CN117799787A - Device is built fast to municipal garden hydraulic engineering floating plate - Google Patents

Abstract

The invention belongs to the technical field of hydraulic engineering equipment, and particularly relates to a device for quickly constructing a floating plate of municipal garden hydraulic engineering, which comprises a single-group main construction platform and a plurality of groups of auxiliary construction platforms, wherein the groups of auxiliary construction platforms are connected with the main construction platform in a clamping manner in an automatic shifting manner, the assembled main construction platform and auxiliary construction platform form an integrated hydraulic construction platform, the separated main construction platform and auxiliary construction platform form a separated hydraulic construction platform, namely, the floating plate can be integrally connected with the split type installation and the separation manner according to the requirement of hydraulic construction, and meanwhile, the device is stable in lifting and convenient to move, and can provide a high-efficiency construction environment.

Description

Device is built fast to municipal garden hydraulic engineering floating plate

Technical Field

The invention belongs to the technical field of hydraulic engineering equipment, and particularly relates to a device for quickly constructing a floating plate of municipal garden hydraulic engineering.

Background

In municipal works construction, afforestation work plays very important effect, not only can promote urban development construction, but also can show urban spirit aspect, in municipal garden construction, hydraulic engineering construction is also an important ring among them, in the garden hydraulic engineering construction process, the construction of bridge in the multi-finger gardens and to the repair and afforestation of river, no matter bridge or river repair all need the manual work to put into river and carry out each item construction, just need to use at this moment can float the engineering floating plate on the river.

The floating plate construction platform in the existing hydraulic engineering has the advantages that the structure is simple, a simple plate body is adopted, floating balls or floating blocks are installed at the bottom of the plate body and used for supporting floating on the water surface, then manual sliding and lifting are controlled by matching with manual paddles, so that the floating plate platform is transferred and lifted, the floating plate with the structure and the operation mode can only deal with some small engineering quantity and small water surface area for garden hydraulic engineering construction, the application range is limited, frequent transfer and lifting are faced, the manual operation speed is low, time and labor are wasted, meanwhile, due to the fact that the floating plate is arranged as a single integrated floating plate, when a plurality of areas are required to be constructed at the same time, the construction efficiency is greatly reduced, and when the existing hydraulic engineering floating plate is installed, due to the integrated structure, the floating balls or floating blocks at the bottom and the floating plate body are inconvenient to install and detach, and the replacement or maintenance of the floating balls or floating blocks are not facilitated;

therefore, in view of the problems, the technical scheme provides a device for quickly constructing the floating plate of the municipal garden hydraulic engineering.

Disclosure of Invention

The embodiment of the invention aims to provide a device for quickly constructing a floating plate of municipal garden hydraulic engineering, which aims to solve the problem.

The invention realizes the quick building device of the floating plate of the municipal garden hydraulic engineering, which comprises a single group of main construction platforms and a plurality of groups of auxiliary construction platforms, wherein the groups of auxiliary construction platforms are connected with the main construction platforms in a clamping manner in an automatic shifting manner, the assembled main construction platforms and auxiliary construction platforms form an integrated hydraulic construction platform, and the separated main construction platforms and auxiliary construction platforms form a separated hydraulic construction platform, namely, multi-area large-area construction is carried out according to the requirement of hydraulic construction;

the bottoms of the main construction platform and the auxiliary construction platform are automatically shifted, clamped, installed and disassembled with a plurality of groups of pontoons which are uniformly distributed, and the main construction platform and the auxiliary construction platform are stably floated on the water surface by utilizing the buoyancy of the pontoons and the uniform distribution of the pontoons;

the automatic clamping and positioning mechanism is arranged between the main construction platform and the auxiliary construction platform and between the bottom of the main construction platform and the bottom of the auxiliary construction platform and the pontoon, and the automatic clamping, mounting, releasing and dismounting are carried out between the main construction platform and the auxiliary construction platform and between the bottom of the main construction platform and the bottom of the auxiliary construction platform and the pontoon by utilizing the automatic movement of the automatic clamping and positioning mechanism, so that the automatic rapid mounting and dismounting function is realized;

The lifting mechanism is longitudinally arranged at the tops of the main construction platform and the auxiliary construction platform, the top end of the lifting mechanism is detachably connected with the bridge, the use height of the main construction platform and the auxiliary construction platform is adjusted by utilizing the automatic lifting function of the lifting mechanism, an operable space is provided for construction of buildings such as the bridge by constructors, the lifting mechanism adopts a folding rod type lifting structure, and a proper number of lifting mechanisms are uniformly arranged at the tops of the main construction platform and the auxiliary construction platform according to the sizes of the main construction platform and the auxiliary construction platform, so that the lifting mechanism can be kept stable when the main construction platform and the auxiliary construction platform are controlled to lift, and the shaking amplitude generated when the top personnel move is reduced, namely the stability degree during construction is improved;

the single-paddle driving mechanism is arranged at the bottom middle part of the auxiliary construction platform and used for driving the auxiliary construction platform to move along any direction of the water surface, and the moving direction of the single-paddle driving mechanism is manually controlled and regulated by manpower, so that a convenient transfer function is provided for constructors;

the double-oar actuating mechanism is arranged at the bottom middle part of the main construction platform, and because the area and the mass of the main construction platform are large, the double-oar actuating mechanism is utilized to drive the main construction platform to carry out position transfer on the premise of manually controlling the moving direction, after the auxiliary construction platform is installed on the main construction platform, the double-oar actuating mechanism is utilized to still rapidly drive the integrated water conservancy construction platform to carry out position transfer, and the single-oar actuating mechanism and the double-oar actuating mechanism are utilized to cooperate, so that the convenient automatic moving function of the floating plate of the municipal garden hydraulic engineering is realized.

According to the rapid building device for the floating plate of the municipal garden hydraulic engineering, provided by the invention, the automatic clamping and positioning mechanism is arranged between the main construction platform and the auxiliary construction platform, the automatic clamping and positioning mechanism is also arranged at the bottom of the main construction platform and the bottom of the auxiliary construction platform, and the automatic moving of the automatic clamping and positioning mechanism is utilized to approach to the buckling and separate from the releasing, so that the automatic rapid mounting and dismounting functions between the main construction platform and the auxiliary construction platform, between the pontoon and the bottom of the main construction platform and between the pontoon and the bottom of the auxiliary construction platform are realized;

the main construction platform and the auxiliary construction platform are arranged for disassembly type installation, so that the area of the construction platform can be conveniently adjusted according to the construction requirement, the split type design is adopted, the construction of a plurality of areas on a water area can be facilitated, and the adjustable control range of the device in use is increased;

the main construction platform and the auxiliary construction platform are provided with the foldable lifting suspension lifting mechanisms, and then are hung with buildings such as bridges by the aid of the lifting suspension mechanisms, so that stable lifting of the main construction platform and the auxiliary construction platform can be realized, balance of the main construction platform and the auxiliary construction platform under suspension is maintained, and safety in construction is improved;

through setting up single oar actuating mechanism on assisting the construction platform, and single oar actuating mechanism passes through manual control direction of movement to and set up double oar actuating mechanism on main construction platform, also through manual control direction of movement, then cooperate electric drive, realize main construction platform, assist the high-efficient stable transfer ability of construction platform, further improve the mobility when this device uses the construction.

