CN112591013B

CN112591013B - Outdoor water supplies equipment

Info

Publication number: CN112591013B
Application number: CN202011281520.6A
Authority: CN
Inventors: 徐捷; 吴嘉馨
Original assignee: Jinhua Tashan Technology Consulting Service Co Ltd
Current assignee: Jinhua Tashan Technology Consulting Service Co., Ltd
Priority date: 2019-11-24
Filing date: 2019-11-24
Publication date: 2021-12-31
Anticipated expiration: 2039-11-24
Also published as: CN110949622A; CN112591013A; CN110949622B

Abstract

The utility model discloses outdoor aquatic product equipment, which structurally comprises a platform plate, wherein a vertical support is fixedly arranged on the upper end surface of the platform plate, a left-right through inner cavity is arranged in the vertical support, a pushing advancing device capable of adjusting the distance between a propelling structure and the water surface is arranged in the inner cavity, one side of the pushing advancing device is provided with an equipment height adjusting device which is positioned in the platform plate and can adjust the equipment height to support the equipment, the equipment adopts the design of the pushing advancing device and the equipment height adjusting device, so that the equipment can adjust the self height to facilitate the maintenance of the equipment, and the reliability and the practicability of the actual use of the equipment are facilitated, for example: the distance between the pushing structure and the water surface and the distance between the equipment main bearing assembly and the water surface suspension structure can be adjusted to meet the actual use requirement and the like.

Description

Outdoor water supplies equipment

Technical Field

The utility model belongs to the technical field of outdoor equipment, and particularly relates to outdoor water supply equipment.

Background

The shortcoming of the prior art is that outdoor equipment on water has the height and can not be adjusted, and when equipment was maintained the promotion structure, it is great to maintain the degree of difficulty, and can not realize the position altitude mixture control that promotes the structure, and this makes the practicality of equipment on water reduce to a great extent, and makes personnel can't satisfy the demand when according to actual need. For this reason, long-term research has been conducted and various solutions have been proposed.

For example, chinese patent document discloses an inflatable cushion on water, which is disclosed in application No.: 201320055239.X ], which comprises cushion units, wherein the side edges of the cushion units are provided with zippers, and a plurality of cushion units are connected through the zippers.

Above-mentioned scheme adopts single messenger's structure, has only realized that personnel carry out floated function, can't realize the regulation of oneself's equipment, makes equipment satisfy personnel to the demand that equipment was adjusted, makes the practicality of equipment reduce, has reduced work efficiency.

Disclosure of Invention

The present invention is directed to solve the above problems, and an object of the present invention is to provide a device that can adjust its structure to meet different usage conditions to satisfy better practicability of the device, and can adjust the distance between the device driving structure and the water surface to move the driving device with better device driving structure.

The utility model is realized by the following technical scheme: the utility model relates to outdoor aquatic product equipment which comprises a platform plate, wherein an upright support is fixedly arranged on the upper end surface of the platform plate, an inner cavity which penetrates through the upright support from left to right is arranged in the upright support, a pushing advancing device capable of adjusting the distance between a pushing structure and the water surface is arranged in the inner cavity, and an equipment height adjusting device which is positioned in the platform plate and can adjust the equipment height to support the equipment is arranged on one side of the pushing advancing device, so that the multifunctional adjustment of the equipment is realized by utilizing the structure so as to cope with various complex working conditions.

According to the technical scheme, the pushing advancing device comprises a concave plate, an open plate cavity is formed in the concave plate, the concave plate and a swing assembly used for driving the concave plate to lift and swing is arranged between the vertical supports, a rotary vane assembly used for driving equipment to move is arranged in the plate cavity, and a driving assembly located on one side of the rotary vane assembly and used for driving the rotary vane assembly to work is arranged on the end face of the concave plate, so that the pushing advancing device can drive the equipment to move and the like.

According to the technical scheme, the swing assembly comprises a top seat fixedly arranged on the upper end face of the concave plate, an open-ended opening matching cavity is formed in the top seat, an open-ended through cavity is formed in one side end wall of the opening matching cavity in a communicated mode, a first inner rotating block which is symmetrical up and down is arranged in the opening matching cavity in a rotating mode, the end face of the first inner rotating block, far away from the opening matching cavity, is fixedly provided with a swing rod, the other end face of the swing rod is fixedly provided with a turning block, the inner wall of the inner cavity is fixedly provided with a rotation matching shaft which is symmetrical up and down, the rotation matching shaft is connected with the turning block in a rotating matching mode, and a power structure which drives the swing rod to swing is arranged above the turning block.

Further technical scheme, power structure include with the fixed baffle of inner chamber both sides end wall, the baffle up end has set firmly the guide shaft of symmetry, the guide shaft with the inner chamber end wall is fixed, the baffle set up in the inner chamber intermediate position, be provided with between the guide shaft with the threaded spindle that baffle and inner chamber end wall normal running fit are connected, the threaded spindle up end is provided with and is located erect the capstan of support upside, the gliding lifter plate that is provided with of guide shaft surface, the lifter plate with threaded spindle screw-thread fit connects, the upside the gliding sleeve that slides that is provided with of swinging arms surface, the sleeve internal rotation that slides is provided with the connecting plate, the connecting plate with the lifter plate normal running fit connects, thereby utilizes the rotation of threaded spindle indirectly drives the swing of swinging arms.

Further technical scheme, the spiral leaf subassembly including the pivoted be provided with in rotation post between the end wall of board chamber both sides, it is provided with the key piece of symmetry to rotate post both sides terminal surface, it is provided with the sleeve to rotate post and key piece surface gliding, the sleeve surface is provided with a plurality of spiral leaves, the sleeve both sides are provided with the solid fixed ring of symmetry, gu fixed ring will the sleeve restriction is fixed in rotate post surface, thereby utilizes spiral leaf and sleeve move at the effect of water pushing equipment down.

