CN113522859B - Self-compensation full-coverage adsorption and wastewater collection and passive discharge integrated trailer - Google Patents

Abstract

The invention discloses a self-compensation full-coverage adsorption and wastewater collection and passive discharge integrated trailer, which comprises an intermediary intervention type passive all-dimensional electrostatic adsorption mechanism, a self-compensation type reuse and unpowered discharge integrated mechanism, an intervention type repulsion force conversion buffer mechanism, a magnetomotive force top coverage rate adaptive change mechanism, an adaptive support auxiliary mechanism, an adaptive steering anti-swing mechanism, a reciprocating action type cleaning mechanism, a trailer base, a traction connecting part and a trailer shielding fence. The invention belongs to the technical field of a bin gate type semitrailer, and particularly relates to a self-compensation full-coverage adsorption and wastewater collection and passive discharge integrated trailer, which realizes the functions of omnibearing electrostatic adsorption, no power source reciprocating action, spray splashing power recycling, wastewater automatic collection and unpowered discharge integration, magnetic force action type ceiling automatic control and trailer self-adaptive steering anti-swing.

Description

Self-compensation full-coverage adsorption and wastewater collection and passive discharge integrated trailer

Technical Field

The invention belongs to the technical field of a bin gate type semitrailer, and particularly relates to a trailer integrating self-compensation full-coverage adsorption, wastewater collection and passive discharge.

Background

A trailer refers to a vehicle that is towed by a car without power drive per se. A combination of a car (truck or tractor, forklift) and one or more trailers. The truck and the tractor are driving sections of the automobile train and are called as main trains. The slave node towed by the master is called a trailer. The trailer is an important vehicle for road transportation, and the transportation by adopting an automobile train is the most effective and simple important means for improving economic benefit. The method has the advantages of rapidness, mobility, flexibility, safety and the like; the zone transportation can be conveniently realized. A semi-trailer with a compartment fence type belongs to a trailer, and a cargo carrying part of the semi-trailer adopts a fence structure design and is mainly used for transporting agricultural and sideline products and other light-bulb goods.

At present, most of the fence tops of the cargo carrying parts of the existing fence type semitrailer are designed in an open mode, which directly causes dust to easily enter the fence, so that a large amount of dust is attached to goods, the fence type semitrailer is generally used for transporting goods such as grains, livestock products, fresh fruits and the like, the attachment of the dust to the goods obviously influences the selling of the goods, and agricultural and sideline products cannot be exposed to the sun for a long time, the existing treatment method is to cover a layer of shielding cloth on the top of the fence and fix the shielding cloth on the fence by using a rope, but the method needs to consume a large amount of time for fixing and disassembling the shielding cloth, the shielding cloth after long-term use accumulates a large amount of dust, is not easy to maintain and has poor effect, if a traditional mechanical cleaning mechanism is directly arranged, and power sources such as a motor and the like need to be additionally arranged, so that the operation and maintenance costs are increased, and therefore, under the condition of no power sources such as the motor and the like, how to achieve the aims of shielding the top of the fence and realizing the dustproof treatment of the shielding medium is a contradictory technical problem which is difficult to solve in the prior art; the existing bin gate type semitrailer needs to clean the interior regularly so as to maintain a clean environment in a fence, most of the existing cleaning methods are to use a water gun to wash and clean, water columns generated by a water gun spray head in the cleaning process impact on a fence structure of the bin gate type semitrailer to generate splashing, the water columns are not easy to collect and concentrate and discharge, the attractiveness of the surrounding environment is affected, high-speed splashing water is wasted, the purpose of preventing splashing of water spray can be achieved by reducing the water pressure of the water gun, but the cleaning effect is certainly reduced greatly, obviously, under the condition of not affecting the cleaning effect, how to simultaneously realize the utilization of splashing water spray and the automatic collection and unpowered discharge of waste water after cleaning is realized, and the problem is a contradictory technical problem which cannot be solved by the prior art; the shielding cloth at the top of the existing bin gate type semitrailer is unfolded and retracted by manual binding, and the operation is very troublesome; in addition, the two sides of the existing bin gate type semitrailer do not have shock-absorbing and impact-preventing structures, so that the trailer is easy to swing to a larger extent when being impacted on the trailer by external force, and the safety of the driving process is influenced.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a self-compensation full-coverage adsorption and wastewater collection and passive discharge integrated trailer, which creatively combines the technical theories of a pretreatment principle (an object is placed at the most convenient position in advance so as to be immediately put into use) and a medium principle (an intermediate object is used for transmitting or executing an action) and applies the technical theories to the technical field of the trailer under the condition of no direct power source such as a motor and other sensors by arranging a medium intervention type passive all-directional electrostatic adsorption mechanism, flexibly integrates the electrostatic adsorption into the design concept of the medium intervention type passive all-directional electrostatic adsorption mechanism, skillfully utilizes the vibration force generated by driving the trailer by a traction head of the trailer in the transportation process, and uses the vibration force as a power source for cleaning the top shading tarpaulin in a reciprocating sliding way, the technical breakthrough of no direct power source is realized while the omnibearing dust removal and cleaning of the top shielding tarpaulin are realized, the energy distribution burden of a trailer traction head is reduced, and the technical problem of performing dustproof adsorption treatment on the top shielding tarpaulin under the condition of no power source which is difficult to solve by the prior art is overcome in a breakthrough manner; under the condition of no intervention of any water flow regulating equipment, drainage machines such as water pumps and the like and other sensors, the technical theory of changing harm into benefit principle (obtaining positive effect by utilizing harmful factors) is creatively introduced into the design concept of a self-compensation type reuse and unpowered discharge integrated mechanism, the acting force of splashing water generated by the impact of the high-pressure water gun nozzle on the fence structure during cleaning is fully reused, and the effect of automatically draining water from a high position to a low position by using the siphon principle is skillfully utilized, under the condition of not influencing the cleaning effect, the reasonable utilization of the huge acting force of the splash is completed, the automatic collection and unpowered discharge of the waste water after cleaning are realized, and the technical difficulties that the reuse of the splash in the cleaning process of the bin grid type semi-trailer, the automatic collection of the waste water after cleaning and the unpowered discharge cannot be solved by the prior art are overcome; through the arrangement of the magnetomotive top coverage rate adaptive change mechanism, under the condition of no introduction of any mechanical lifting mechanism, a technical theory for replacing a mechanical system principle (replacing a mechanical system by the interaction of electricity, magnetism or an electromagnetic field and an object) is creatively applied to the technical field of trailers, and the technical problem that the top shielding tarpaulin is automatically unfolded and folded, which is difficult to solve in the prior art, is solved; through the arrangement of the intervention type repulsion force conversion buffer mechanism, the property of like-pole repulsion of neodymium magnets is creatively applied to the damping buffer component of the device; through the setting of self-adaptation steering anti-sway mechanism, creatively provides the rotation power supply for storehouse bars formula semitrailer itself, make storehouse bars formula semitrailer itself can do the adaptability before the turn and rotate, reach the purpose that the cooperation traction head together carried out stable turn, the difficult technical problem that takes place to sway when having solved the storehouse bars formula semitrailer that prior art is difficult to solve turns has been solved, all-round electrostatic absorption and no power source reciprocating action have been realized, the splash power recycles that splashes, waste water automatic collection and unpowered discharge integration, magnetic force effect formula ceiling automatic control, trailer self-adaptation steering anti-sway's multiple function.

The technical scheme adopted by the invention is as follows: the invention relates to a self-compensation full-coverage adsorption and wastewater collection and passive discharge integrated trailer, which consists of an intermediary intervention type passive all-dimensional electrostatic adsorption mechanism, a self-compensation type reuse and unpowered discharge integrated mechanism, an intermediary repulsion force conversion buffer mechanism, a magnetomotive force top coverage rate adaptive change mechanism, an adaptive support auxiliary mechanism, an adaptive steering anti-swing mechanism, a reciprocating action type cleaning mechanism, a trailer base, a traction connecting part and a trailer shielding fence, wherein the magnetomotive force top coverage rate adaptive change mechanism is arranged on the trailer base, the self-compensation type reuse and unpowered discharge integrated mechanism is arranged on the trailer base, the intermediary intervention type passive all-dimensional electrostatic adsorption mechanism is arranged on the magnetomotive force top coverage rate adaptive change mechanism, the intermediary repulsion force conversion buffer mechanism trailer is distributed on two sides of the trailer base, so as to buffer impact forces on two sides in the process of subsequent transportation, the adaptive steering anti-swing mechanism is arranged at the bottom of a trailer base to provide a rotating power source for a bin gate type semitrailer, and solves the technical problem that the bin gate type semitrailer swings during turning, which is difficult to solve in the prior art, the adaptive support auxiliary mechanism is arranged at the bottom of the trailer base to conveniently provide support for the trailer base when in idle, a trailer shielding fence is arranged on the trailer base, a reciprocating action type cleaning mechanism is arranged on the trailer base and is arranged in the trailer shielding fence, a traction connecting part is arranged on the trailer base and is used for connecting the trailer base and a traction vehicle head, the magnetomotive top coverage rate adaptive change mechanism consists of a magnetomotive top coverage rate adjusting unit, a top shielding tarpaulin, a shielding adjusting roller and a torsional spring, the magnetomotive top coverage rate adjusting unit is arranged at two sides of the trailer shielding fence, the shielding adjusting roller is arranged between the magnetomotive top coverage rate adjusting units, the torsional spring is installed in sheltering from adjusting cylinder's epaxial, the top is sheltered from the tarpaulin parcel and is located on sheltering from adjusting cylinder, intervention formula repulsion conversion buffer gear is equipped with two sets ofly, magnetomotive force top coverage rate regulating unit is equipped with two sets ofly, the all-round electrostatic adsorption mechanism of intermediary's intervention formula passive form is when having realized that the top shelters from the all-round dust removal in tarpaulin top clean, the technological breakthrough of no direct power supply has been realized again, the energy distribution burden of trailer traction head has been alleviateed, the contradictory technical problem of sheltering from under the unpowered source condition that prior art is difficult to solve to the top and sheltering from tarpaulin itself and carry out dustproof adsorption treatment has been overcome breakthroughly.