Drawings

Fig. 1 is a schematic view of a first view angle structure of a municipal garden hydraulic engineering floating plate rapid construction device when a main construction platform and an auxiliary construction platform are separated.

Fig. 2 is a schematic diagram of a second view angle structure of the municipal garden hydraulic engineering floating plate rapid construction device when a main construction platform and an auxiliary construction platform are separated.

Fig. 3 is a schematic diagram of a top view structure of the municipal garden hydraulic engineering floating plate rapid construction device when a main construction platform and an auxiliary construction platform are separated.

Fig. 4 is a schematic diagram of a main view structure of the municipal garden hydraulic engineering floating plate rapid construction device when a main construction platform and an auxiliary construction platform are separated.

Fig. 5 is an enlarged schematic view of the structure of fig. 1 a.

Fig. 6 is an enlarged schematic view of the structure B in fig. 2.

Fig. 7 is an enlarged schematic view of the structure of fig. 2C.

Fig. 8 is an enlarged schematic view of the structure of D in fig. 1.

Fig. 9 is a schematic diagram of a three-dimensional structure of a municipal garden hydraulic engineering floating plate when the clamping and positioning mechanism is separated in the device.

Fig. 10 is a schematic diagram of a front view structure of a clamping and positioning mechanism in a device for quickly constructing a floating plate of municipal garden hydraulic engineering.

Fig. 11 is a schematic diagram of a three-dimensional structure of a pressing cylinder in the municipal garden hydraulic engineering floating plate rapid construction device.

Fig. 12 is a schematic perspective view of a double-paddle driving mechanism in a device for quickly constructing a floating plate of municipal garden hydraulic engineering.

Fig. 13 is a schematic diagram of a connection structure between a gear ring and a slurry rod in the municipal garden hydraulic engineering floating plate rapid building device.

Fig. 14 is a schematic diagram of a front view structure of a double-paddle driving mechanism in a device for quickly constructing a floating plate of municipal garden hydraulic engineering.

Fig. 15 is a schematic structural view of a top view of a double-paddle driving mechanism in a municipal garden hydraulic engineering floating plate rapid building device.

Fig. 16 is a schematic perspective view of a single-paddle driving mechanism in a device for quickly constructing floating plates of municipal garden hydraulic engineering.

Fig. 17 is a schematic diagram of a front view structure of a single-paddle driving mechanism in a municipal garden hydraulic engineering floating plate quick construction device;

in the accompanying drawings: the main construction platform 10, the auxiliary construction platform 11, the suspension lifting mechanism 12, the cylinder 120, the piston rod 121, the scissor rod 122, the sleeve 123, the telescopic rod 124, the U-shaped connecting sleeve 125, the connecting block 126, the telescopic lifting rod 127, the hook 128, the telescopic rod cylinder 129, the pontoon 13, the metal skeleton net 14, the mounting plate 15, the single-paddle driving mechanism 16, the servo motor 160, the output shaft I161, the positioning sleeve 162, the bevel gear I163, the rotating handle connecting rod 164, the bevel gear II 165, the bevel gear III 166, the bevel gear IV 167, the rotating connecting rod 168, the support plate 169, the worm wheel 170, the worm 171, the direction adjusting connecting cylinder 172, the transmission rod 173, the gear box 174, the bevel gear V175, the bevel gear 176, the output shaft II 177, the rotary slurry I178, the steering wheel 179, the automatic clamping positioning mechanism 18, the fixing rod 180, the chuck 181, the positioning hole 182, the fixture block mounting post 183, the lifting limiting post 184, the swing frame 185, the fixture block 186, the clamping spring 187, the positioning pin 188, the lifting buffer spring 189, the pressing cylinder 190, the limit lever 191, the piston rod II 192, the cylinder II 193, the lifting limit column groove 194, the lifting buffer spring top groove 195, the lifting buffer spring bottom groove 196, the folding rail 19, the magnetic stripe board 20, the fixing rail 21, the fixing column 22, the lifting mechanism storage box 23, the clamping positioning hole 24, the double-paddle driving mechanism 30, the power motor 301, the driving tooth 302, the gear ring 303, the slurry bar 304, the connecting plate 305, the side gear I306, the side gear II 307, the steering gear I308, the steering gear II 309, the fixing sleeve 310, the rotation limiting driven disc 311, the rotation limiting driving disc 312, the I-shaped moving sleeve 313, the contact block 314, the swinging rod 315, the positioning swinging rod 316, the U-shaped swinging frame 317, the moving connecting block 318, the moving rod 319, the side swinging connecting rod 320, the steering rod 321, the rectangular box 322, the steering ellipsoid 323, slide block 324, slide rail 325, and slurry ii 326.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

1-7, a structure diagram of a device for quickly constructing a floating plate of municipal garden hydraulic engineering provided by the embodiment of the invention comprises a single group of main construction platforms 10 and a plurality of groups of auxiliary construction platforms 11, wherein the plurality of groups of auxiliary construction platforms 11 are connected with the main construction platforms 10 in a clamping and dismounting manner in an automatic shifting manner, the assembled main construction platforms 10 and the auxiliary construction platforms 11 form an integrated hydraulic construction platform, and the separated main construction platforms 10 and the auxiliary construction platforms 11 form a split hydraulic construction platform, namely, multi-area large-area construction is carried out according to the requirement of hydraulic construction;

the bottoms of the main construction platform 10 and the auxiliary construction platform 11 are automatically shifted, clamped, installed and disassembled with a plurality of groups of pontoons 13 which are uniformly distributed, and the main construction platform 10 and the auxiliary construction platform 11 are stably floated on the water surface by utilizing the buoyancy of the pontoons 13 and the uniform distribution;