The driving assembly comprises a power transmission motor fixedly arranged on the upper end surface of the turning block on the lower side, a power transmission shaft is arranged in the power transmission motor in a power connection mode, a fixed mounting plate is arranged on the outer surface of the power transmission shaft in a rotating mode, the fixed mounting plate is fixed to the end surface of the first rotating block on the lower side, a driving belt wheel is fixedly arranged on the end surface of the power transmission shaft, a side rotating seat is arranged on the end surface of one side of the top seat in a rotating mode, a connecting frame is fixedly arranged on the end surface of the side rotating seat, the connecting frame is fixed to the swinging rod on the lower side, a mounting vertical plate is fixedly arranged on the upper end surface of the side rotating seat, an inner driving cavity with an opening is arranged in the mounting vertical plate, a matching shaft is rotatably arranged between the left end wall and the right end wall of the inner driving cavity, a driving bevel gear and a driving belt wheel are fixedly arranged on the outer surface of the matching shaft, and a driven bevel gear is meshed with one side of the driving bevel gear, the end face of the driven bevel gear is fixedly provided with a driving belt wheel, the rotating shaft penetrates through the inner transmission cavity in a rotating mode, the outer surfaces of the driving belt wheel and the driving belt wheel are wound with a power belt, the driving belt wheel is in power connection with the driving belt wheel, one side of the driving bevel gear is meshed with the driven bevel gear, the driven bevel gear is fixed with the rotating shaft, and the front end face of the concave plate is provided with a power transmission structure which transmits power to the rotating column through the power transmission motor, so that the power is efficiently transmitted through the power transmission structure.

The power transmission structure comprises an upper belt wheel fixed on the end face of the rotating shaft, an engaging belt wheel connected with the concave plate in a rotating fit manner is arranged below the upper belt wheel, the engaging belt wheel is in coaxial power connection with the rotating column, a transmission belt is wound on the outer surfaces of the upper belt wheel and the engaging belt wheel and connects the upper belt wheel with the engaging belt wheel in a power manner, a fixed support is fixedly clamped on the end face of one side of the concave plate, a spring cavity is arranged in the fixed support, a push plate is arranged in the spring cavity in a sliding manner, a connecting spring is elastically arranged between the end face of the push plate and the end wall of the spring cavity, the length of the connecting belt is smaller than that of the spring cavity, a sliding shaft body is fixedly arranged on the end face of the push plate and penetrates through the spring cavity in a sliding manner, and a transition belt wheel is rotationally arranged in the sliding shaft body, the transition belt wheel is abutted against the transmission belt, so that power is transmitted by using a structure consisting of the transition belt wheel, the upper side belt wheel, the meshing belt wheel and the transmission belt.

According to the technical scheme, the device height adjusting device comprises floating cylinders symmetrically arranged on two sides of a platform plate, a top mounting seat is fixedly arranged on the upper end face of each floating cylinder, an open-ended matched opening cavity is formed in the top mounting seat, a plurality of open internal rotation cavities are formed in the upper end wall and the lower end wall of each matched opening cavity in a communicated mode, a connecting rod assembly is arranged between the top mounting seat and the platform plate and drives the floating buoy to move, and a driving assembly is arranged on the upper side of the connecting rod assembly and located in the platform plate and drives the connecting rod assembly to run, so that the function of adjusting relative motion of the floating cylinders is achieved by the aid of the assemblies.

According to the technical scheme, the connecting rod assembly comprises a bottom fixing plate which is fixed and symmetrical to the lower end face of the platform plate, the diameter of the connecting shaft body is smaller than the width of the bottom fixing plate, a second inner rotating block is arranged in the inner rotating cavity in a rotating mode, a plurality of swinging shafts are fixedly arranged on the end face of the second inner rotating block, a matching rotating block is fixedly arranged on the end face of the other side of each swinging shaft, an open-ended inner groove is formed in the matching rotating block, the matching rotating blocks are connected in a rotating fit mode, the matching rotating blocks are connected with the connecting shaft body in a concentric rotating fit mode, and therefore the swinging shafts swing under the driving of the driving assembly.

The technical scheme is that the driving assembly comprises a through cavity which is arranged in the platform board and penetrates through the platform board from top to bottom, the through cavity is arranged in bilateral symmetry, an external thread shaft is rotatably arranged between the front end wall and the rear end wall of the through cavity, a rotating disc is fixedly arranged on the end face of the external thread shaft, the outer surface of the external thread shaft is provided with threads with opposite rotation directions, a symmetrical moving plate is slidably arranged in the through cavity, the moving plate and the threads with opposite rotation directions on the outer surface of the external thread shaft are respectively in threaded fit connection, a fixed suspension shaft is rotatably arranged in the moving plate, a matched moving block is in sliding fit connection with the swinging shaft, a transmission side box is fixedly arranged on the rear end face of the platform board, a transmission inner cavity is arranged in the transmission side box, the moving plate rotatably extends into the transmission inner cavity, and a matched transmission belt wheel is fixedly arranged on the outer surface of the external thread shaft, the outer surface of the matching transmission belt wheel is wound with a transmission belt, and the transmission belt is used for dynamically connecting the matching transmission belt wheel, so that the movable plate is used for driving the swinging shaft to swing after moving.

The utility model has the beneficial effects that: this equipment has adopted the design of promotion advancing device and equipment height adjustment device makes equipment can carry out the regulation of oneself's height to equipment is maintained, and is convenient for reliability and practicality of equipment in-service use, for example: the distance between the pushing structure and the water surface and the distance between the equipment main bearing assembly and the water surface suspension structure can be adjusted to meet the actual use requirement and the like.