Furthermore, the intermediary intervention type passive omnibearing electrostatic adsorption mechanism of the device consists of an electrostatic filling maintaining layer, an unlimited motion roller, an electrostatic adsorption wrapping layer, a top supporting platform and an electrostatic adsorption movement auxiliary unit, wherein the electrostatic adsorption movement auxiliary unit is arranged on the magnetomotive top coverage rate adjusting unit, the top supporting platform is arranged on the electrostatic adsorption movement auxiliary unit, the electrostatic filling maintaining layer is arranged at the bottom of the top supporting platform, the unlimited motion roller is arranged on the electrostatic adsorption movement auxiliary unit, the electrostatic adsorption wrapping layer is arranged on the outer side wall of the unlimited motion roller, the electrostatic adsorption movement auxiliary unit comprises an unlimited motion roller, an unlimited motion shaft, a roller sliding cavity, a wheel shaft movement through groove, a roller sliding supporting shell, a miniature electric cylinder, a lifting fine tuning slider, a lifting fine tuning connecting groove, a lifting fine tuning movement shell and a top lifting connecting crank arm, a roller sliding support shell is fixedly connected to the magnetomotive top coverage rate adjusting unit, a roller sliding cavity is arranged on the roller sliding support shell, an unlimited movable roller is embedded and slidably arranged in the roller sliding cavity, a wheel shaft moving through groove is arranged on the side wall of the roller sliding support shell in a penetrating way, the roller sliding cavity is communicated with the wheel shaft moving through groove, one end of the unlimited movable shaft is arranged on the unlimited movable roller, the other end of the unlimited movable shaft is movably arranged on the wheel shaft moving through groove and fixedly connected to an unlimited movable roller, a lifting fine-tuning movable shell is fixedly connected to the roller sliding support shell, one end of a top lifting connecting crank arm is arranged on the lifting fine-tuning movable shell in a penetrating way, the other end of the top lifting connecting crank arm is fixedly connected to a top support platform, a lifting fine-tuning connecting groove is arranged on the side wall of the lifting fine-tuning movable shell in a penetrating way, and a miniature electric cylinder is arranged on the outer side wall of the lifting fine-tuning movable shell, the one end of lift fine setting slider is located on the top lift connects the crank arm, the other end of lift fine setting slider is removed and is run through on the output of lift fine setting spread groove and locating miniature electronic jar, electrostatic adsorption removes auxiliary unit and is equipped with two sets ofly, in the design theory of the all-round electrostatic adsorption mechanism of intermediary's intervention formula passive form is fused into with electrostatic adsorption in a flexible way, and the vibrational force that the tractor that has utilized the trailer ingeniously drives the trailer and produce in the transit, shelter from the clear power supply of tarpaulin reciprocating sliding with this vibrational force as to the top, when having realized that the top shelters from the all-round dust removal in tarpaulin top, the technological breakthrough of no direct power supply has been realized again, the energy distribution burden of trailer tractor is lightened.

Preferably, the self-compensating recycling and unpowered discharging integrated mechanism consists of a wrapping type waste water flowing shell, a self-discharging siphon U-shaped pipe, a sealing ring, a corrugated expansion pipe, a waste water recovering shell, a waste water recovering cavity, a corrugated pipe placing groove, a power conversion small water wheel, a water wheel connecting rotating shaft, a water wheel stabilizing plate, a generator, a first belt wheel, a second belt wheel and a conveying belt, wherein the waste water recovering shell is arranged on a trailer base, the waste water recovering cavity is arranged on the waste water recovering shell, the self-discharging siphon U-shaped pipe is installed on the waste water recovering shell in a penetrating way, one end of the self-discharging siphon U-shaped pipe is arranged in the waste water recovering cavity, the other end of the self-discharging siphon U-shaped pipe extends to the outer side of the waste water recovering shell, the sealing ring is installed at the junction of the self-discharging siphon U-shaped pipe penetrating on the waste water recovering shell, the corrugated expansion pipe is arranged on the self-discharging siphon U-shaped pipe, the corrugated pipe placing groove is arranged on the side wall of the trailer base, the corrugated expansion pipe is embedded on the corrugated pipe placing groove, the wrapping type wastewater flowing shell is fixedly connected on the wastewater recycling shell, the water wheel connecting rotating shaft is arranged on the wrapping type wastewater flowing shell in a penetrating and rotating mode, the power conversion small water wheel array is arranged on the water wheel connecting rotating shaft, the water wheel stabilizing plate is fixedly connected on the inner side wall of the wrapping type wastewater flowing shell, the water wheel connecting rotating shaft is arranged on the water wheel stabilizing plate in a penetrating and rotating mode, the generator is arranged on the wastewater recycling shell, the belt wheel I is arranged at one end of the water wheel connecting rotating shaft, the belt wheel II is arranged on the generator, the conveying belt is arranged on the belt wheel I and the belt wheel II, two groups of self-compensation type recycling and unpowered discharging integrated mechanisms are arranged, the self-compensation type recycling and unpowered discharging integrated mechanism is arranged, and the acting force of water spray generated when a high-pressure water gun nozzle impacts on a fence structure during cleaning is fully recycled, the device has the advantages that the harmful part on the surface that the splash moving at high speed splashes is amplified in a breakthrough manner, the impact force is used for generating electricity, the effect of automatically draining water from a high position to a low position based on the siphon principle is ingeniously utilized, the reasonable utilization of the huge acting force of the splashed splash is completed under the condition that the cleaning effect is not influenced, the siphon principle is combined, and the automatic collection and unpowered discharge of the waste water after cleaning are realized through the self-discharge siphon U-shaped pipe, the waste water recovery cavity and the wrapping type waste water flowing shell.

Wherein, the magnetomotive top coverage rate adjusting unit of the device consists of a vertically moving iron block, a coverage rate adjusting guide support frame, an external connecting moving column, a vertically moving cavity, a vertically moving connecting groove, an electromagnet I, a coverage rate adjusting cushion pad I, an electromagnet II, a coverage rate adjusting cushion pad II, a coverage rate adjusting transmission rod, a transmission inclined sliding groove, a horizontally moving cavity, a horizontally moving outer connecting groove, a horizontally moving slide block and a horizontally moving transmission column, the coverage rate adjusting guide support frame is arranged on a trailer base, the vertically moving cavity is arranged on the coverage rate adjusting guide support frame, the vertically moving connecting groove is arranged on the side wall of the coverage rate adjusting guide support frame, the vertically moving connecting groove is communicated with the vertically moving cavity, the vertically moving iron block is embedded and slidably arranged on the vertically moving cavity, the electromagnet I is arranged at the top of the vertically moving cavity, and the electromagnet II is arranged at the bottom of the vertically moving cavity, the magnetic adsorption force of the electromagnet I and the electromagnet II is used for driving the vertical moving iron block to move, the coverage rate adjusting buffer cushion I is arranged on the electromagnet I, the coverage rate adjusting buffer cushion II is arranged on the electromagnet II and is used for preventing the vertical moving iron block from directly impacting on the electromagnet I and the electromagnet II to cause damage, one end of an external connecting moving column is arranged on the vertical moving iron block, the other end of the external connecting moving column is movably penetrated on a vertical moving connecting groove, a coverage rate adjusting and transmitting rod is fixedly connected on the external connecting moving column, a transmitting inclined sliding groove is arranged on the coverage rate adjusting and transmitting rod, a horizontal moving cavity is arranged in a coverage rate adjusting and guiding support frame, a horizontal moving outer side connecting groove is arranged on the side wall of the coverage rate adjusting and guiding support frame, the horizontal moving cavity is communicated with the horizontal moving outer side connecting groove, a horizontal moving slide block is embedded and slidably arranged on the horizontal moving cavity, and a horizontal moving transmission column is embedded and slidably arranged on the horizontal moving outer side connecting groove, the one end rigid coupling of horizontal motion transmission post is on the horizontal migration slider, the other end gomphosis of horizontal motion transmission post slides and locates on the transmission slope sliding tray, the top shelters from on the tarpaulin one end winding is located and is sheltered from the adjust cylinder, the top shelters from the tarpaulin the other end and locates on the horizontal migration slider, the both ends that shelter from the adjust cylinder are rotated and are located between the coverage rate regulation direction support frame, gyro wheel slip support shell rigid coupling is on the coverage rate regulation direction support frame, utilize the adsorption affinity of electromagnet one and electromagnet two to replace complicated mechanical transmission structure, the technical problem that the top that prior art is difficult to solve shelters from tarpaulin automatic expansion and packing up has been solved ingeniously.

