air holes (195) which are uniformly distributed are formed in the inner wall of each first sliding plate (193); second air holes (196) which are uniformly distributed are formed in the inner wall of the absorption tube (15) above each first sliding plate (193), and the second air holes (196) are distributed in a staggered mode with the first air holes (195) in the initial state; pull belts (197) are fixedly connected to the opposite sides of the two extrusion blocks (16), and the pull belts (197) extend out of the absorption pipe (15) and are connected with a driving shaft of a driving motor; the driving motors are controlled by a computer program;

each of the absorber tubes (15) is filled with gas in an initial state; a first empty box (4) is arranged in a cavity of the pool body (1) in the reclaimed water area, and a gap is reserved between the first empty box (4) and the first liquid bin (11); a second liquid bin (41) is mounted on the upper surface of the first empty box (4), and the internal structure of the second liquid bin (41) is completely the same as that of the first liquid bin (11); a second empty box (42) is arranged in a cavity of the pool body (1) in the shallow water area, and the second empty box (42) is higher than the first empty box (4); a third liquid tank (43) is arranged on the upper surface of the second empty tank (42), and the internal structure of the third liquid tank (43) is completely the same as that of the second liquid tank (41); a monitor is installed in the pool body (1) and is controlled by a computer.

2. A computer-controlled swimming pool as recited in claim 1, wherein: each support plate (12) is of hollow design; a compression bag (13) is arranged in the inner wall of each supporting plate (12); each compression bag (13) is communicated with a part of the second air holes (196) through a telescopic pipe (14).

3. A computer-controlled swimming pool as recited in claim 1, wherein: the left end faces of the second liquid bin (41) and the third liquid bin (43) are hinged with an auxiliary plate (2), and the auxiliary plate (2) is designed to be inclined in an initial state; the two auxiliary plates (2) are driven by a motor, and the motor is controlled by a computer program; elongated slots (21) which are uniformly distributed are arranged in the inner walls of the two auxiliary plates (2); a cylindrical bag (22) is arranged in each long groove (21) through a short rod, and gas is filled in the cylindrical bag (22); the end surfaces of two sides of each long groove (21) are rotatably connected with a C-shaped ring (23), and the C-shaped rings (23) play a role in fixing the cylindrical bag (22) in an initial state; the outer surface of each C-shaped ring (23) is fixedly connected with first gear teeth (24) which are uniformly arranged; a third sliding groove (25) is formed in the inner wall of the auxiliary plate (2) below each C-shaped ring (23), and part of the third sliding groove (25) is communicated with the long groove (21); a second sliding plate (26) is connected in the two third sliding grooves (25) in a sliding mode through springs, and the other end of the second sliding plate (26) is fixedly connected with a motor shaft through a first pull rope (27); and each third sliding groove (25) is communicated with the long groove (21), one side of each third sliding groove is fixedly connected with a second gear tooth (28) on the upper surface of the second sliding plate (26), and the second gear teeth (28) are meshed with the first gear teeth (24).

4. A computer-controlled swimming pool as recited in claim 3, wherein: the long plate (3) is fixedly connected with the center position of the supporting plate (12) in the inner wall of one supporting plate (12) at the left side of the two auxiliary plates (2); the inner walls of the two long plates (3) are hinged with support rods (31); the other ends of the two support rods (31) are hinged with a top plate (32); and the left end faces of the two auxiliary plates (2) are fixedly connected with second pull ropes (33), and the second pull ropes (33) penetrate through the long plate (3) and are fixedly connected with the upper end faces of the support rods (31).

5. A swimming pool based on computer control according to claim 4, wherein: the inner walls of the two top plates (32) are rotatably connected with a first gear (34) through torsion springs; third pull ropes (35) are wound on the rotating shafts of the two first gears (34), and the other ends of the third pull ropes (35) are fixedly connected with the long plate (3); a fourth sliding chute (36) is arranged above the two gears and in the inner wall of the top plate (32); two equal sliding connection of fourth spout (36) has pinion rack (37), and pinion rack (37) all with gear intermeshing.

6. A computer-controlled swimming pool as recited in claim 3, wherein: baffles (38) which are uniformly arranged are hinged in the inner wall of the left side of the first empty box (4), and the baffles (38) are mutually attached and seal the first empty box (4) in an initial state; each baffle (38) extends upwards through a fourth pull rope (39) and is fixedly connected with a motor shaft of a motor arranged on the corresponding auxiliary plate (2); the internal structure of the second empty box (42) is the same as that of the first empty box (4).