The automatic clamping and positioning mechanism 18 is arranged between the main construction platform 10 and the auxiliary construction platform 11 and between the main construction platform 10 and the bottom of the auxiliary construction platform 11 and the pontoon 13, and the automatic clamping, mounting, releasing and dismounting are carried out between the main construction platform 10 and the auxiliary construction platform 11 and between the bottom of the main construction platform 10 and the auxiliary construction platform 11 and the pontoon 13 by utilizing the automatic movement of the automatic clamping and positioning mechanism 18, so that the automatic rapid mounting and dismounting function is realized;

the suspension lifting mechanism 12 is longitudinally arranged at the tops of the main construction platform 10 and the auxiliary construction platform 11, the top ends of the suspension lifting mechanisms 12 are detachably connected with the bridge, the use height of the main construction platform 10 and the auxiliary construction platform 11 is adjusted by utilizing the automatic lifting function of the suspension lifting mechanism 12, an operable space is provided for construction of buildings such as the bridge by constructors, the suspension lifting mechanism 12 adopts a folding rod type lifting structure, and a proper number of suspension lifting mechanisms 12 are uniformly arranged at the tops of the main construction platform 10 and the auxiliary construction platform 11 according to the sizes of the main construction platform 10 and the auxiliary construction platform 11, so that the stability can be kept when the main construction platform 10 and the auxiliary construction platform 11 are controlled to lift, and the shaking amplitude generated when the top personnel move is reduced, namely the stability degree during construction is improved;

The single-paddle driving mechanism 16 is arranged at the bottom middle part of the auxiliary construction platform 11 and is used for driving the auxiliary construction platform 11 to move along any direction of the water surface, and the moving direction of the single-paddle driving mechanism 16 is manually controlled and adjusted by manpower, so that a convenient transfer function is provided for constructors;

the double-oar driving mechanism 30 is arranged in the middle of the bottom of the main construction platform 10, and because the area and the mass of the main construction platform 10 are large, the double-oar driving mechanism 30 is used for driving the main construction platform 10 to carry out position transfer on the premise of manually controlling the moving direction, after the auxiliary construction platforms 11 are all installed on the main construction platform 10, the double-oar driving mechanism 30 is used for still rapidly driving the integrated water conservancy construction platform to carry out position transfer, and the single-oar driving mechanism 16 and the double-oar driving mechanism 30 are used for realizing the convenient automatic moving function of the floating plate of the municipal garden hydraulic engineering;

the buoy 13 is mounted at the bottom of the main construction platform 10 and the auxiliary construction platform 11 by the automatic clamping and positioning mechanism 18 in advance, and is uniformly distributed, stable buoyancy support is provided for the main construction platform 10 and the auxiliary construction platform 11, then the main construction platform 10 and the auxiliary construction platform 11 are arranged on a river to float for use, when the integrated construction platform needs to be formed, the automatic movement clamping and positioning mechanism 18 is utilized, and under the driving of the single-paddle driving mechanism 16 and the double-paddle driving mechanism 30, the auxiliary construction platform 11 and the main construction platform 10 are mounted in a movable clamping manner, the hydraulic construction facility working hours need to be carried out on a plurality of areas simultaneously, the auxiliary construction platform 11 and the main construction platform 10 are separated, then the main construction platform 10 and the auxiliary construction platform 11 are connected with a building such as a bridge to be constructed by the aid of the mounted suspension lifting mechanism 12, and the suspension platform 10 and the auxiliary construction platform 11 are driven to lift according to the position requirements of the building or the river construction, and the automatic movement clamping and positioning mechanism 11 is high in the height, thus the hydraulic construction device can be automatically transferred, the automatic movement clamping and positioning mechanism is stable, the automatic movement positioning mechanism is realized, the automatic movement positioning and the automatic positioning mechanism is stable, the automatic positioning and the automatic positioning device is realized, the automatic positioning device is stable, and the automatic positioning device is convenient to move and stable to move and the lifting and stable when the hydraulic construction platform is stably mounted and stable.

In the embodiment of the invention, a layer of metal skeleton net 14 is arranged inside a main construction platform 10 and an auxiliary construction platform 11, the metal skeleton net 14 is used for increasing the overall stability inside the main construction platform 10 and the auxiliary construction platform 11, mounting plates 15 are arranged at the bottoms of the main construction platform 10 and the auxiliary construction platform 11 corresponding to pontoons 13, and a barrel plate is arranged at one side of the pontoons 13 facing the mounting plates 15; referring to fig. 8, between the tube plate and the mounting plate 15, clamping positioning holes 24 are respectively formed between the side walls of the main construction platform 10 and the auxiliary construction platform 11 which are relatively detached, the automatic clamping positioning mechanisms 18 are arranged in the clamping positioning holes 24 on two sides, then the automatic clamping is performed by moving the part of the automatic clamping positioning mechanism 18 in the clamping positioning hole 24 on one side towards the part of the automatic clamping positioning mechanism 18 in the clamping positioning hole 24 on the other side, and meanwhile, in order to improve the tightness of the side walls of the main construction platform 10 and the auxiliary construction platform 11 after the contact installation, a layer of sealing gaskets are paved on the side walls of the main construction platform 10 and the auxiliary construction platform 11, and when river water on the lower side moves on the main construction platform 10 and the auxiliary construction platform 11, the sealing gaskets are used for preventing the river water on the lower side from being upwards sputtered to the upper surfaces of the main construction platform 10 and the auxiliary construction platform 11;

Specifically, a plurality of upright posts are arranged at the top edge parts of the main construction platform 10 and the auxiliary construction platform 11, a folding fence 19 or a fixing fence 21 is arranged between the upright posts, most of the fixing fence 21 is arranged at one side of the top edge part of the auxiliary construction platform 11 far away from the main construction platform 10 because the fixing fence 21 does not have an adjusting capability, the folding fence 19 has an automatic stretching adjusting function, a plurality of groups are arranged at one side of the top edge part of the main construction platform 10, which faces the main construction platform 10, of the auxiliary construction platform 11, when the auxiliary construction platform 11 is separated from the main construction platform 10, the folding fence 19 on the main construction platform 10 and the auxiliary construction platform 11 is unfolded, the top edge parts of the main construction platform 10 and the auxiliary construction platform 11 are shielded, the effect of safety protection is achieved, and the specific installation and distribution positions of the folding fence 19 and the fixing fence 21 can be determined according to the actual use;

the vertical magnetic stripe board 20 is installed to folding rail 19 remove end, and the stand lateral wall that magnetic stripe board 20 corresponds is provided with the magnetism metal level, utilizes the magnetism between magnetic stripe board 20 and the magnetism metal to inhale the effect promptly, is convenient for carry out stable magnetism with folding rail 19 after expanding and inhale the location, and constructor also does benefit to the split when controlling folding rail 19 shrink simultaneously.