Wherein, the reciprocating action type cleaning mechanism consists of a reciprocating gear, a reciprocating rotating shaft, a cleaning support upright post, a reciprocating rack, an upper end driving gear, a lower end driving gear, a rack guide rail, a sector gear, a reciprocating action swing rod, a waist-shaped groove, a reciprocating action sliding block, an annular nozzle, a pressurized water pipe mounting head, a nozzle reciprocating motion connecting rod, an auxiliary turntable, a turntable rotating shaft and a reciprocating action driving motor, the cleaning support upright post is fixedly connected in a trailer shielding fence, the reciprocating action driving motor is arranged on the cleaning support upright post, the turntable rotating shaft is arranged on the output end of the reciprocating action driving motor, the auxiliary turntable is arranged on the turntable rotating shaft, the reciprocating action sliding block is arranged on the auxiliary turntable, the reciprocating action swing rod is hinged on the cleaning support upright post, the waist-shaped groove is arranged on the reciprocating action swing rod, the reciprocating action sliding block is arranged in the waist-shaped groove, the sector gear is fixedly connected on the reciprocating action swing rod, the rack guide rail is arranged on the cleaning support upright post, the reciprocating rack is embedded and slidably arranged on the rack guide rail, the upper end transmission gear is arranged on the reciprocating rack, the lower end transmission gear is arranged on the reciprocating rack, the reciprocating rotating shaft is rotatably arranged on the cleaning support upright post, the reciprocating gear is arranged on the reciprocating rotating shaft, the nozzle reciprocating motion connecting rod is fixedly connected to the reciprocating rotating shaft, the pressurizing water pipe mounting head is fixedly connected to the nozzle reciprocating motion connecting rod, the annular nozzle is arranged on the pressurizing water pipe mounting head, the lower end transmission gear and the fan-shaped gear are connected in a meshed mode, and the upper end transmission gear and the reciprocating gear are connected in a meshed mode.

Preferably, the intervening repulsion force conversion buffer mechanism comprises a neodymium magnet I, a neodymium magnet II, a neodymium magnet III, a neodymium magnet IV, a buffer guide rod I, a buffer guide rod II, a buffer slide block I, a buffer slide block II, a buffer stop block I, a buffer stop block II, a buffer swing rod I, a buffer swing rod II, an impact contact platform, a buffer bag, non-Newtonian fluid, an impact horizontal guide rod, an impact horizontal guide rail and a buffer operation groove, wherein the buffer operation groove is formed in the side wall of the trailer base, the buffer stop block I is fixedly connected to the buffer operation groove, the buffer guide rod I is arranged on the buffer stop block I, the neodymium magnet I is arranged on the buffer guide rod I in a penetrating and sliding manner, the buffer slide block I is fixedly connected to the neodymium magnet I, the neodymium magnet II is fixedly connected to the buffer operation groove, the magnetic poles of the opposite surfaces of the neodymium magnet I and the neodymium magnet II are the same, the impact horizontal guide rail is arranged on the buffer operation groove, an impact horizontal guide rod is embedded and slidably arranged on an impact horizontal guide rail, an impact contact table is fixedly connected to the impact horizontal guide rod, one end of a first buffer swing rod is hinged to a first buffer sliding block, the other end of the first buffer swing rod is hinged to the impact contact table, a second buffer limiting block is fixedly connected to a buffer operation groove, a second buffer guide rod is arranged on a second buffer limiting block, a third neodymium magnet is penetratingly and slidably arranged on the first buffer guide rod, a second buffer sliding block is penetratingly and slidably arranged on the second buffer guide rod, the second buffer sliding block is fixedly connected to the third neodymium magnet, the fourth neodymium magnet is fixedly connected to the buffer operation groove, opposite magnetic poles of the third neodymium magnet and the fourth neodymium magnet are the same, one end of the second buffer swing rod is hinged to the second buffer sliding block, the other end of the second buffer swing rod is hinged to the impact contact table, a buffer bag is arranged on the impact contact table, non-Newtonian fluid is filled in the buffer bag, and the arrangement of the buffer mechanism is converted through an intervening repulsion force, the neodymium magnet like-pole repulsion property is creatively applied to the damping and buffering part of the device.

Preferably, the self-adaptive steering anti-swing mechanism comprises a first steering adjusting gear, a second steering adjusting gear, a steering operation groove, a rotating adjusting motor, a first steering rotating shaft, a second steering rotating shaft, a moving wheel, a wheel body baffle cover and a steering platform, wherein the steering operation groove is arranged on the trailer base, the second steering rotating shaft is rotatably arranged on the steering operation groove, the steering platform is fixedly connected on the second steering rotating shaft, the rotating adjusting motor is arranged on the steering operation groove, the first steering rotating shaft is arranged on the output end of the rotating adjusting motor, the first steering adjusting gear is arranged on the first steering rotating shaft, the second steering adjusting gear is arranged on the second steering rotating shaft, the first steering adjusting gear and the second steering adjusting gear are in meshing connection, the moving wheel is rotatably arranged on the steering platform, the wheel body baffle cover is fixedly connected on the steering platform, the wheel body baffle cover is arranged on the top of the moving wheel in a shielding manner, and the self-adaptive steering anti-swing mechanism is arranged, the rotary power source is creatively provided for the storehouse fence type semi-trailer, so that the storehouse fence type semi-trailer can adaptively rotate before turning, and the aim of stably turning together by matching with the traction head is fulfilled.

Furthermore, the adaptive support auxiliary mechanism of the device consists of a support auxiliary operation groove, a double-rod guide rail, a support adjusting electric cylinder I, a support adjusting electric cylinder II, an electric cylinder connection sliding table I, an electric cylinder connection sliding table II, a support auxiliary sliding block I, a support auxiliary sliding block II, an adaptive guide chute I, an adaptive guide chute II, a support adjusting plate, a ground contact upright post and an upright post guide rod, wherein the support auxiliary operation groove is arranged on the trailer base, the double-rod guide rail is arranged on the support auxiliary operation groove, the support adjusting electric cylinder I is arranged on the support auxiliary operation groove, the electric cylinder connection sliding table I is embedded and slidably arranged on the double-rod guide rail, the support auxiliary sliding block I is arranged on the electric cylinder connection sliding table I, the support adjusting electric cylinder II is arranged on the support auxiliary operation groove, the electric cylinder connection sliding table II is embedded and slidably arranged on the double-rod guide rail, the stand guide bar rigid coupling is on supporting supplementary fortune groove, and on the ground contact stand gomphosis slided and locates the stand guide bar, support the regulating plate rigid coupling on ground contact stand, on adaptive guide chute runs through to locate and supports the regulating plate, on adaptive guide chute two runs through to locate and supports the regulating plate, support on supplementary slider gomphosis slide and locate adaptive guide chute one, support on supplementary slider two gomphosis slide locates adaptive guide chute two.

Wherein the generator is electrically connected to the reciprocating action drive motor.

Preferably, the electrostatic adsorption wrapping layer and the electrostatic filling maintaining layer are made of chemical fiber materials, and static electricity is easily generated.

Furthermore, reciprocating action driving motor is waterproof motor, and coverage rate regulation direction support frame, external connection remove the post, coverage rate regulation transfer bar, horizontal migration slider and horizontal motion transfer post are the non-metallic material, do not receive the influence of electromagnet one, electromagnet two.