The advantages are embodied in that the structural design of the rotary disks, the movable plate, the external thread shafts, the through cavity, the matching transmission belt wheel, the transmission belt and the movable plate is utilized to drive the external thread shafts on two sides to rotate simultaneously when one of the rotary disks is rotated, the movable plate can be simultaneously far away from or close to the external thread shafts due to the fact that the external surface of the external thread shafts is provided with the thread lines with opposite rotation directions, the fixed suspension shaft and the matching movable block drive the swinging shaft to swing, and the matching rotating block is connected with the connecting shaft body in a rotating matching mode, the internal rotating block is connected with the internal rotating cavity in a rotating matching mode, if the internal rotating block is arranged in the upper rotating cavity, the matching rotating block can only be connected with the connecting shaft body on the upper side in a rotating matching mode, and if the internal rotating block is arranged in the lower rotating cavity, the matching rotating block can only be connected with the connecting shaft body on the lower side in a rotating matching way, the upper side and the lower side of the adjacent inner rotating block are opposite in direction, so that the swinging of the swinging shaft can drive the floating buoy to swing to achieve the purpose of changing the distance between the floating cylinder and the platform plate, the practical reliability and the practicability of the equipment are greatly improved, the overturning block, the swinging rod, the connecting frame, the inner rotating block and the side rotating seat form an integrated structure, the power of the power transmission motor can be stably transmitted to the upper side belt wheel, the power of the transmission belt is transmitted to the meshing belt wheel by the transmission belt, the rotating column drives the sleeve and the rotary vane to rotate after rotating, and the design advantages of the pushing plate, the connecting spring, the sliding shaft body and the transition belt wheel are that the transmission belt can burst to connect the upper side belt wheel and the meshing belt wheel in a stable power manner, the design advantages of the rotary disc, the guide shaft, the threaded shaft, the lifting plate, the connecting plate and the sliding sleeve are that the swinging rod and the turnover block can swing to indirectly drive the concave type plate to adjust the height, because the swinging rod is arranged in parallel, the distance between the circle centers of the turnover blocks is the same as the distance between the circle centers of the inner rotation blocks, the function can be realized, the design advantages of the structure greatly improve the adjusting capacity of the equipment, and the practical reliability of the equipment is improved.

Drawings

FIG. 1 is a schematic diagram of the apparatus of the present invention;

FIG. 2 is an enlarged schematic view of the platform plate of FIG. 1 taken in the direction A in accordance with the present invention;

FIG. 3 is an enlarged view in the direction B of the concave plate of FIG. 1 according to the present invention;

FIG. 4 is a schematic view of the through lumen of FIG. 3 in the direction of C in accordance with the present invention;

FIG. 5 is a schematic view of the concave pattern of FIG. 3 in the direction D of the present invention;

FIG. 6 is a schematic view of the fixing mount of FIG. 3 in the E direction according to the present invention;

FIG. 7 is a schematic view of the present invention in the direction F of the rotating column of FIG. 3;

FIG. 8 is a schematic bottom view of the apparatus of FIG. 1 according to the present invention;

FIG. 9 is a schematic view of the turning block of FIG. 8 in the direction G of the present invention;

FIG. 10 is a schematic view of the stationary mounting plate of FIG. 8 taken in the direction H in accordance with the present invention;

FIG. 11 is a schematic view of the height adjustment mechanism of the apparatus of FIG. 1 according to the present invention;

FIG. 12 is a schematic view of the lumen of FIG. 11 taken in the direction I in accordance with the present invention;

FIG. 13 is a schematic bottom view of the height adjustment mechanism of the apparatus of FIG. 11 according to the present invention;

FIG. 14 is a schematic view in the direction J of the swing axis of FIG. 13 according to the present invention;

FIG. 15 is a schematic view of the utility model in the direction K of the swing axis of FIG. 13;

FIG. 16 is a front view of the height adjustment mechanism of the apparatus of FIG. 13;

FIG. 17 is an L-directional schematic view of the platform plate of FIG. 16 according to the present invention;

in the figure, a platform plate 101, a floating cylinder 102, a lifting plate 201, a partition plate 202, a rotary disk 203, a threaded shaft 204, a guide shaft 205, an inner cavity 206, a turning block 207, a connecting plate 208, a swinging rod 209, a sliding sleeve 210, an upright bracket 212, a first inner rotating block 220, a top seat 221, a concave plate 222, a plate cavity 223, a rotating column 224, a key block 225, a transmission belt 226, an engaging pulley 227, a side rotating seat 240, a connecting frame 241, a through cavity 242, a fixed mounting plate 243, a power belt 244, a driving pulley 245, an opening matching cavity 246, a driving bevel gear 261, a driven bevel gear 262, an upper pulley 264, a rotating shaft 265, a matching shaft 266, a mounting upright plate 267, a transmission pulley 268, an inner transmission cavity 269, a connecting spring 281, a spring cavity 282, a fixed support 283, a pushing plate 285, a sliding shaft body 286, a transition pulley 288, a sleeve 296, a rotary vane 297, a fixed ring 298, a power transmission shaft 301, a power transmission motor 302, a transmission motor, The device comprises a through cavity 401, a rotating matching shaft 402, a moving plate 411, a fixed suspension shaft 412, a swinging shaft 413, a matching moving block 414, a bottom fixing plate 415, a connecting shaft body 416, an inner groove 417, a matching rotating block 418, a rotating disc 419, a second inner rotating block 420, a matching transmission belt wheel 501, a transmission belt 502, a transmission inner cavity 503, a transmission side box 504, a pushing advancing device 950 and a device height adjusting device 951.