In one example of the invention, a lifting mechanism storage box 23 with a group of open tops is arranged at the bottom end of a suspension lifting mechanism 12 positioned at the top of an auxiliary construction platform 11, the contracted suspension lifting mechanism 12 can be stored in the lifting mechanism storage box 23, a fixed column 22 arranged at the corner of the top of the main construction platform 10 is arranged at the bottom end of the suspension lifting mechanism 12 positioned on the main construction platform 10, the top of the fixed column 22 is provided with an opening shape, and the suspension lifting mechanism 12 is stored at the top of the fixed column 22;

wherein, the suspension lifting mechanism 12 comprises a cylinder 120 arranged at the inner bottom of a fixed column 22 or at the middle part in a lifting mechanism storage box 23, the output end of the cylinder 120 is connected with a piston rod 121, the end part of the piston rod 121 is connected with a scissor rod 122, the scissor rods 122 are arranged in a folding distribution manner through a swinging shaft, the whole length of the scissor rod 122 is correspondingly arranged according to the distance between a river and a bridge in a garden hydraulic engineering at ordinary times, the top end of the scissor rod 122 is rotationally connected with a connecting block 126, the top of the connecting block 126 is provided with a telescopic rod cylinder 129, the inside of the telescopic rod cylinder 129 is telescopically connected with a telescopic lifting rod 127, the top of the telescopic lifting rod 127 is provided with a hook 128 with an L-shaped structure, the hook 128 can be hung on the bridge or other buildings in the hydraulic engineering, the telescopic lifting rod 127 passes through the bottom end of the connecting block 126 and is fixedly connected with a U-shaped connecting sleeve 125, the U-shaped connecting sleeve 125 is rotationally sleeved on an adjacent swinging shaft, namely, when the starting cylinder 120 drives the piston rod 121 to lift, the shearing rod 122 is synchronously driven to extend up and down, so that the U-shaped connecting sleeve 125 at the extreme end is driven to drive the telescopic lifting rod 127 to move up and down along the inside of the telescopic rod cylinder 129, namely, the stretching of the shearing rod 122 is matched with the movement of the telescopic lifting rod 127 in the telescopic rod cylinder 129, the height of a hook 128 arranged at the end part of the telescopic lifting rod 127 is adjusted, and then the lifting control of the main construction platform 10 or the auxiliary construction platform 11 is realized by the height adjustment of the hook 128;

In order to maintain stability of the scissor lever 122 during extension, one end of a swinging shaft at the middle position of the scissor lever 122 is rotatably sleeved with a sleeve 123, the bottom end of the sleeve 123 is fixedly connected to the side wall of the main construction platform 10 or the auxiliary construction platform 11 through a telescopic rod 124, namely, a transverse supporting force is applied to the scissor lever 122 by using the telescopic rod 124, the scissor lever 122 is kept to stably move up and down, the telescopic rod 124 comprises a telescopic rod and a telescopic cylinder, the telescopic rod is movably arranged in the telescopic cylinder, the bottom end of the telescopic cylinder is fixedly arranged on the side wall of the main construction platform 10 or the auxiliary construction platform 11, and the top end of the telescopic rod is fixedly connected with the bottom of the sleeve 123, namely, when the scissor lever 122 extends, the telescopic rod moves along the telescopic cylinder;

preferably, to keep the telescoping rod 124 from excessively obstructing the retraction of the scissor lever 122, the telescoping rod 124 may be configured in a stepwise retraction configuration, such as a conventional fishing rod, umbrella rod, or the like.

As a preferred embodiment of the present invention, referring to fig. 9, 10 and 11, the automatic clamping and positioning mechanism 18 includes a fixing rod 180 installed inside the clamping and positioning hole 24, one end of the fixing rod 180 facing the outlet of the clamping and positioning hole 24 is arc-connected with a chuck 181, a positioning hole 182 is provided at the center of the outer side of the chuck 181, an air cylinder ii 193 is fixedly installed at the inner end of the clamping and positioning hole 24 located at the corresponding side of the chuck 181, the output end of the air cylinder ii 193 is connected with a piston rod ii 192, a pressing cylinder 190 is installed at the end of the piston rod ii 192, a group of clamping block installation posts 183 are elastically sleeved inside the pressing cylinder 190, a lifting limit post 184 is installed at the center of the side of the clamping block installation post 183 facing the inside of the pressing cylinder 190, a lifting limit post slot 194 for inserting and moving with the lifting limit post 184 is provided inside the pressing cylinder 190 corresponding to the end of the lifting limit post 184, the clamping block mounting column 183 is connected with a plurality of groups of clamping blocks 186 in a ring-shaped equidistant swinging way at the position, facing the chuck 181, of the circumferential outer side wall of the clamping block mounting column 183, one end, facing the chuck 181, of the clamping blocks 186 is provided with an inward upper hook structure, the other end is provided with an arc-shaped inclined plane structure, the middle part of the clamping blocks 186 is rotationally connected with a swinging frame 185 arranged on the outer side wall of the clamping block mounting column 183 through a rotating shaft, the upper part of the inner side, close to the upper hook structure, of the clamping blocks 186 is elastically connected with a group of obliquely distributed clamping springs 187, the inner wall of the clamping block mounting column 183 corresponding to the inner end of the clamping springs 187 is provided with inclined spring holes, the end, facing the spring holes, of the clamping springs 187 are fixedly connected with the inner ends of the spring holes, when the clamping springs 187 are in a free state, the hooked ends of the clamping blocks 186 are controlled to be outwards obliquely arranged, the circular diameter formed by one circle of the clamping blocks 186 is larger than the diameter of the chuck 181, namely when the clamping block mounting column 183 drives the clamping blocks 186 to move towards the chuck 181, can smoothly pass through the chuck 181;

The top of the fixture block mounting column 183 positioned at two sides of the lifting limit column 184 is provided with a lifting buffer spring bottom groove 196, the inner top of the pressing cylinder 190 positioned at two sides of the lifting limit column groove 194 is provided with a lifting buffer spring top groove 195, the lifting buffer spring top groove 195 and the lifting buffer spring bottom groove 196 are correspondingly distributed, the lifting buffer spring 189 is elastically connected between the upper and lower parts, meanwhile, the lifting limit column 184 is provided with a transversely penetrated waist-shaped hole, the inside of the waist-shaped hole is inserted with a transverse limit rod 191, two sides of the limit rod 191 movably extend to the inside of the pressing cylinder 190, by utilizing the structural form of the up-down distribution of the waist-shaped hole, the limit rod 191 can be arranged in the waist-shaped hole to move up and down, namely, the lifting limit column 184 provides space for the movement of the lifting limit column 194 in the lifting limit column groove 194, meanwhile, the bottom edge of the pressing cylinder 190 is provided with an arc structure, and the pressing cylinder 190 is sleeved outside the fixture block mounting column 183 to move, the arc structure at the bottom edge of the pressing cylinder 190 contacts with the arc inclined surface structure at the top of the clamping block 186, along with the gradual movement of the pressing cylinder 190 towards the clamping block mounting column 183, the arc inclined surface at the top of the clamping block 186 is continuously pushed to swing outwards, then the upper hook structure at the bottom end of the clamping block 186 is buckled at the inner bottom of the chuck 181 under the action of the rotating shaft and the swinging frame 185, thereby automatically buckling the clamping block 186 with the chuck 181, the movement of the pressing cylinder 190 is realized through the movement of the air cylinder II 193, when the air cylinder II 193 drives the pressing cylinder 190 to move backwards from the outer side of the clamping block mounting column 183, the upper hook structure at the bottom of the clamping block 186 is automatically separated from the inner side of the chuck 181 under the resilience force of the clamping spring 187 and the lifting buffer spring 189, thereby realizing automatic disassembly, namely realizing the automatic and quick assembly and disassembly of the bottom of the buoy 13 and the main construction platform 10 by the power driving of the air cylinder II 193, the auxiliary construction platforms 11 are stably and accurately installed and detached;

Meanwhile, the locating pin 188 is arranged at the bottom middle part of the fixture block mounting column 183, and the locating pin 188 is spliced and positioned with the locating hole 182, so that the accuracy of subsequent splicing, installing and detaching is ensured due to the fact that the fixture block 186 is kept to be positioned in advance before being buckled with the chuck 181.