The invention with the structure has the following beneficial effects: the scheme is that the self-compensation full-coverage adsorption, wastewater collection and passive discharge integrated trailer creatively combines and applies the technical theories of a pretreatment principle (an object is placed at the most convenient position in advance so as to be immediately put into use) and a medium principle (an intermediate object is used for transmitting or executing an action) to the technical field of the trailer by the arrangement of a medium intervention type passive all-directional electrostatic adsorption mechanism under the condition of no direct power source such as a motor and other sensors, flexibly integrates the electrostatic adsorption into the design concept of the medium intervention type passive all-directional electrostatic adsorption mechanism, skillfully utilizes the vibration force generated by a traction head of the trailer in the transportation process, uses the vibration force as a power source for reciprocating sliding and cleaning the top shielding tarpaulin, realizes the all-directional dust removal and cleaning of the top shielding tarpaulin at the top, the technical breakthrough of no direct power source is realized, the energy distribution burden of the trailer traction head is reduced, and the technical problem that the dustproof adsorption treatment is carried out on the top shielding tarpaulin under the condition of no power source, which is difficult to solve in the prior art, is overcome in a breakthrough manner; under the condition of no intervention of any water discharge regulating equipment, drainage machines such as a water pump and the like and other sensors, the technical theory of changing harm into benefit principle (obtaining positive effect by utilizing harmful factors) is creatively introduced into the design concept of a self-compensation type recycling and unpowered discharge integrated mechanism, the acting force of splashing water flowers generated by impacting a high-pressure water gun nozzle on a fence structure during cleaning is fully recycled, the harm on the surface of splashing water flowers moving at high speed is amplified in a breakthrough manner, the impact force is used for power generation, the effect of automatically discharging water from a high place to a low place by utilizing the siphon principle is ingeniously utilized, the reasonable utilization of the huge acting force of the splashing water flowers is completed under the condition of not influencing the cleaning effect, and the automatic collection and unpowered discharge of the waste water after cleaning are realized by combining the siphon principle and through a self-discharge siphon U, a waste water recovery cavity and a wrapping type waste water flow shell, the technical difficulties that the prior art cannot solve in the process of cleaning the bin grid type semitrailer, such as the reuse of splashed water splash, the automatic collection of the cleaned wastewater and the unpowered discharge, are overcome; through the arrangement of the magnetomotive top coverage rate adaptive change mechanism, under the condition of no introduction of any mechanical lifting mechanism, the technical theory of replacing a mechanical system principle (replacing a mechanical system by the interaction of an electric field, an electromagnetic field or an electromagnetic field and an object) is creatively applied to the technical field of trailers, the adsorption force of the electromagnet I and the electromagnet II is used for replacing a complex mechanical transmission structure, and the technical problem that the top shielding tarpaulin is automatically unfolded and folded, which is difficult to solve in the prior art, is ingeniously solved; through the arrangement of the intervention type repulsion force conversion buffer mechanism, the property of like-pole repulsion of neodymium magnets is creatively applied to the damping buffer component of the device; through the setting of self-adaptation steering anti-sway mechanism, creatively provides the rotation power supply for storehouse bars formula semitrailer itself, make storehouse bars formula semitrailer itself can do the adaptability before the turn and rotate, reach the purpose that the cooperation traction head together carried out stable turn, the difficult technical problem that takes place to sway when having solved the storehouse bars formula semitrailer that prior art is difficult to solve turns has been solved, the reciprocal effect of all-round electrostatic absorption unpowered source has been realized, the splash power recycles, waste water automatic collection and unpowered discharge integration, magnetic force effect formula ceiling automatic control, trailer self-adaptation steering anti-sway's multiple function.

Drawings

FIG. 1 is a schematic front view of a self-compensating full-coverage adsorption and wastewater collection and passive discharge integrated trailer according to the present invention;

FIG. 2 is a left side view of the self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer de-intrusive repulsion transfer buffer mechanism, adaptive steering anti-sway mechanism and adaptive support assist mechanism of the present invention;

FIG. 3 is a left side sectional view of the removal intervention type repulsion force transfer buffer mechanism, the adaptive steering anti-sway mechanism and the adaptive support assist mechanism of the self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of the present invention;

FIG. 4 is a schematic view of the self-compensating full-coverage absorption and wastewater collection and passive discharge integrated trailer with the integrated mechanism for self-compensating removal, reuse and unpowered discharge and the intervening repulsion force conversion buffer mechanism;

FIG. 5 is a schematic diagram of the reciprocating cleaning mechanism of the self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of the present invention;

FIG. 6 is a cross-sectional view of the reciprocating action cleaning mechanism of the self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of the present invention;

FIG. 7 is a left side sectional view of the intervention type repulsion force conversion buffer mechanism and trailer base of the self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of the present invention;

FIG. 8 is a top cross-sectional view of the self-compensating, full-coverage, adsorption and wastewater collection and passive discharge integrated trailer self-compensating, reuse and unpowered discharge integrated mechanism of the present invention;

FIG. 9 is a cross-sectional view of the magnetomotive top coverage adaptive change mechanism of the self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of the present invention;

FIG. 10 is a top view of the annular spray head, pressurized water line mounting head and spray head reciprocating link of the self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of the present invention;

FIG. 11 is a cross-sectional view of the trailer bed, adaptive steering anti-sway mechanism and adaptive support assist mechanism of the self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of the present invention;

FIG. 12 is a schematic diagram of the adaptive support assist mechanism of the de-support assist chute of the self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of the present invention;

FIG. 13 is a cross-sectional view of the adaptive support assist mechanism of the de-support assist chute of the self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of the present invention;

fig. 14 is a partially enlarged view of a portion a of fig. 2;

fig. 15 is a partial enlarged view of a portion B of fig. 3;

fig. 16 is a partial enlarged view of a portion C of fig. 3;

fig. 17 is a partial enlarged view of a portion D of fig. 4;

fig. 18 is a partially enlarged view of a portion E of fig. 7.

The system comprises a self-compensation type recycling and unpowered discharge integrated mechanism, a medium intervention type passive all-dimensional electrostatic adsorption mechanism, a magnetomotive top coverage rate adaptive change mechanism, a medium intervention type repulsion force conversion buffer mechanism, a 5 self-adaptive steering anti-swing mechanism, a 6 adaptive support auxiliary mechanism, a 7 reciprocating action type cleaning mechanism, a 8 trailer base, a 9 traction connecting part, a 10 trailer shielding fence, a 11 magnetomotive top coverage rate adjusting unit, a 12 top shielding tarpaulin, a 13 shielding adjusting roller, a 14, a torsion spring, a 15 self-discharge siphon U-shaped pipe, a 16, a corrugated telescopic pipe, a 17, a sealing ring, 18, a wastewater recovery shell, a 19, a wastewater recovery cavity, a 20, a wrapping type wastewater flow shell, a 21, a corrugated pipe placing groove, a 22, a small power conversion part, a 23, a water wheel connecting rotating shaft, a 24 water wheel, a water wheels, a water pump, a water, A water wheel stabilizing plate 25, a generator 26, a first belt wheel 27, a second belt wheel 28, a conveying belt 29, an electrostatic adsorption wrapping layer 30, an unlimited motion roller 31, an electrostatic filling maintaining layer 32, a top supporting platform 33, an electrostatic adsorption movement auxiliary unit 34, an unlimited motion roller 35, an unlimited motion shaft 36, a roller sliding cavity 37, a wheel shaft moving through groove 38, a roller sliding supporting shell 39, a micro electric cylinder 40, a lifting fine tuning slider 41, a lifting fine tuning connecting groove 42, a lifting fine tuning moving shell 43, a top lifting connecting crank arm 44, a first electromagnet 45, a coverage rate adjusting cushion pad I46, a second electromagnet 47, a coverage rate adjusting cushion II 48, a vertical moving iron block 49, a coverage rate adjusting guide supporting frame 50, an external connecting moving column 51 and a vertical moving cavity, 52. a vertically moving connecting groove 53, a coverage adjusting transfer rod 54, a transfer inclined sliding groove 55, a horizontally moving chamber 56, a horizontally moving outer connecting groove 57, a horizontally moving slider 58, a horizontally moving transfer column 59, a neodymium magnet I, 60, a neodymium magnet II, 61, a neodymium magnet III, 62, a neodymium magnet IV, 63, a buffer guide rod I, 64, a buffer guide rod II, 65, a buffer slider I, 66, a buffer slider II, 67, a buffer stopper I, 68, a buffer stopper II, 69, a buffer swing rod I, 70, a buffer swing rod II, 71, an impact contact table 72, a buffer bag 73, a non-Newtonian fluid 74, an impact horizontal guide rod 75, an impact horizontal guide rail 76, a buffer operation groove 77, a ring-shaped nozzle 78, a pressurized water pipe mounting head 79, a nozzle reciprocating link rod 80, a reciprocating gear 81, a reciprocating rotation shaft 82, a cleaning support column, 83. a reciprocating rack 84, an upper end driving gear 85, a lower end driving gear 86, a rack guide rail 87, a sector gear 88, a reciprocating action swing rod 89, a kidney-shaped groove 90, a reciprocating action slider 91, an auxiliary turntable 92, a turntable rotating shaft 93, a reciprocating action driving motor 94, a steering action groove 95, a rotation adjusting motor 96, a steering adjusting gear I97, a steering adjusting gear II 98, a steering rotating shaft I99, a steering rotating shaft II 100, a moving wheel 101, a wheel body blocking cover 102, a steering table 103, a supporting auxiliary action groove 104, a double-rod guide rail 105, a supporting adjusting electric cylinder I106, a supporting adjusting electric cylinder II 107, an electric cylinder connecting sliding table I108, an electric cylinder connecting sliding table II 109, a supporting auxiliary slider I110, a supporting auxiliary slider II 111, an adaptive guide chute I112, an adaptive guide chute II, 113. support adjusting plates 114, ground contact columns 115 and column guide rods.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