Detailed Description

As shown in fig. 1 to 17, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the up-down, left-right and front-back direction is consistent with the up-down, left-right and front-back direction of the projection relation of the figure 1, the outdoor aquatic product equipment comprises a platform plate 101, the upper end surface of the platform plate 101 is fixedly provided with an upright bracket 212, the upright bracket 212 is internally provided with an inner cavity 206 which penetrates through from left to right, the inner cavity 206 is internally provided with a pushing and advancing device 950 which can adjust the distance between a pushing structure and the water surface, one side of the pushing and advancing device 950 is provided with an equipment height adjusting device 951 which is positioned in the platform plate 101 and can adjust the equipment height to support the equipment, and therefore the multifunctional adjustment of the equipment is realized by utilizing the structure so as to cope with various complex working conditions.

Beneficially, the pushing and advancing device 950 includes the concave plate 222, an open plate cavity 223 is formed in the concave plate 222, a swing assembly for driving the concave plate 222 to swing up and down is arranged between the concave plate 222 and the vertical support 212, a rotary vane assembly for driving the equipment to move is arranged in the plate cavity 223, and a driving assembly which is located on an end face of the concave plate 222 and drives the rotary vane assembly to work is arranged on one side of the rotary vane assembly, so that functions of enabling the pushing and advancing device 950 to drive the equipment to move and the like are achieved through the assemblies.

Beneficially, the swing assembly includes a top seat 221 fixedly arranged on the upper end surface of the concave plate 222, an open matching cavity 246 is arranged in the top seat 221, the length of the top seat 221 is at least 15cm, an open through cavity 242 is arranged in the end wall on one side of the open matching cavity 246 in a communicating manner, the length of the through cavity 242 accounts for two thirds of the height of the top seat 221, a first inner rotating block 220 which is vertically symmetrical is rotatably arranged in the open matching cavity 246, a swing rod 209 is fixedly arranged on the end surface of the first inner rotating block 220 far away from the open matching cavity 246, the swing rods 209 on the upper and lower sides are arranged in parallel, an overturning block 207 is fixedly arranged on the other end surface of the swing rod 209, the distance between the circle centers of the overturning blocks 207 is the same as the distance between the circle centers of the first inner rotating block 220, a rotating matching shaft 402 which is vertically symmetrical is fixedly arranged on the inner wall of the inner cavity 206, the diameter of the rotating matching shaft 402 is at least 2cm, the rotating matching shaft 402 is rotatably connected with the overturning block 207, a power structure for driving the swing rod 209 to swing is arranged above the turning block 207, so that the power structure is used for driving the swing rod 209 to swing.

Beneficially, the power structure comprises partition boards 202 fixed to end walls on two sides of an inner cavity 206, symmetrical guide shafts 205 are fixedly arranged on the upper end faces of the partition boards 202, the guide shafts 205 are fixed to the end walls of the inner cavity 206, the partition boards 202 are arranged in the middle of the inner cavity 206, threaded shafts 204 connected with the partition boards 202 and the end walls of the inner cavity 206 in a rotating fit mode are arranged between the guide shafts 205, a rotating disc 203 located on the upper side of an upright support 212 is arranged on the upper end face of each threaded shaft 204, a lifting plate 201 is slidably arranged on the outer surface of each guide shaft 205, the lifting plate 201 is connected with the threaded shafts 204 in a threaded fit mode, a sliding sleeve 210 is slidably arranged on the outer surface of an upper swinging rod 209, a connecting plate 208 is rotatably arranged on the sliding sleeve 210, the connecting plate 208 is connected with the lifting plate 201 in a rotating fit mode, the length of the connecting plate 208 is at least 10cm, the sliding sleeve 210 drives the swinging rod 209 to swing by utilizing the lifting of the lifting plate 201, thereby indirectly driving the swing rod 209 to swing by the rotation of the screw shaft 204.

Advantageously, the rotary vane assembly comprises a rotary vane 224 rotatably arranged between two side end walls of the plate cavity 223, two side end faces of the rotary vane 224 are provided with symmetrical key blocks 225, the outer surfaces of the rotary vane 224 and the key blocks 225 are slidably provided with a sleeve 296, the outer surface of the sleeve 296 is provided with a plurality of rotary vanes 297, the number of the rotary vanes 297 is at least six, two sides of the sleeve 296 are provided with symmetrical fixing rings 298, the fixing rings 298 limit the sleeve 296 to be fixed on the outer surface of the rotary vane 224, and the diameter of the rotary vane 224 is at least 5cm, so that the rotary vane 297 and the sleeve 296 are used for pushing the device to move under the action of water.

Beneficially, wherein the driving assembly comprises a power transmission motor 302 fixedly arranged on the upper end face of the turning block 207 on the lower side, a power transmission shaft 301 is arranged in the power transmission motor 302 in a power connection manner, a fixed mounting plate 243 is arranged on the outer surface of the power transmission shaft 301 in a rotating manner, the fixed mounting plate 243 is fixed with the end face of the first inner rotating block 220 on the lower side, a driving pulley 245 is fixedly arranged on the end face of the power transmission shaft 301, the diameter of the power transmission shaft 301 is at least 2cm, a side rotating seat 240 is arranged on one side end face of the top seat 221 in a rotating manner, the side rotating seat 240 is coaxially arranged with the first inner rotating block 220, a connecting frame 241 is fixedly arranged on the end face of the side rotating seat 240, the connecting frame 241 is of an L-shaped structure, the connecting frame 241 is fixed with the swinging rod 209 on the lower side, an installation vertical plate 267 is fixedly arranged on the upper end face of the side rotating seat 240, an inner transmission cavity 269 with an opening is arranged in the installation vertical plate 267, a matching shaft 266 is rotatably arranged between the left end wall and the right end wall of the inner transmission cavity 269, the outer surface of the matching shaft 266 is fixedly provided with a driving bevel gear 261 and a driving belt wheel 268, one side of the driving bevel gear 261 is meshed with a driven bevel gear 262, the end surface of the driven bevel gear 262 is fixedly provided with a driving belt wheel 268, the rotating shaft 265 rotatably penetrates through the inner transmission cavity 269, the outer surfaces of the driving belt wheel 268 and the driving belt wheel 245 are wound with a power belt 244, the driving belt 244 connects the driving belt wheel 245 and the driving belt wheel 268 in a power mode, the diameters of the driving belt wheel 245 and the driving belt wheel 268 are smaller than the height of the fixed mounting plate 243, one side of the driving bevel gear 261 is meshed with a driven bevel gear 262, the driven bevel gear 262 is fixed with the rotating shaft 265, the front end surface of the concave plate 222 is provided with a power transmission structure which transmits power to the rotating column 224 through the power transmission motor 302, and therefore the power is efficiently transmitted through the power transmission structure.