Wherein, for quick and accurate control flotation pontoon 13 and main construction platform 10, assist construction platform 11 bottom to install and tear open to and main construction platform 10, assist to install and tear open between the construction platform 11, generally install the dead lever 180 and set up in the joint locating hole 24 that is located flotation pontoon 13 top barrel board to and in the joint locating hole 24 on the main construction platform 10 lateral wall, then set up fixture block erection column 183, press section of thick bamboo 190, cylinder II 193 to corresponding assistance construction platform 11, the joint locating hole 24 on the mounting panel 15.

As a preferred embodiment of the present invention, referring to fig. 16 and 17, the single-paddle driving mechanism 16 includes a servo motor 160 installed inside the auxiliary construction platform 11, an output shaft i 161 is connected to an output end of the servo motor 160, a bevel gear i 163 is installed at an end of the output shaft i 161, a bevel gear ii 165 is vertically meshed with a lower side of the bevel gear i 163, a longitudinally distributed transmission rod 173 is fixedly connected to a middle portion of a bottom of the bevel gear ii 165, a bevel gear v 175 is installed at a bottom end of the transmission rod 173, a bevel gear vi 176 is vertically meshed with one side of the bevel gear v 175, an output shaft ii 177 is connected to a center of one side of the bevel gear vi 176, a plurality of uniformly distributed rotary slurries i 178 are installed at an end of the output shaft ii 177, the servo motor 160 is started to drive the output shaft i 161 to rotate, and then the output shaft ii 177 is driven to drive the rotary slurries i 178 to rotate under the meshing of the bevel gear v 175 and the bevel gear vi 176, thereby driving the auxiliary construction platform 11;

A group of direction adjusting components are arranged on the outer side of the transmission rod 173 at the lower side of the bevel gear II 165, the direction adjusting components upwards penetrate through the auxiliary construction platform 11 and are connected with a steering wheel 179, and the steering wheel 179 drives the direction adjusting components to adjust the placing angle of the rotary slurry I178 under the control of constructors so as to adjust the moving direction of the auxiliary construction platform 11;

the direction adjusting assembly comprises a direction adjusting connecting cylinder 172 sleeved outside a transmission rod 173, a right-angle triangle-like structure gear transmission box 174 is fixedly arranged at the bottom end of the direction adjusting connecting cylinder 172, a bevel gear V175 and a bevel gear VI 176 are arranged in the gear transmission box 174, the bottom end of the transmission rod 173 movably penetrates through the gear transmission box 174 and is fixedly connected with the bevel gear V175, an output shaft II 177 movably penetrates through the gear transmission box 174 and is fixedly connected with the bevel gear VI 176, a group of worm gears 170 parallel to the bevel gear II 165 are fixedly connected to the top of the direction adjusting connecting cylinder 172, the top end of the transmission rod 173 movably penetrates through the center of the worm gears 170 and is fixedly connected with the middle part of the bottom of the bevel gear II 165, a group of worms 171 are connected to one side of the worm gears 170 in a threaded manner, guide rods are arranged at two ends of the worms 171, a supporting plate 169 is downwards arranged through a supporting sleeve rod, one end of each guide rod is connected with a bevel gear 167 through a rotating connecting rod 168, one side of the bevel gears 167 is vertically meshed with a bevel gear III 166, a rotating handle connecting rod 164 is arranged at the top of the bevel gear 166, the rotating handle connecting rod 164 is fixedly connected with a steering wheel 179, one side of the supporting plate 169 is fixedly connected with a positioning sleeve 162 on the output shaft I161, namely, the worm gears 169 are positioned below the worm gears 169, the worm gears 170, the worm gears 171 and the worm gears 167 are positioned in a structure, etc. in a sleeved mode; the rotary handle connecting rod 164 is driven to rotate through the manual rotary steering wheel 179, then the worm 171 is driven to drive the worm wheel 170 to rotate under the meshing of the bevel gear III 166 and the bevel gear IV 167, then the driving direction adjusting connecting cylinder 172 drives the gear box 174 to rotate, and then the placing direction of the rotary slurry I178 is adjusted, so that the direction adjustment of the rotary slurry I178 in a rotary state is realized, the stable and convenient driving auxiliary construction platform 11 is convenient to transfer in any direction by utilizing the structure, and the independent movement of the auxiliary construction platform 11 is increased or the auxiliary construction platform 11 and the main construction platform 10 are automatically installed or separated.

As a preferred embodiment of the present invention, referring to fig. 12-15, the dual-paddle driving mechanism 30 includes a paddle rotating groove formed on two sides of the bottom of the main construction platform 10, a paddle ii 326 is rotatably disposed in the paddle rotating groove, two opposite sides of the paddle ii 326 are respectively connected with a paddle rod 304, a rotating power assembly is disposed between the paddle rods 304, the rotating power assembly drives the paddle rods 304 on two sides to synchronously rotate, so as to drive the paddle ii 326 to rotationally drive the main construction platform 10 to move, one side of the rotating power assembly is connected with a direction control assembly, the direction control assembly extends upwards through the top of the main construction platform 10 to the top of the main construction platform 10, a steering rod 321 with a U-shaped structure is mounted on the top of the direction control assembly, and a constructor manually manipulates the steering rod 321, thereby driving the rotating power assembly to drive the main construction platform 10 to move in a desired direction;