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

As shown in figures 1 and 3, the self-compensation full-coverage adsorption and wastewater collection and passive discharge integrated trailer of the invention comprises an intermediary intervention type passive all-directional electrostatic adsorption mechanism 2, a self-compensation type reuse and unpowered discharge integrated mechanism 1, an intermediary repulsion force conversion buffer mechanism 4, a magnetomotive force top coverage rate adaptive change mechanism 3, an adaptive support auxiliary mechanism 6, an adaptive steering anti-swing mechanism 5, a reciprocating action type cleaning mechanism 7, a trailer base 8, a traction connecting part 9 and a trailer shielding fence 10, wherein the magnetomotive force top coverage rate adaptive change mechanism 3 is arranged on the trailer base 8, the self-compensation type reuse and unpowered discharge integrated mechanism 1 is arranged on the trailer base 8, the intermediary intervention type passive all-directional electrostatic adsorption mechanism 2 is arranged on the magnetomotive force top coverage rate adaptive change mechanism 3, the intermediary repulsion force conversion buffer mechanisms 4 are distributed on two sides of the trailer base 8, the self-adaptive steering anti-swing mechanism 5 is installed at the bottom of a trailer base 8, provides a rotating power source for a bin grid type semitrailer and solves the technical problem that the bin grid type semitrailer which is difficult to solve in the prior art swings during turning, an adaptive support auxiliary mechanism 6 is installed at the bottom of the trailer base 8 and conveniently supports the trailer base 8 when the trailer is idle, a trailer shielding fence 10 is arranged on the trailer base 8, a reciprocating cleaning mechanism 7 is arranged on the trailer base 8, the reciprocating cleaning mechanism 7 is arranged in the trailer shielding fence 10, a traction connecting part 9 is installed on the trailer base 8 and used for connecting the trailer base 8 with a traction vehicle head, and the magnetic top coverage adaptive change mechanism 3 is composed of a magnetic top coverage adjusting unit 11, a top shielding tarpaulin 12, The shielding and adjusting roller 13 and the torsion spring 14 are formed, the magnetomotive top coverage adjusting unit 11 is arranged at two sides of the shielding fence 10 of the trailer, the shielding and adjusting roller 13 is arranged between the magnetomotive top coverage adjusting units 11, the torsion spring 14 is arranged on the shaft of the shielding and adjusting roller 13, the top shielding tarpaulin 12 is wrapped on the shielding and adjusting roller 13, the intervening repulsion force conversion buffer mechanisms 4 are arranged in two groups, the magnetomotive top coverage adjusting units 11 are arranged in two groups, the intervening intervention type passive all-directional electrostatic adsorption mechanism 2 realizes all-directional dust removal and cleaning of the top shielding tarpaulin 12, the technical breakthrough of no direct power source is realized, the energy distribution burden of the trailer traction head is lightened, and the technical problem that the dustproof adsorption treatment is carried out on the top shielding tarpaulin 12 under the condition of no power source, which is difficult to solve in the prior art, is overcome in a breakthrough manner.

As shown in FIGS. 2-3, the intermediate intervention passive type omnibearing electrostatic adsorption mechanism 2 of the device comprises an electrostatic filling maintaining layer 31, an unlimited motion roller 30, an electrostatic adsorption wrapping layer 29, a top supporting platform 32 and an electrostatic adsorption moving auxiliary unit 33, wherein the electrostatic adsorption moving auxiliary unit 33 is arranged on a magnetomotive top coverage rate adjusting unit 11, the electrostatic adsorption moving auxiliary unit 33 is provided with two groups, the top supporting platform 32 is arranged on the electrostatic adsorption moving auxiliary unit 33, the electrostatic filling maintaining layer 31 is arranged at the bottom of the top supporting platform 32, the unlimited motion roller 30 is arranged on the electrostatic adsorption moving auxiliary unit 33, the electrostatic adsorption wrapping layer 29 is arranged on the outer side wall of the unlimited motion roller 30, the electrostatic adsorption moving auxiliary unit 33 comprises an unlimited motion roller 34, an unlimited motion shaft 35, a roller sliding cavity 36, a wheel shaft moving through groove 37, A roller sliding support shell 38, a micro electric cylinder 39, a lifting fine adjustment slide block 40, a lifting fine adjustment connecting groove 41, a lifting fine adjustment moving shell 42 and a top lifting connecting crank arm 43, wherein the roller sliding support shell 38 is fixedly connected to the magnetomotive top coverage adjusting unit 11, a roller sliding cavity 36 is arranged on the roller sliding support shell 38, an unlimited moving roller 34 is embedded and slidably arranged in the roller sliding cavity 36, a wheel shaft moving through groove 37 is arranged on the side wall of the roller sliding support shell 38 in a penetrating way, the roller sliding cavity 36 is communicated with the wheel shaft moving through groove 37, one end of an unlimited moving shaft 35 is arranged on the unlimited moving roller 34, the other end of the unlimited moving shaft 35 is movably penetrated through the wheel shaft moving through groove 37 and fixedly connected to the unlimited moving roller 30, the lifting fine adjustment moving shell 42 is fixedly connected to the roller sliding support shell 38, one end of the top lifting connecting crank arm 43 is penetrated through and slidably arranged on the lifting fine adjustment moving shell 42, the other end of the top lifting connecting crank arm 43 is fixedly connected to the top supporting platform 32, the lifting fine-tuning connecting groove 41 is arranged on the side wall of the lifting fine-tuning moving shell 42 in a penetrating manner, the micro electric cylinder 39 is arranged on the outer side wall of the lifting fine-tuning moving shell 42, one end of the lifting fine-tuning sliding block 40 is arranged on the top lifting connecting crank arm 43, the other end of the lifting fine-tuning sliding block 40 is movably arranged on the output end of the micro electric cylinder 39, the electrostatic adsorption is flexibly integrated into the design concept of the intermediary intervention type passive all-dimensional electrostatic adsorption mechanism 2, the vibration force generated by the trailer driven by the traction head of the trailer in the transportation process is skillfully utilized, the vibration force is used as a power source for cleaning the top shielding tarpaulin 12 in a reciprocating sliding manner, the all-dimensional dust removal cleaning of the top shielding tarpaulin 12 is realized, and the technical breakthrough of no direct power source is realized, the energy distribution burden of the trailer traction head is reduced.

As shown in fig. 4, 9 and 17, the device requires that a vertical moving iron block 48, a coverage adjusting guide support bracket 49, an external connecting moving column 50, a vertical moving cavity 51, a vertical moving connecting groove 52, a first electromagnet 44, a first coverage adjusting buffer 45, a second electromagnet 46, a second coverage adjusting buffer 47, a coverage adjusting transmission rod 53, a transmission inclined sliding groove 54, a horizontal moving cavity 55, a horizontal moving outer connecting groove 56, a horizontal moving slide block 57 and a horizontal moving transmission column 58 are arranged in the magnetomotive top coverage adjusting unit 11, the coverage adjusting guide support bracket 49 is arranged on the trailer base 8, the vertical moving cavity 51 is arranged on the coverage adjusting guide support bracket 49, the vertical moving connecting groove 52 is arranged on the side wall of the coverage adjusting guide support bracket 49, the vertical moving connecting groove 52 is communicated with the vertical moving cavity 51, the vertical moving iron block 48 is embedded and slidably arranged on the vertical moving cavity 51, the electromagnet I44 is arranged at the top of the vertical moving cavity 51, the electromagnet II 46 is arranged at the bottom of the vertical moving cavity 51, the vertical moving iron block 48 is driven to move by the magnetic attraction force of the electromagnet I44 and the electromagnet II 46, the coverage rate adjusting buffer cushion I45 is arranged on the electromagnet I44, the coverage rate adjusting buffer cushion II 47 is arranged on the electromagnet II 46 to prevent the vertical moving iron block 48 from directly impacting on the electromagnet I44 and the electromagnet II 46 to cause damage, one end of the external connecting moving column 50 is arranged on the vertical moving iron block 48, the other end of the external connecting moving column 50 is movably penetrated on the vertical moving connecting groove 52, the coverage rate adjusting transmission rod 53 is fixedly connected on the external connecting moving column 50, the transmission inclined sliding groove 54 is arranged on the coverage rate adjusting transmission rod 53, the horizontal moving cavity 55 is arranged in the coverage rate adjusting guide support frame 49, the horizontal moving outer connecting groove 56 is arranged on the side wall of the coverage rate adjusting guide support frame 49, the horizontal moving cavity 55 is communicated with the horizontal moving outer connecting groove 56, the horizontal moving cavity 55 and the horizontal moving outer connecting groove 56 are hollow cavities on two sides, the horizontal moving sliding block 57 is embedded and slidably arranged on the horizontal moving cavity 55, the horizontal motion transfer column 58 is embedded and slidably arranged on the horizontal moving outer connecting groove 56, one end of the horizontal motion transfer column 58 is fixedly connected on the horizontal moving sliding block 57, the other end of the horizontal motion transfer column 58 is embedded and slidably arranged on the transfer inclined sliding groove 54, one end of the top shielding tarpaulin 12 is wound on the shielding adjusting roller 13, the other end of the top shielding tarpaulin 12 is arranged on the horizontal moving sliding block 57, two ends of the shielding adjusting roller 13 are rotatably arranged between the coverage rate adjusting guide supporting frames 49, the roller sliding supporting shell 38 is fixedly connected on the coverage rate adjusting guide supporting frames 49, and the adsorption force of the electromagnet I44 and the electromagnet II 46 is used for replacing a complex mechanical transmission structure, and skillfully solves the technical problem that the top shielding tarpaulin 12 which is difficult to solve in the prior art is automatically unfolded and folded.