Advantageously, the power transmission structure includes an upper belt pulley 264 fixed to the end face of the rotating shaft 265, an engaging belt pulley 227 rotatably connected to the concave plate 222 is disposed below the upper belt pulley 264, the engaging belt pulley 227 is coaxially and dynamically connected to the rotating post 224, a transmission belt 226 is wound around the outer surfaces of the upper belt pulley 264 and the engaging belt pulley 227, the transmission belt 226 dynamically connects the upper belt pulley 264 and the engaging belt pulley 227, a fixed support 283 is fixedly mounted to one end face of the concave plate 222, a spring cavity 282 is disposed in the fixed support 283, a pushing plate 285 is slidably disposed in the spring cavity 282, a connecting spring 281 and 821 having a length smaller than that of the spring cavity 282 is elastically disposed between the end face of the pushing plate 285 and the end wall of the spring cavity 282, a sliding shaft body 286 is fixedly disposed on the end face of the pushing plate 285, the sliding shaft body 286 penetrates through the spring cavity 282, a transition belt pulley 288 is rotatably disposed in the sliding shaft body 286, the transition pulley 288 is abutted against the power transmission belt 226, and the power is transmitted by the structure composed of the transition pulley 288, the upper pulley 264, the meshing pulley 227, and the power transmission belt 226.

Beneficially, the device height adjusting device 951 includes floating cylinders 102 symmetrically disposed on two sides of the platform plate 101, a top mounting seat 322 is fixedly disposed on an upper end face of each floating cylinder 102, an open-ended matching open cavity 320 is disposed in each top mounting seat 322, a plurality of open-ended internal rotation cavities 321 are disposed in upper and lower end walls of the matching open cavity 320 in a communicating manner, the number of the internal rotation cavities 321 is at least six, a connecting rod assembly for driving the floating cylinders 102 to move is disposed between each top mounting seat 322 and the platform plate 101, and a driving assembly disposed in the platform plate 101 and driving the connecting rod assembly to operate is disposed on an upper side of the connecting rod assembly, so that a function of adjusting relative movement between the floating cylinders 102 is achieved by using the assemblies.

Advantageously, wherein the connecting rod assembly comprises a bottom fixing plate 415 fixed and symmetrical to the lower end surface of the platform plate 101, the length of the bottom fixing plate 415 is at least 10cm, connecting shaft bodies 416 are fixed between the bottom fixing plates 415, the diameter of the connecting shaft bodies 416 is smaller than the width of the bottom fixing plates 415, a second inner rotating block 420 is rotatably arranged in the inner rotating cavity 321, a plurality of oscillating shafts 413 are fixed on the end surface of the second inner rotating block 420, the number of the oscillating shafts 413 is at least three, a matching rotating block 418 is fixed on the end surface of the other side of the oscillating shafts 413, an inner groove 417 with an opening is arranged in the matching rotating block 418, the matching rotating blocks 418 are rotatably matched and connected with each other, the matching rotating block 418 is rotatably matched and connected with the connecting shaft bodies 416, the matching rotating block 418 and the connecting shaft body 416 are concentrically and rotatably matched and connected, wherein if the second inner rotating block 420 is arranged in the inner rotating cavity 321 on the upper side, the matching rotation block 418 can only be connected with the upper connecting shaft body 416 in a rotating matching manner, if the second inner rotation block 420 is arranged in the lower inner rotation cavity 321, the matching rotation block 418 can only be connected with the lower connecting shaft body 416 in a rotating matching manner, and the upper and lower directions of the adjacent second inner rotation blocks 420 are opposite, so that the swinging shaft 413 is utilized to swing under the driving of the driving assembly.

Beneficially, the driving assembly includes a through cavity 401 disposed in the platform board 101 and penetrating vertically, the through cavity 401 is disposed symmetrically left and right, an external thread shaft 410 is rotatably disposed between the front end wall and the rear end wall of the through cavity 401, the diameter of the external thread shaft 410 is smaller than the depth of the through cavity 401, a rotating disc 419 is fixedly disposed on the end surface of the external thread shaft 410, a thread line with opposite turning direction is disposed on the outer surface of the external thread shaft 410, a symmetrical moving plate 411 is slidably disposed in the through cavity 401, the moving plate 411 and the thread line with opposite turning direction on the outer surface of the external thread shaft 410 are respectively in threaded fit connection, a fixed suspension shaft 412 is rotatably disposed in the moving plate 411, the diameter of the fixed suspension shaft 412 is the same as the diameter of the connecting shaft body 416, the matching moving block 414 is in sliding fit connection with the swinging shaft 413, a transmission side box 504 is fixedly disposed on the rear end surface of the platform board 101, a transmission inner cavity 503 is disposed in the transmission side box 504, the moving plate 411 rotatably extends into the transmission inner cavity 503, the outer surface of the external thread shaft 410 is fixedly provided with a matching driving belt wheel 501, the outer surface of the matching driving belt wheel 501 is wound with a driving belt 502, the driving belt 502 is in power connection with the matching driving belt wheel 501, the diameter of the matching driving belt wheel 501 is smaller than the width of the driving inner cavity 503, and therefore the movable plate 411 is used for driving the swinging shaft 413 to swing after moving.