the rotary power assembly comprises two groups of rotating sleeves which are arranged at the end parts of two side slurry rods 304 in a rotating way and are distributed vertically symmetrically, connecting plates 305 are symmetrically arranged at the upper side and the lower side of the rotating sleeves, a group of gear rings 303 are jointly arranged at the end parts of the connecting plates 305, one side of each gear ring 303 is meshed with a driving tooth 302, one side of each driving tooth 302 is connected with a power motor 301, two side slurry rods 304 are fixedly provided with a side gear I306 and a side gear II 307, the side gears I306 and the side gears II 307 are respectively positioned at the inner sides of the connecting plates 305, the side gears I306 and the side gears II 307 are distributed at intervals, a group of steering gears II 309 are meshed at the positions, corresponding to the positions of the connecting plates 305, of the side gears II 307 are meshed with a group of steering gears I308, the two ends of a steering gear I308 and a steering gear II 309 are respectively and rotatably connected to the side walls of a connecting plate 305 on two sides, a power motor 301 is started to drive a driving tooth 302 to rotate so as to drive a gear ring 303 to rotate, when the gear ring 303 rotates, the steering gear I308 is in a static state relative to the side gears II 307 and II 309 relative to the side gears I306, the steering gear I308 is meshed with the side gears II 307, the steering gear II 309 is meshed with the side gears I306 to limit, so that the side gears I306 and II 307 are driven to rotate, a slurry rod 304 is driven to rotate, a slurry rotating II 326 on two ends of the slurry rod 304 is driven to rotate, a U-shaped mounting plate is fixedly arranged on one side of the power motor 301, and two ends of the U-shaped mounting plate are rotatably sleeved on the slurry rod 304 on two sides;

The direction control assembly comprises a pulp rod 304 positioned at the outer side of a connecting plate 305, wherein the two sides of the pulp rod 304 are respectively provided with a limited rotating piece, one side of each limited rotating piece, which faces to a driving tooth 302, is commonly connected with a swinging piece, the swinging piece is connected with a steering rod 321, the left and right swinging of the swinging piece is controlled by controlling the steering rod 321, and then the rotation of the pulp rod 304 at the corresponding position is controlled by controlling the limited rotating pieces, so that the rotation stop of two sides of the pulp II 326 is controlled, and the control of the moving direction of the driving main construction platform 10 is realized;

the rotation limiting member comprises a fixed sleeve 310 fixedly arranged on the pulp rod 304, a rotation limiting driven disc 311 with the diameter larger than that of the fixed sleeve 310 is arranged on one side of the fixed sleeve 310 away from the connecting plate 305, a rotation limiting driving disc 312 is arranged on one side of the rotation limiting driven disc 311 at intervals, a I-shaped moving sleeve 313 which is sleeved on the pulp rod 304 in a rotating way is connected to one side of the rotation limiting driving disc 312 away from the rotation limiting driven disc 311, the middle part of the I-shaped moving sleeve 313 is connected with the swinging member, namely the swinging member controls the I-shaped moving sleeve 313 to axially move along the pulp rod 304, the rotation limiting driving disc 312 is further controlled to be contacted with the rotation limiting driven disc 311, rotation of the rotation limiting driven disc 311 is prevented, rotation of a rotating pulp II 326 at the end part of the pulp rod 304 is further suspended, meanwhile, under the rotation of the other side of the rotation limiting driven disc 311, the rotation limiting driving disc 312 is adjusted in the moving direction, when the rotation of the pulp rod 304 is stopped, a side gear I306 at the end part of the pulp rod is synchronously controlled, or a side gear II 307 is stopped, a steering gear II 309 or a side gear I on the side gear I306 is arranged on the side of the side gear II 307 is stopped, or a side gear I307 is arranged on the side of the rotating rod, the side gear I306 is arranged on the side of the side gear I306 or the side of the side gear I307 is rotated around the side of the side gear I306, the side gear I or the side 307 is rotated around the side II, and the side II is correspondingly, the rotation II is rotated, and the side II is correspondingly;

Specifically, in order to increase the resistance to rotation limitation of the rotation limitation driven plate 311 when the rotation limitation driving plate 312 is in contact with the rotation limitation driving plate 312, the surface of the rotation limitation driving plate 312 in contact with the rotation limitation driven plate 311 is provided in a corrugated shape.

As a preferred embodiment of the invention, the swinging member comprises a contact block 314 which is clamped and contacted at the groove position in the middle part of an I-shaped movable sleeve 313, a group of connecting frames with a transverse V-shaped structure are rotatably sleeved on the contact blocks 314 at two sides, one end of each connecting frame far away from a pulp rod 304 is connected with a swinging rod 315, the end part of each swinging rod 315 is provided with a U-shaped swinging frame 317, the upper side and the lower side of each U-shaped swinging frame 317 are provided with a movable rod 319 with a waist-shaped structure, the inside of each movable rod 319 is slidably connected with a movable pin, the middle part of each movable pin is provided with a movable connecting block 318, a rectangular box 322 is jointly arranged between the movable connecting blocks 318 at two sides through a lateral swinging connecting rod 320, a steering ellipsoid 323 is rotatably arranged in the middle part of the rectangular box 322, one side of each rectangular box facing towards the U-shaped mounting plate is connected with a sliding block 324, the corresponding U-shaped mounting plate of the sliding block 324 is provided with a sliding rail 325, the sliding block 324 slides along the sliding rail 325, the top of the steering ellipsoid 323 is fixedly connected with the steering rod 321 through a connecting rod, the middle part of the connecting rod is fixed on one side of the U-shaped mounting plate through a supporting sleeve rod, namely, the steering ellipsoid 323 is driven to rotate in the rectangular box 322 by manual rotation of the steering rod 321, so that a sliding block 324 at the end part of the rectangular box 322 is driven to move slightly in a sliding rail 325, at the moment, under the connection of a lateral swinging connecting rod 320, a control moving pin moves in a moving rod 319, and is simultaneously fixed on the side wall of the U-shaped mounting plate on a swinging rod 315 through a positioning swinging rod 316, at the moment, the moving pin moves in the moving rod 319 and the swinging of the swinging rod 315 and the positioning swinging rod 316, so that a contact block 314 is driven to push an I-shaped moving sleeve 313 to move along the axis of the slurry rod 304, and further a rotation limiting driving disc 312 is driven to contact a rotation limiting driven disc 311 to prevent rotation of the rotation limiting driven disc 311, the direction of the movement of the main construction platform 10 by the double-paddle driving mechanism 30 is adjusted.