As shown in fig. 2, 3, 8 and 14-16, the self-compensating recycling and unpowered discharging integrated mechanism 1 is composed of a wrapping type waste water flowing shell 20, a self-discharging siphon U-shaped pipe 15, a sealing ring 17, a corrugated expansion pipe 16, a waste water recovering shell 18, a waste water recovering cavity 19, a corrugated pipe placing groove 21, a power conversion small water wheel 22, a water wheel connecting rotating shaft 23, a water wheel stabilizing plate 24, a generator 25, a first belt wheel 26, a second belt wheel 27 and a conveying belt 28, wherein the waste water recovering shell 18 is arranged on a trailer base 8, the waste water recovering cavity 19 is arranged on the waste water recovering shell 18, the self-discharging siphon U-shaped pipe 15 is penetratingly arranged on the waste water recovering shell 18, one end of the self-discharging siphon U-shaped pipe 15 is arranged in the waste water recovering cavity 19, the other end of the self-discharging siphon U-shaped pipe 15 extends to the outer side of the waste water recovering shell 18, the sealing ring 17 is arranged at the junction of the self-discharging siphon U-discharging pipe 15 penetrating on the waste water recovering shell 18, the corrugated expansion pipe 16 is arranged on the self-discharge siphon U-shaped pipe 15, the corrugated pipe placing groove 21 is arranged on the side wall of the trailer base 8, the wrapping type waste water flowing shell 20 is fixedly connected on the waste water recycling shell 18, the water wheel connecting rotating shaft 23 is penetratingly and rotatably arranged on the wrapping type waste water flowing shell 20, the power conversion small water wheels 22 are arranged on the water wheel connecting rotating shaft 23 in an array mode, the water wheel stabilizing plate 24 is fixedly connected on the inner side wall of the wrapping type waste water flowing shell 20, the water wheel connecting rotating shaft 23 is penetratingly and rotatably arranged on the water wheel stabilizing plate 24, the generator 25 is arranged on the waste water recycling shell 18, the belt pulley I26 is arranged at one end of the water wheel connecting rotating shaft 23, the belt pulley II 27 is arranged on the generator 25, the conveying belt 28 is arranged on the belt pulley I26 and the belt II 27, the self-compensation type recycling and unpowered discharge integrated mechanism 1 is provided with two groups, and the self-compensation type recycling and unpowered discharge integrated mechanism 1 is arranged, the acting force that splashes the splash that the high-pressure squirt shower nozzle produced on fence structure when will clean carries out abundant reuse, breakthroughly with the splash that moves at a high speed this harm on the surface is enlargied and is used for this impact force to generate electricity everywhere, the automation that has utilized siphon principle again is used ingeniously from the effect of eminence to low drainage, under the condition that does not influence clean effect, both accomplished the rational utilization of the huge acting force of splash, combine siphon principle again, through self-discharging siphon U-shaped pipe 15, waste water recovery chamber 19, parcel type waste water flows shell 20 and has realized the automatic collection and the unpowered discharge of washing back waste water.

As shown in fig. 1, the bellows 16 is fitted in the bellows mount groove 21.

As shown in fig. 3, 5, 6 and 10, the reciprocating cleaning mechanism 7 is composed of a reciprocating gear 80, a reciprocating rotating shaft 81, a cleaning support upright 82, a reciprocating rack 83, an upper end driving gear 84, a lower end driving gear 85, a rack guide rail 86, a sector gear 87, a reciprocating swing rod 88, a kidney-shaped groove 89, a reciprocating slider 90, a ring-shaped spray head 77, a pressurized water pipe mounting head 78, a spray head reciprocating connecting rod 79, an auxiliary turntable 91, a turntable rotating shaft 92 and a reciprocating driving motor 93, wherein the cleaning support upright 82 is fixedly connected in the trailer shielding fence 10, the reciprocating driving motor 93 is arranged on the cleaning support upright 82, the turntable rotating shaft 92 is arranged on the output end of the reciprocating driving motor 93, the auxiliary turntable 91 is arranged on the turntable rotating shaft 92, the reciprocating slider 90 is arranged on the auxiliary turntable 91, the reciprocating swing rod 88 is hinged on the cleaning support upright 82, the waist-shaped groove 89 is arranged on the reciprocating action swing rod 88, the reciprocating action sliding block 90 is embedded and slidably arranged in the waist-shaped groove 89, the sector gear 87 is fixedly connected on the reciprocating action swing rod 88, the rack guide rail 86 is arranged on the cleaning support upright post 82, the reciprocating rack 83 is embedded and slidably arranged on the rack guide rail 86, the upper end transmission gear 84 is arranged on the reciprocating rack 83, the lower end transmission gear 85 is arranged on the reciprocating rack 83, the reciprocating rotating shaft 81 is rotatably arranged on the cleaning support upright post 82, the reciprocating gear 80 is arranged on the reciprocating rotating shaft 81, the nozzle reciprocating connecting rod 79 is fixedly connected on the reciprocating rotating shaft 81, the pressurized water pipe mounting head 78 is fixedly connected on the nozzle reciprocating connecting rod 79, the annular nozzle 77 is arranged on the pressurized water pipe mounting head 78, the lower end transmission gear 85 is in meshed connection with the sector gear 87, and the upper end transmission gear 84 is in meshed connection with the reciprocating gear 80.

As shown in fig. 1, electrical connection is made between the generator 25 and the reciprocating action drive motor 93.

As shown in fig. 11, the adaptive steering anti-swing mechanism 5 includes a first steering adjustment gear 96, a second steering adjustment gear 97, a steering operation groove 94, a rotation adjustment motor 95, a first steering rotation shaft 98, a second steering rotation shaft 99, a movable wheel 100, a wheel body shield 101 and a steering table 102, the steering operation groove 94 is disposed on the trailer base 8, the second steering rotation shaft 99 is rotatably disposed on the steering operation groove 94, the steering table 102 is fixedly connected to the second steering rotation shaft 99, the rotation adjustment motor 95 is mounted on the steering operation groove 94, the first steering rotation shaft 98 is disposed on the output end of the rotation adjustment motor 95, the first steering adjustment gear 96 is disposed on the first steering rotation shaft 98, the second steering adjustment gear 97 is disposed on the second steering rotation shaft 99, the first steering adjustment gear 96 and the second steering adjustment gear 97 are engaged and connected, the movable wheel 100 is rotatably disposed on the steering table 102, the wheel body shield 101 is fixedly connected to the steering table 102, the wheel body blocking cover 101 is arranged at the top of the movable wheel 100 in a shielding mode, and through the arrangement of the self-adaptive steering anti-swing mechanism 5, a rotating power source is creatively provided for the bin grid type semi-trailer, so that the bin grid type semi-trailer can adaptively rotate before turning, and the purpose of stably turning together by matching with a traction head is achieved.