In the initial state, the above devices, components and structures are in the stop state, and before the equipment works, a seat or a fence for holding articles and the like can be installed on the upper end surface of the platform plate 101 to meet the actual use requirement.

When the equipment works, the floating pontoon 102 supports the equipment to float in sleep, because the equipment needs to be driven to move on the water surface in practical use, at the moment, the power transmission motor 302 works to drive the power transmission shaft 301 to rotate and then drive the driving pulley 245 to rotate, the driving pulley 268 starts to rotate under the action of the power belt 244, the matching shaft 266 is used for connecting the driving bevel gear 261 and the driving pulley 268 in a power mode, the driving bevel gear 261 drives the driven bevel gear 262 after rotating, the rotating shaft 265 drives the upper side pulley 264 to rotate, at the moment, the driving belt 226 transmits the rotation of the upper side pulley 264 to the meshing pulley 227, at the moment, the rotating column 224 is connected with the meshing pulley 227 in a power mode, the rotating column 224 drives the fixing ring 298 and the rotary vane 297 to rotate, and the rotary vane 297 pushes water flow and meanwhile the equipment moves.

When the distance between the rotary vane 297 and the fixed ring 298 and the water surface can be adjusted according to actual needs, for example: when maintenance is needed, or the area of the rotary vane 297 immersed in the water surface needs to be adjusted, etc., the rotary disc 203 is rotated at this time, the rotary disc 203 is rotated to drive the lifting plate 201 to move up and down, the lifting plate 201 is moved to drive the connecting plate 208 to swing, the swinging rod 209 swings due to the sliding fit connection of the sliding sleeve 210 and the swinging rod 209, at this time, the swinging rod 209 swings the top seat 221 and the concave plate 222 under the effect of the first inner rotating block 220, and the swinging rod 209 is arranged in parallel, so that the function of vertical lifting of the concave plate 222 and the top seat 221 is achieved.

During the rotation of the upper pulley 264, the transmission belt 226 is subjected to fatigue tension, and at this time, the transition pulley 288 indirectly abuts against the transmission belt 226 due to the elastic action of the connecting spring 281, so that the upper pulley 264 and the engaging pulley 227 are stably connected in a power connection manner.

During the actual use, can adjust the height between float bowl 102 and the platform board 101, make the practicality of equipment rise, rotate rotary disk 419 this moment, rotary disk 419 drives external screw shaft 410 after rotating, under the transmission of cooperation driving pulley 501 and drive belt 502, the external screw shaft 410 of left and right sides all rotates, because the opposite helicine of direction of turning that the external surface of external screw shaft 410 set up, can drive simultaneously and be close to each other or keep away from between the movable plate 411, the electronic fixed suspension shaft 412 of movable plate 411 removal back and 141 remove this moment, make swing shaft 413 swing, swing shaft 413 can indirectly drive float bowl 102 swing this moment in order to change the relative height between platform board 101 and the float bowl 102.

The utility model has the beneficial effects that: this equipment has adopted the design that promotes advancing device 950 and equipment height adjustment 951, makes the regulation that equipment can carry out oneself's height to the equipment is maintained, and is convenient for reliability and practicality of equipment in-service use, for example: the distance between the pushing structure and the water surface and the distance between the equipment main bearing assembly and the water surface suspension structure can be adjusted to meet the actual use requirement and the like.