In the above embodiment of the invention, a device for quickly constructing floating plates of municipal garden hydraulic engineering is provided, before installation and use, a main construction platform 10 with a proper size is selected according to the area of a water area used by the hydraulic engineering and the size of a bridge, then a plurality of groups of floating cylinders 13 are automatically and uniformly clamped at the bottom of the main construction platform 10 by utilizing an automatic clamping and positioning mechanism 18, meanwhile, a proper number of floating cylinders 13 are also installed at the bottom of an auxiliary construction platform 11, then a proper number of suspension lifting mechanisms 12 are installed on the upper sides of the main construction platform 10 and the auxiliary construction platform 11 according to the construction requirement, the suspension lifting mechanisms 12 are used for being connected with the building such as the bridge in a hanging manner, then the construction height of the main construction platform 10 and the auxiliary construction platform 11 is adjusted by using the folding lifting mechanisms 12, then a double-paddle driving mechanism 30 is arranged in the middle of the main construction platform 10, a single-paddle driving mechanism 16 is arranged on the auxiliary construction platform 11, the moving direction of the single-paddle driving mechanism 16 and the double-paddle driving mechanism 30 is controlled manually through manpower, and the moving power is ensured to run through a corresponding motor, when the construction is carried out, the construction platform can be accurately carried out in a split manner, and the construction can be carried out between the main construction platform and the main construction platform 10 and the integral construction platform according to the construction requirement.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (10)

1. The utility model provides a municipal garden hydraulic engineering floating plate builds device fast, its characterized in that, including single main construction platform (10) and multiunit assist construction platform (11), multiunit assist construction platform (11) all with main construction platform (10) between carry out automatic shift formula joint ann tear-open, main construction platform (10) after the equipment and assist construction platform (11) form integrative water conservancy construction platform, main construction platform (10) after the separation and assist construction platform (11) form split type water conservancy construction platform, main construction platform (10), assist construction platform (11) bottom all automatic shift formula joint ann tear-open have multiunit evenly distributed's flotation pontoon (13);

the automatic clamping and positioning mechanism (18) is arranged between the main construction platform (10) and the auxiliary construction platform (11) and between the main construction platform (10) and the bottom of the auxiliary construction platform (11) and the pontoon (13), and the automatic movement of the automatic clamping and positioning mechanism (18) is utilized to carry out clamping, installation and release disassembly between the main construction platform (10) and the auxiliary construction platform (11) and between the main construction platform (10) and the bottom of the auxiliary construction platform (11) and the pontoon (13);

The suspension lifting mechanism (12) is longitudinally arranged at the tops of the main construction platform (10) and the auxiliary construction platform (11), the top end of the suspension lifting mechanism (12) is detachably connected with the bridge, and the suspension lifting mechanism (12) adopts a folding rod type lifting structure;

the single-paddle driving mechanism (16) is arranged at the bottom middle part of the auxiliary construction platform (11) and used for driving the auxiliary construction platform (11) to move along any direction of the water surface, and the moving direction of the single-paddle driving mechanism (16) is manually controlled and adjusted by manpower;

the double-paddle driving mechanism (30) is arranged at the bottom middle part of the main construction platform (10), and the double-paddle driving mechanism (30) rapidly drives the integrated water conservancy construction platform to carry out position transfer.

2. The device for quickly constructing the floating plate of the municipal garden hydraulic engineering according to claim 1, wherein a layer of metal skeleton net (14) is arranged inside the main construction platform (10) and the auxiliary construction platform (11), the installation plates (15) are installed at the bottoms of the main construction platform (10) and the auxiliary construction platform (11) corresponding to the pontoons (13), and the pontoons (13) are installed on one sides of the installation plates (15).

3. The rapid construction device for the floating plate of the municipal garden hydraulic engineering according to claim 2, wherein clamping positioning holes (24) are respectively formed between the cylinder plate and the mounting plate (15), and between the side walls of the main construction platform (10) and the auxiliary construction platform (11) which are relatively installed and detached, and the automatic clamping positioning mechanisms (18) are arranged inside the clamping positioning holes (24) on two sides.

4. The rapid municipal garden hydraulic engineering floating plate constructing device according to claim 3, wherein a group of lifting mechanism storage boxes (23) with open tops are arranged at the bottom ends of the suspension lifting mechanisms (12) at the tops of the auxiliary construction platforms (11), the contracted suspension lifting mechanisms (12) can be stored in the lifting mechanism storage boxes (23), fixed columns (22) which are arranged at the corners at the tops of the main construction platforms (10) are arranged at the bottom ends of the suspension lifting mechanisms (12) on the main construction platforms (10), the tops of the fixed columns (22) are opened, and the suspension lifting mechanisms (12) are stored at the tops of the fixed columns (22);

the utility model provides a lifting mechanism (12) is hung in midair, is including installing cylinder (120) at middle part in fixed column (22) interior bottom or elevating system receiver (23), cylinder (120) output is connected with piston rod (121), and piston rod (121) end connection is provided with scissors fork (122), is folding the distribution setting through the oscillating axle between scissors fork (122), scissors fork (122) top rotates and is connected with connecting block (126), connecting block (126) top installation intercommunication has telescopic link section of thick bamboo (129), telescopic link section of thick bamboo (129) inside telescopic link has telescopic link (127), and couple (128) of L type structure are installed on telescopic link (127) top, couple (12) articulates on bridge or other buildings in hydraulic construction engineering, the bottom fixedly connected with U type adapter sleeve (125) of telescopic link (127) passing connecting block (126), U type adapter sleeve (125) rotate the cover and are installed on an adjacent oscillating axle, the oscillating axle one end rotation cover (123) of scissors fork (122) middle part position department has sleeve (123), and sleeve (124) are installed on the side wall of main construction platform (11) through telescopic link (124).

5. The rapid construction device for floating plates in municipal garden according to claim 4, wherein the automatic clamping and positioning mechanism (18) comprises a fixing rod (180) arranged inside a clamping and positioning hole (24), one end arc of the fixing rod (180) facing the outlet of the clamping and positioning hole (24) is connected with a chuck (181), a positioning hole (182) is formed in the center of the outer side of the chuck (181), an air cylinder II (193) is fixedly arranged at the inner end part of the clamping and positioning hole (24) on the corresponding side of the chuck (181), a piston rod II (192) is connected to the output end of the air cylinder II (193), a pressing cylinder (190) is arranged at the end part of the piston rod II (192), a group of clamping block mounting columns (183) are elastically sleeved inside the pressing cylinder (190), lifting limit columns (184) are arranged at the center of one side of the inner side facing the pressing cylinder (190), lifting limit columns (194) corresponding to the end parts of the lifting limit columns (184) are provided with lifting limit columns (194) which are spliced and move, the clamping blocks (183) are circumferentially arranged at the other end parts facing the outer side walls (181) of the chuck (181) and face inwards, the other end faces of the clamping blocks (181) are arranged at the arc-shaped structures, the middle part of the clamping block (186) is rotationally connected with a swinging frame (185) arranged on the outer side wall of the clamping block mounting column (183) through a rotating shaft, a group of obliquely distributed clamping springs (187) are elastically connected to the upper part of the inner side of the clamping block (186) close to the upper hook structure, inclined spring holes are formed in the inner wall of the clamping block mounting column (183) corresponding to the inner ends of the clamping springs (187), and the ends of the clamping springs (187) facing the spring holes are fixedly connected to the inner ends of the spring holes;

The lifting buffer spring bottom grooves (196) are formed in the tops of the clamping block mounting columns (183) on two sides of the lifting limit columns (184), the lifting buffer spring top grooves (195) are formed in the inner tops of the pressing cylinders (190) on two sides of the lifting limit column grooves (194), the lifting buffer spring top grooves (195) are distributed corresponding to the lifting buffer spring bottom grooves (196), lifting buffer springs (189) are elastically connected between the upper side and the lower side of the lifting buffer spring top grooves, the lifting limit columns (184) are provided with transverse through waist-shaped holes, transverse limit rods (191) are inserted in the waist-shaped holes, two sides of the limit rods (191) movably extend to the inside of the pressing cylinders (190), and arc structures are arranged on the bottom edge portions of the pressing cylinders (190).