As shown in fig. 11 to fig. 13, the device requires that a support auxiliary operation groove 103, a double-rod guide rail 104, a support adjustment electric cylinder one 105, a support adjustment electric cylinder two 106, an electric cylinder connection sliding table one 107, an electric cylinder connection sliding table two 108, a support auxiliary sliding block one 109, a support auxiliary sliding block two 110, an adaptive guide chute one 111, an adaptive guide chute two 112, a support adjustment plate 113, a ground contact column 114 and a column guide rod 115 are arranged in the adaptive support auxiliary mechanism 6, the support auxiliary operation groove 103 is arranged on the trailer base 8, the double-rod guide rail 104 is arranged on the support auxiliary operation groove 103, the support adjustment electric cylinder one 105 is arranged on the support auxiliary operation groove 103, the electric cylinder connection sliding table one 107 is embedded and slidably arranged on the double-rod guide rail 104, the support auxiliary sliding block one 109 is arranged on the electric cylinder connection sliding table 107, the support adjustment electric cylinder two 106 is arranged on the support auxiliary operation groove 103, the second electric cylinder connecting sliding table 108 is arranged on the double-rod guide rail 104 in an embedded sliding mode, the second supporting auxiliary sliding block 110 is arranged on the second electric cylinder connecting sliding table 108, the upright post guide rod 115 is fixedly connected to the supporting auxiliary operation groove 103, the ground contact upright post 114 is arranged on the upright post guide rod 115 in an embedded sliding mode, the supporting adjusting plate 113 is fixedly connected to the ground contact upright post 114, the first adaptive guide chute 111 is arranged on the supporting adjusting plate 113 in a penetrating mode, the second adaptive guide chute 112 is arranged on the supporting adjusting plate 113 in a penetrating mode, the first supporting auxiliary sliding block 109 is arranged on the first adaptive guide chute 111 in an embedded sliding mode, and the second supporting auxiliary sliding block 110 is arranged on the second adaptive guide chute 112 in an embedded sliding mode.

As shown in fig. 7 and 18, the intervening repulsion force conversion buffer mechanism 4 is composed of a neodymium magnet one 59, a neodymium magnet two 60, a neodymium magnet three 61, a neodymium magnet four 62, a buffer guide rod one 63, a buffer guide rod two 64, a buffer slide block one 65, a buffer slide block two 66, a buffer stop block one 67, a buffer stop block two 68, a buffer swing rod one 69, a buffer swing rod two 70, an impact contact table 71, a buffer bag 72, non-newtonian fluid 73, an impact horizontal guide rod 74, an impact horizontal guide rail 75 and a buffer operation groove 76, the buffer operation groove 76 is arranged on the side wall of the trailer base 8, the buffer stop block one 67 is fixedly connected to the buffer operation groove 76, the buffer guide rod one 63 is arranged on the buffer stop block one 67, the neodymium magnet one 59 is arranged on the buffer guide rod one 63 in a penetrating and sliding manner, the buffer slide block one 65 is fixedly connected to the neodymium magnet one 59, the neodymium magnet two 60 is fixedly connected to the buffer operation groove 76, the opposite magnetic poles of the neodymium magnet I59 and the neodymium magnet II 60 are the same, the impact horizontal guide rail 75 is arranged on a buffer moving groove 76, the impact horizontal guide rod 74 is embedded and slidably arranged on the impact horizontal guide rail 75, the impact contact table 71 is fixedly connected on the impact horizontal guide rod 74, one end of a buffer swing rod I69 is hinged on a buffer slide block I65, the other end of the buffer swing rod I69 is hinged on the impact contact table 71, a buffer stop block II 68 is fixedly connected on the buffer moving groove 76, a buffer guide rod II 64 is arranged on the buffer stop block II 68, a neodymium magnet III 61 is arranged on the buffer guide rod I63 in a penetrating and sliding manner, the buffer slide block II 66 is arranged on the buffer guide rod II 64 in a penetrating and sliding manner, the buffer slide block II 66 is fixedly connected on the neodymium magnet III 61, a neodymium magnet IV 62 is fixedly connected on the buffer moving groove 76, the opposite magnetic poles of the neodymium magnet III 61 and the neodymium magnet IV 62 are the same, one end of the buffer swing rod II 70 is hinged on the buffer slide block II 66, the other end of the second buffer swing rod 70 is hinged on the impact contact table 71, the buffer bag 72 is arranged on the impact contact table 71, the non-Newtonian fluid 73 is filled in the buffer bag 72, and the nature that like poles of neodymium magnets repel each other is creatively applied to the damping and buffering part of the device through the arrangement of the intervening repulsion force conversion buffer mechanism 4.

As shown in fig. 2, the electrostatic adsorption coating layer 29 and the electrostatic filling maintaining layer 31 are both made of chemical fiber material, and are prone to generate static electricity.

As shown in fig. 3, the reciprocating action driving motor 93 is a waterproof motor, and the coverage adjusting guide support bracket 49, the external connection moving column 50, the coverage adjusting transmission rod 53, the horizontal moving slider 57 and the horizontal movement transmission column 58 are all made of non-metal materials and are not affected by the first electromagnet 44 and the second electromagnet 46.