The advantages are embodied in that by using the structural design of the rotary discs 419, the moving plate 411, the external threaded shafts 410, the through cavities 401, the matching transmission belt wheels 501, the transmission belts 502 and the moving plate 411, when one of the rotary discs 419 is rotated, the external threaded shafts 410 on both sides can be driven to rotate simultaneously, because the external surfaces of the external threaded shafts 410 are provided with threads with opposite rotation directions, the moving plate 411 can be moved away from or close to simultaneously, the fixed suspension shaft 412 and the matching moving block 414 drive the swinging shaft 413 to swing, and because the matching rotary block 418 is connected with the connecting shaft body 416 in a rotating matching manner, the second internal rotary block 420 is connected with the internal rotary cavity 321 in a rotating matching manner, if the second internal rotary block 420 is arranged in the internal rotary cavity 321 on the upper side, the matching rotary block 418 can only be connected with the connecting shaft body 416 in a rotating manner on the upper side, and if the second internal rotary block 420 is arranged in the internal rotary cavity 321 on the lower side, the matching rotary block 418 can only be connected with the connecting shaft body 416 in a rotating matching manner, the upper and lower sides of the adjacent second inner rotating blocks 420 are opposite, so that the swinging shaft 413 can swing the floating pontoon 102 to change the distance between the floating pontoon 102 and the platform plate 101, thereby greatly improving the practical reliability and the practicability of the device, the turning block 207, the swinging rod 209, the connecting frame 241, the first inner rotating block 220 and the side rotating seat 240 form an integrated structure, so that the power of the power transmission motor 302 can be stably transmitted to the upper belt wheel 264, the power of the transmission belt 226 is transmitted to the engaging belt wheel 227 by the transmission belt 226, the rotating column 224 rotates to drive the sleeve 296 and the rotary vane 297 to rotate, and the push plate 285, the connecting spring 281, the sliding shaft body 286 and the transition belt wheel 288 have the design advantages that the transmission belt 226 can be exploded to stably connect the upper belt wheel 264 and the engaging belt wheel 227, and the rotary disc 203, the guide shaft 205 and the transition belt wheel 288 can stably connect the upper belt wheel 264 and the engaging belt wheel 227, Threaded shaft 204, lifter plate 201, connecting plate 208 and the sleeve 210 that slides's of design advantage lies in, can make swinging arms 209 and upset piece 207 swing to indirectly drive concave template 222 and carry out the adjustment of height, because swinging arms 209 parallel arrangement and the distance between the upset piece 207 centre of a circle is the same with the distance between the first interior turning block 220 centre of a circle, just can realize this function, the design advantage of above-mentioned structure is very big has improved the regulating power of equipment, has increased the practical reliability of equipment.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Although the platform plate 101, the floating cylinder 102, the lifting plate 201, the partition plate 202, the rotary disk 203, the threaded shaft 204, the guide shaft 205, the inner cavity 206, the turning block 207, the connecting plate 208, the swinging rod 209, the sliding sleeve 210, the upright bracket 212, the first inner rotating block 220, the top seat 221, the concave plate 222, the plate cavity 223, the rotating column 224, the key block 225, the transmission belt 226, the engaging pulley 227, the side rotating seat 240, the connecting frame 241, the through cavity 242, the fixed mounting plate 243, the power belt 244, the driving pulley 245, the open fitting cavity 246, the driving bevel gear 261, the driven bevel gear 262, the upper pulley 264, the rotating shaft 265, the fitting shaft 266, the mounting upright plate 267, the transmission pulley 268, the inner transmission cavity 269, the connecting spring 281, the spring cavity 282, the fixed support 283, the pushing plate 285, the sliding shaft body 286, the transition pulley 288, the sleeve body 296, the rotary blade 298, the fixed ring, the power transmission shaft 301, the rotary shaft 301, The terms of the power transmission motor 302, the through cavity 401, the rotating matching shaft 402, the moving plate 411, the fixed suspension shaft 412, the swinging shaft 413, the matching moving block 414, the bottom fixing plate 415, the connecting shaft body 416, the inner groove 417, the matching rotating block 418, the rotating disc 419, the second inner rotating block 420, the matching transmission belt wheel 501, the transmission belt 502, the transmission inner cavity 503, the transmission side box 504, the pushing advancing device 950, the device height adjusting device 951 and the like are used, but the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is not in accordance with the spirit of the present invention.

Claims

1. An outdoor aquatic product device is characterized by comprising a platform plate (101), wherein an upright support (212) is fixedly arranged on the upper end surface of the platform plate (101), an inner cavity (206) which penetrates through the upright support (212) from left to right is arranged in the inner cavity (206), a pushing advancing device (950) capable of adjusting the distance between a pushing structure and the water surface is arranged in the inner cavity (206), and a device height adjusting device (951) which is positioned below the platform plate (101) and can adjust the height of the device to support the device is arranged on one side of the pushing advancing device (950);

the pushing advancing device (950) comprises a concave plate (222), an open plate cavity (223) is formed in the concave plate (222), a swinging assembly used for driving the concave plate (222) to lift and swing is arranged between the concave plate (222) and the vertical support (212), a rotary vane assembly used for driving equipment to move is arranged in the plate cavity (223), and a driving assembly which is located on the end face of the concave plate (222) and drives the rotary vane assembly to work is arranged on one side of the rotary vane assembly;

the swinging assembly comprises a top seat (221) fixedly arranged on the upper end surface of the concave plate (222), an open-ended matching cavity (246) is arranged in the top seat (221), an open-ended through cavity (242) is communicated and arranged in the end wall of one side of the open-ended matching cavity (246), a first inner rotating block (220) which is symmetrical up and down is rotatably arranged in the open-ended matching cavity (246), a swinging rod (209) is fixedly arranged on the end surface of the first inner rotating block (220) far away from the open-ended matching cavity (246), a turning block (207) is fixedly arranged on the other end surface of the swinging rod (209), a rotating matching shaft (402) which is symmetrical up and down is fixedly arranged on the inner wall of the inner cavity (206), the rotating matching shaft (402) is rotatably matched and connected with the turning block (207), and a power structure for driving the swinging rod (209) to swing is arranged above the turning block (207);

the power structure comprises partition boards (202) fixed with end walls on two sides of an inner cavity (206), symmetrical guide shafts (205) are fixedly arranged on the upper end faces of the partition boards (202), the guide shafts (205) are fixed with the end walls of the inner cavity (206), the partition boards (202) are arranged in the inner cavity (206) at the middle positions, threaded shafts (204) in rotating fit connection with the partition boards (202) and the end walls of the inner cavity (206) are arranged between the guide shafts (205), a rotary disc (203) positioned on the upper side of an upright support (212) is arranged on the upper end face of each threaded shaft (204), a lifting plate (201) is arranged on the outer surface of each guide shaft (205) in a sliding mode, the lifting plate (201) is in threaded fit connection with the threaded shafts (204), a sliding sleeve (210) is arranged on the outer surface of the swinging rod (209) on the upper side in a sliding mode, and a connecting plate (208) is arranged in the sliding sleeve (210) in a rotating mode, the connecting plate (208) is connected with the lifting plate (201) in a rotating fit manner;

the diameter of the rotating mating shaft 402 is at least 2 cm;

device height adjustment means (951) including the symmetry set up in floating pontoon (102) of landing slab (101) both sides, floating pontoon (102) up end has set firmly top mount pad (322), be provided with open-ended cooperation open cavity (320) in top mount pad (322), the intercommunication is provided with a plurality of open-ended internal rotation chamber (321) in the end wall about cooperation open cavity (320), be provided with the drive between top mount pad (322) and landing slab (101) float pontoon (102) and carry out the link assembly that removes, the link assembly upside is provided with and is located drive assembly that just drive link assembly carries out the operation in landing slab (101).