6. The device is built fast to municipal garden hydraulic engineering floating plate according to claim 5, wherein, single oar actuating mechanism (16) is including installing at the inside servo motor (160) of assisting construction platform (11), servo motor (160) output is connected with output shaft I (161), output shaft I (161) tip is installed helical gear I (163), helical gear I (163) downside vertical engagement has a helical gear II (165), helical gear II (165) bottom middle part fixedly connected with vertically distributed transfer line (173), helical gear V (175) are installed to transfer line (173) bottom, helical gear V (175) one side vertical engagement has helical gear VI (176), helical gear VI (176) one side center department is connected with output shaft II (177), multichip evenly distributed's rotary thick liquid I (178) are installed to output shaft II (177) tip.

7. The device for quickly constructing the floating plate of the municipal garden hydraulic engineering according to claim 6, wherein a group of direction adjusting components are arranged on the outer side of a transmission rod (173) on the lower side of the bevel gear II (165), and the direction adjusting components upwards penetrate through the auxiliary construction platform (11) to be connected with a steering wheel (179); the direction adjusting component comprises a direction adjusting connecting cylinder (172) sleeved on the outer side of a transmission rod (173), a gear transmission box (174) in a right-angle-like triangle structure is fixedly arranged at the bottom end of the direction adjusting connecting cylinder (172), a bevel gear V (175) and a bevel gear VI (176) are arranged in the gear transmission box (174), the bottom end of the transmission rod (173) movably passes through the gear transmission box (174) to be fixedly connected with the bevel gear V (175), an output shaft II (177) movably passes through the gear transmission box (174) to be fixedly connected with a bevel gear VI (176), a group of worm gears (170) parallel to the bevel gear II (165) are fixedly connected at the top of the direction adjusting connecting cylinder (172), the top end of the transmission rod (173) movably passes through the center of the worm gear (170) to be fixedly connected with the bottom middle part of the bevel gear II (165), a group of worms (171) are connected at one side of the worm gears (170) in a threaded mode, two ends of each worm (171) are respectively provided with a supporting plate (169) through a supporting rod, one end of each supporting rod is connected with a bevel gear (167) through a rotating connecting rod (168), one side of each supporting rod is vertically meshed with a bevel gear III (166), a connecting rod (164) is fixedly connected with a steering handle (164) at the top of the bevel gear III), one side of the supporting plate (169) is fixedly connected with a positioning sleeve (162) sleeved on the output shaft I (161).

8. The rapid building device for the floating plate of the municipal garden hydraulic engineering according to claim 7, wherein the double-paddle driving mechanism (30) comprises a rotating slurry tank arranged at two sides of the bottom of the main construction platform (10), a rotating slurry II (326) is rotatably arranged in the rotating slurry tank, one opposite sides of the rotating slurry II (326) are respectively connected with a slurry rod (304), a rotating power assembly is arranged between the slurry rods (304) at two sides, one side of the rotating power assembly is connected with a direction control assembly, the direction control assembly upwards penetrates through the top of the main construction platform (10) to extend to the top of the main construction platform (10), and a steering rod (321) with a U-shaped structure is arranged at the top of the direction control assembly;

the rotary power assembly comprises two groups of rotating sleeves which are arranged at the end parts of slurry rods (304) at two sides in a rotating mode, connecting plates (305) are symmetrically arranged at the upper side and the lower side of the rotating sleeves, a group of gear rings (303) are jointly arranged at the end parts of the connecting plates (305), driving teeth (302) are meshed at one sides of the gear rings (303), a power motor (301) is connected to one side of each driving tooth (302), side gears I (306) and side gears II (307) are fixedly arranged at the end parts of the slurry rods (304) at two sides, the side gears I (306) and the side gears II (307) are respectively located at the inner sides of the connecting plates (305), the side gears I (306) and the side gears II (307) are distributed at intervals, a group of steering gears II (309) are meshed at the positions, corresponding to the upper and lower positions of the side gears II (307), a group of steering gears I (308) are meshed at the positions of the connecting plates (305), and two ends of the steering gears I (308) and the steering gears II (309) are respectively connected to the side walls of the connecting plates (305) at two sides in a rotating mode.

9. The rapid building device for the floating plate of the municipal garden hydraulic engineering according to claim 8, wherein the direction control assembly comprises slurry rods (304) positioned on the outer side of the connecting plate (305), limited rotating pieces are arranged on the slurry rods, one side, facing the driving teeth (302), of each limited rotating piece is connected with a swinging piece, and the swinging pieces are connected with a steering rod (321);

the rotation limiting piece comprises a fixed sleeve (310) fixedly arranged on the slurry rod (304), one side, far away from the connecting plate (305), of the fixed sleeve (310) is provided with a rotation limiting driven disc (311) with the diameter larger than that of the fixed sleeve (310), one side of the rotation limiting driven disc (311) is provided with a rotation limiting driving disc (312) at intervals, one side, far away from the rotation limiting driven disc (311), of the rotation limiting driving disc (312) is connected with an I-shaped movable sleeve (313) which is rotatably sleeved on the slurry rod (304), and the middle part of the I-shaped movable sleeve (313) is connected with the swinging piece.

10. The device is characterized in that the swinging member comprises a contact block (314) which is clamped and contacted at the middle groove position of an I-shaped moving sleeve (313), a group of connecting frames of a transverse V-shaped structure are rotatably sleeved on the two side contact blocks (314), one end of each connecting frame, far away from a slurry rod (304), is connected with a swinging rod (315), the end part of each swinging rod (315) is provided with a U-shaped swinging frame (317), the upper side and the lower side of each U-shaped swinging frame (317) are provided with a moving rod (319) of a waist-shaped structure, the moving rods (319) are internally connected with moving pins in a sliding manner, moving pins are provided with moving connecting blocks (318) in the middle part, a rectangular box (322) is jointly installed between the two side moving connecting blocks (318) through lateral swinging connecting rods (320), a steering ellipsoid (323) is rotatably installed in the middle part of the rectangular box (322), one side, which faces towards the U-shaped mounting plate, of each sliding block (324) is provided with a sliding block (325), the corresponding U-shaped mounting plate is provided with a sliding rail (325), the sliding block (324) is fixedly connected with the U-shaped connecting rods (316) through the side wall of the U-shaped connecting rods (316) on the side wall of the U-shaped connecting plate.