2. An outdoor water craft equipment according to claim 1, wherein: the rotary vane component comprises a rotary column (224) arranged between two side end walls of the plate cavity (223), two side end faces of the rotary column (224) are provided with symmetrical key blocks (225), the outer surfaces of the rotary column (224) and the key blocks (225) are slidably provided with a sleeve (296), the outer surface of the sleeve (296) is provided with a plurality of rotary vanes (297), two sides of the sleeve (296) are provided with symmetrical fixing rings (298), and the fixing rings (298) are used for limiting and fixing the sleeve (296) on the outer surface of the rotary column (224).

3. An outdoor water craft equipment according to claim 2 wherein: the driving component for driving the rotary vane component to work comprises a power transmission motor (302) fixedly arranged on the upper end face of the turnover block (207) on the lower side, a power transmission shaft (301) is arranged in the power transmission motor (302) in a power connection mode, a fixed mounting plate (243) is arranged on the outer surface of the power transmission shaft (301) in a rotating mode, the fixed mounting plate (243) is fixed to the end face of the first inner rotating block (220) on the lower side, a driving belt wheel (245) is fixedly arranged on the end face of the power transmission shaft (301), a side rotating seat (240) is arranged on one side end face of the top seat (221) in a rotating mode, a connecting frame (241) is fixedly arranged on the end face of the side rotating seat (240), the connecting frame (241) is fixed to the swing rod (209) on the lower side, an installation vertical plate (267) is fixedly arranged on the upper end face of the side rotating seat (240), and an inner transmission cavity (269) with an opening is arranged in the installation vertical plate (267), a matching shaft (266) is rotatably arranged between the left end wall and the right end wall of the inner transmission cavity (269), a driving bevel gear (261) and a driving belt wheel (268) are fixedly arranged on the outer surface of the matching shaft (266), a driven bevel gear (262) is meshed with one side of the driving bevel gear (261), a rotating shaft (265) is fixedly arranged on the end surface of the driven bevel gear (262), the rotating shaft (265) penetrates through the inner transmission cavity (269) in a rotating way, and a power belt (244) is wound on the outer surfaces of the transmission belt wheel (268) and the driving belt wheel (245), the power belt (244) power-connects the driving pulley (245) and the transmission pulley (268), the driven bevel gear (262) is fixed with the rotating shaft (265), and a power transmission structure for transmitting power from the power transmission motor (302) to the rotating column (224) is arranged on the side end face of the concave plate (222).

4. An outdoor water craft equipment according to claim 3 wherein: the power transmission structure comprises an upper side belt wheel (264) fixed with the end face of the rotating shaft (265), an engaging belt wheel (227) connected with the concave plate (222) in a rotating fit mode is arranged below the upper side belt wheel (264), the engaging belt wheel (227) is in coaxial power connection with the rotating column (224), a transmission belt (226) is wound on the outer surfaces of the upper side belt wheel (264) and the engaging belt wheel (227), the upper side belt wheel (264) and the engaging belt wheel (227) are in power connection through the transmission belt (226), a fixed support (283) is fixedly clamped on the end face of one side of the concave plate (222), a spring cavity (282) is arranged in the fixed support (282), a pushing plate (285) is arranged in the spring cavity (282) in a sliding mode, and a connecting spring (281) is elastically arranged between the end face of the pushing plate (285) and the end wall of the spring cavity (282), the length of connecting spring (281) is less than the length of spring chamber (282), pass board (285) terminal surface and set firmly slip axis body (286), slip axis body (286) gliding the running through spring chamber (282), the internal rotation of slip axis body (286) is provided with transition band pulley (288), transition band pulley (288) with driving belt (226) offset.

5. An outdoor water craft equipment according to claim 1, wherein: the link assembly include with bottom fixed plate (415) of fixed and symmetry of terminal surface under platform board (101), the diameter of connecting axis body (416) is less than the width of bottom fixed plate (415), rotatory intracavity (321) internal rotation be provided with in second turning block (420), turning block (420) terminal surface has set firmly a plurality of oscillating axle (413) in the second, oscillating axle (413) another side terminal surface has set firmly cooperation turning block (418), be provided with open-ended inside groove (417) in cooperation turning block (418), cooperation turning block (418) are normal running fit each other and are connected, cooperation turning block (418) with connect axis body (416) normal running fit and connect, cooperation turning block (418) and the concentric normal running fit connection of connecting axis body (416).

6. An outdoor water craft equipment according to claim 5 wherein: the driving assembly for driving the connecting rod assembly to move comprises a through cavity (401) which is arranged in the platform plate (101) and penetrates through the platform plate up and down, the through cavity (401) is arranged in a bilateral symmetry mode, an external thread shaft (410) is arranged between the left end wall and the right end wall of the through cavity (401) in a rotating mode, a rotating disc (419) is fixedly arranged on the end face of the external thread shaft (410), thread lines with opposite rotation directions are arranged on the outer surface of the external thread shaft (410), a symmetrical moving plate (411) is arranged in the through cavity (401) in a sliding mode, the moving plate (411) is in threaded fit connection with the thread lines with the opposite rotation directions on the outer surface of the external thread shaft (410), a fixed suspension shaft (412) is arranged in the moving plate (411) in a rotating mode, a matching moving block (414) is arranged on the outer side of the fixed suspension shaft (412), and the matching moving block (414) is in sliding fit connection with the swinging shaft (413), platform board (101) side end face sets firmly transmission side case (504), be provided with transmission inner chamber (503) in transmission side case (504), external screw thread axle (410) pivoted stretches into in transmission inner chamber (503), external screw thread axle (410) surface sets firmly cooperation driving pulley (501), cooperation driving pulley (501) surface winding is provided with drive belt (502), drive belt (502) will cooperation driving pulley (501) power is connected.