When the device is used, a user firstly connects and installs the device on the head of a tractor through the traction connecting part 9, then controls the electromagnet I44 to generate magnetic attraction force, so that the vertical moving iron block 48 ascends and slides in the vertical moving cavity 51, then the vertical moving iron block 48 is gradually attracted to the coverage adjusting buffer I45, the damage caused by large impact of the vertical moving iron block 48 is prevented, then the external connecting moving column 50 ascends synchronously with the vertical moving iron block 48 to drive the coverage adjusting transmission rod 53 to ascend, so that the horizontal moving transmission column 58 slides along the transmission inclined sliding groove 54, the horizontal moving transmission column 58 slides on the horizontal moving outer side connecting groove 56, so that when the coverage adjusting transmission rod 53 ascends, the horizontal moving transmission column 58 slides leftwards along the horizontal moving outer side connecting groove 56, so that the horizontal moving slide block 57 synchronously slides in the horizontal moving cavity 55, then the horizontal moving slide block 57 drives the top shelter tarpaulin 12 to move, at this time, the top shelter tarpaulin 12 becomes loose, and due to the setting of the torsion spring 14, the shelter adjusting roller 13 rotates along the trend, the top shelter tarpaulin 12 is wound on the shelter adjusting roller 13, at this time, the trailer shelter fence 10 can be loaded, after the loading is completed, the electromagnet 44 is closed, the electromagnet 46 is started to generate magnetic attraction force, then the vertical moving iron block 48 descends and slides in the vertical moving cavity 51, then the vertical moving iron block 48 is gradually attracted to the coverage adjusting cushion 47, then the external connection moving column 50 descends along with the vertical moving iron block 48 synchronously, the coverage adjusting transmission rod 53 is driven to descend, then the horizontal moving transmission column 58 slides along the transmission inclined sliding groove 54, so that the horizontal moving transmission column 58 slides rightwards along the horizontal moving outer side connection groove 56, the horizontal moving slide block 57 is enabled to synchronously slide in the horizontal moving cavity 55, so that the horizontal moving slide block 57 drives the top shielding tarpaulin 12 to move, at the moment, the top shielding tarpaulin 12 is gradually unfolded, paved and covered on the top of the trailer shielding fence 10, under the condition of no introduction of any mechanical lifting mechanism, the technical theory replacing the mechanical system principle is creatively applied to the technical field of the trailer, the adsorption force of the electromagnet I44 and the electromagnet II 46 is used for replacing a complex mechanical transmission structure, and the technical problem that the top shielding tarpaulin 12 is automatically unfolded and folded, which is difficult to solve in the prior art, is ingeniously solved; during transportation, the tractor head of the trailer frequently drives the trailer base 8 to vibrate, so that the unlimited movable roller 34 slides in a reciprocating manner in the roller sliding cavity 36 and drives the unlimited movable roller 30 to roll in a reciprocating manner through the unlimited movable shaft 35, the miniature electric cylinder 39 is adjusted in advance, the output end of the miniature electric cylinder 39 is controlled to retract to drive the lifting fine adjustment slider 40 to fall, then the top lifting connecting crank arm 43 is driven to slide and fall in the lifting fine adjustment movable shell 42, the top lifting connecting crank arm 43 drives the top supporting platform 32 to synchronously fall until the electrostatic filling maintaining layer 31 contacts the electrostatic absorption wrapping layer 29, the miniature electric cylinder 39 can be closed, then when the unlimited movable roller 30 rolls freely, the electrostatic absorption wrapping layer 29 on the unlimited movable roller 30 is continuously in frictional contact with the electrostatic filling maintaining layer 31, and after the electrostatic filling maintaining layer 31 is in short contact with the electrostatic absorption wrapping layer 29, larger static electricity is attached to the electrostatic adsorption wrapping layer 29, then the output end of the miniature electric cylinder 39 is controlled to extend outwards, so that the electrostatic filling maintaining layer 31 is separated from the electrostatic adsorption wrapping layer 29, the electrostatic filling maintaining layer 31 and the electrostatic adsorption wrapping layer 29 are prevented from being in friction contact for a long time, dust adsorbed on the electrostatic adsorption wrapping layer 29 and the electrostatic filling maintaining layer 31 fall on the top shielding tarpaulin 12 again after long-time contact, vibration generated in the transportation process is ingeniously utilized, the unlimited moving roller 30 drives the electrostatic adsorption wrapping layer 29 to directly adsorb dust and micro foreign matters on the top of the top shielding tarpaulin 12 when the static adsorption wrapping layer 29 rolls on the top shielding tarpaulin 12, and uncertainty and randomness of vibration in the transportation process enable the unlimited moving roller 34 to slide in the roller sliding cavity 36 in all directions, so that all-directional dust adsorption of the top shielding tarpaulin 12 is realized, therefore, under the condition of no direct power source such as a motor and other sensors, the technical theory of the preprocessing principle (an object is put at the most convenient position in advance so as to be put into use immediately) and the intermediate object principle (an intermediate object is used for transmitting or executing an action) are creatively combined and applied to the technical field of trailers, the electrostatic adsorption is flexibly integrated into the design concept of the intermediate intervention type passive omnibearing electrostatic adsorption mechanism 2, the vibration force generated by the trailer traction head driving the trailer in the transportation process is skillfully utilized, the vibration force is used as a power source for cleaning the top shielding tarpaulin 12 in a reciprocating sliding way, the electrostatic adsorption wrapping layer 29 is used as an intermediate object, the omnibearing dust removal and cleaning of the top shielding tarpaulin 12 are realized, the technical breakthrough of no direct power source is realized, and the energy distribution burden of the trailer traction head is reduced, the technical problem that the dustproof adsorption treatment is carried out on the top shielding tarpaulin 12 under the condition of no power source, which is difficult to solve in the prior art, is overcome in a breakthrough manner; the trailer sheltering fence 10 needs to be cleaned regularly, when cleaning, a pressurized water pipe is connected to the pressurized water pipe mounting head 78 from the outside, then the reciprocating action driving motor 93 is started, then the rotating disc rotating shaft 92 rotates to drive the auxiliary rotating disc 91 to rotate, then the reciprocating action sliding block 90 moves circularly along with the auxiliary rotating disc 91, at the moment, the reciprocating action sliding block 90 slides in the waist-shaped groove 89, then the reciprocating action swinging rod 88 is driven to swing in a reciprocating way on a hinged point with the cleaning supporting upright post 82, then the sector gear 87 is driven to swing in a reciprocating way, then the sector gear 87 drives the reciprocating rack 83 to slide in a reciprocating way on the rack guide rail 86 through the lower end transmission gear 85, so that the upper end transmission gear 84 synchronously reciprocates, then the reciprocating gear 80 reciprocates, so that the reciprocating rotating shaft 81 drives the nozzle reciprocating connecting rod 79 to swing in a reciprocating way, then the annular nozzle 77 reciprocates, at this time, the annular nozzle 77 is in an annular shape to spray high pressure water column and sprays to and fro on each direction of the trailer sheltering fence 10, when a certain position of the trailer sheltering fence 10 needs to be cleaned, the reciprocating action driving motor 93 can be closed, the structure of the trailer sheltering fence 10 enables the high pressure water column to splash outwards when contacting with the upper surface, the water splashed at high speed continuously flies to the power conversion small water wheel 22, the power conversion small water wheel 22 rotates, the water wheel connecting rotating shaft 23 is driven to rotate, the belt pulley I26 rotates, the belt pulley II 27 is driven to rotate through the transmission belt 28, the rotor of the generator 25 rotates, the generator 25 continuously generates power and supplies power to the reciprocating action driving motor 93 for use, the water splashes passing through the power conversion small water wheel 22 flow into the wastewater recovery cavity 19 after flowing through the wrapping type wastewater flow shell 20, and the sealing ring 17 ensures that water leakage does not occur, the spray is gathered in the waste water recovery cavity 19 continuously, and the water outlet of the self-discharge siphon U-shaped pipe 15 is lower than the water inlet, so through the siphon principle, when the water in the waste water recovery cavity 19 reaches a certain value, the water in the waste water recovery cavity 19 is automatically discharged to the external sewer through the self-discharge siphon U-shaped pipe 15 and the corrugated expansion pipe 16 (the corrugated expansion pipe 16 is stretched and introduced into the nearby sewer in advance), after the washing is finished, the corrugated expansion pipe 16 is embedded into the corrugated pipe placing groove 21, obviously, under the condition of no intervention of drainage machines such as water flow regulating equipment, water pumps and other sensors, the technical theory of changing the harm into the benefit principle (obtaining positive effect by using harmful factors) is creatively introduced into the design concept of the self-compensation type reutilization and unpowered discharge integrated mechanism 1, the acting force of the splash generated by the high-pressure water gun nozzle impacting on the fence structure during cleaning is fully reused, the device has the advantages that the harmful part on the surface that splash at high speed moves is amplified in a breakthrough manner, the impact force is used for generating electricity, the effect of automatically draining water from a high position to a low position of a siphon principle is skillfully utilized, the reasonable utilization of the huge acting force of the splash is completed under the condition of not influencing the cleaning effect, the automatic collection and unpowered discharge of the waste water after cleaning are realized through the self-discharge siphon U-shaped pipe 15, the waste water recovery cavity 19 and the wrapping type waste water flowing shell 20 by combining the siphon principle, and the technical difficulties that the reuse of the splash in the cleaning process of the bin grid type semitrailer, the automatic collection and unpowered discharge of the waste water after cleaning cannot be solved by the prior art are overcome; when external force impacts on the impact contact table 71, the external force impacts on the buffer bag 72 firstly, then a first buffer is generated through the non-Newtonian fluid 73, at the moment, the impact horizontal guide rod 74 slides along the impact horizontal guide rail 75, so that the first buffer swing rod 69 and the second buffer swing rod 70 swing, the first buffer slide block 65 and the second buffer slide block 66 slide along the first buffer guide rod 63 and the second buffer guide rod 64 respectively, the neodymium magnet 59 and the neodymium magnet three 61 slide along the first buffer guide rod 63 and the second buffer guide rod 64 respectively, and then the magnetic repulsion force among the neodymium magnet 59, the neodymium magnet two 60, the neodymium magnet three 61 and the neodymium magnet four 62 is used for buffering the impact force on the impact contact table 71; when the steering is needed, the rotation adjusting motor 95 is started to drive the first steering rotating shaft 98 to rotate, so that the first steering adjusting gear 96 rotates and also drives the second steering adjusting gear 97 to rotate, so that the second steering rotating shaft 99 rotates, so that the steering table 102 synchronously rotates, the direction of the moving wheel 100 is changed, and a rotation power source is creatively provided for the bin grid type semi-trailer, so that the bin grid type semi-trailer can adaptively rotate before turning, the purpose of stably turning by matching with a traction head is achieved, and the technical problem that the bin grid type semi-trailer is difficult to solve in the prior art and swings when turning is solved; when the device is idle, the traction connecting part 9 is separated from the traction vehicle head, the first support adjusting electric cylinder 105 and the second support adjusting electric cylinder 106 are started, the output ends of the first support adjusting electric cylinder 105 and the second support adjusting electric cylinder 106 are controlled to respectively drive the first electric cylinder connecting sliding table 107 and the second electric cylinder connecting sliding table 108 to move back to back, the first support auxiliary sliding block 109 and the second support auxiliary sliding block 110 move synchronously and respectively slide in the first adaptive guiding chute 111 and the second adaptive guiding chute 112, so that the support adjusting plate 113 descends and drives the ground contact upright column 114 to descend and slide along the upright column guide rod 115, the ground contact upright column 114 is quickly supported on the ground, support is provided for the device when the device is idle, the integral working process of the device is realized, and the steps are repeated when the device is used next time.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a self-compensating covers absorption and waste water collection and integrated trailer of passive emission which characterized in that: the self-compensating type recycling and unpowered discharging integrated mechanism is arranged on the trailer base, the magnetomotive force top coverage rate adaptive changing mechanism is arranged on the trailer base, the intermediary intervention type passive type omnidirectional electrostatic adsorption mechanism is arranged on the magnetomotive force top coverage rate adaptive changing mechanism, the adaptive steering and swinging prevention mechanism is arranged on the trailer base, the adaptive support auxiliary mechanism is arranged on the trailer base, the trailer shelters from on the fence locates trailer base, the clean mechanism of reciprocating action formula is located on trailer base, the clean mechanism of reciprocating action formula is located in the trailer shelters from the fence, draw connecting portion and locate on trailer base, magnetomotive top coverage adaptability change mechanism includes that magnetomotive top coverage regulating unit, top shelter from the tarpaulin, shelter from adjusting cylinder and torsional spring, magnetomotive top coverage regulating unit locates the both sides that the trailer sheltered from the fence, shelter from adjusting cylinder and locate between the magnetomotive top coverage regulating unit, the torsional spring is installed in the epaxial of sheltering from adjusting cylinder, the top is sheltered from the tarpaulin parcel and is located on sheltering from adjusting cylinder.

2. The self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of claim 1, wherein: the self-compensating recycling and unpowered discharging integrated mechanism comprises a self-discharging siphon U-shaped pipe, a corrugated expansion pipe, a sealing ring, a wastewater recycling shell, a wastewater recycling cavity, a wrapping wastewater flowing shell, a corrugated pipe placing groove, a power conversion small water wheel, a water wheel connecting rotating shaft, a water wheel stabilizing plate, a generator, a first belt wheel, a second belt wheel and a conveying belt, wherein the wastewater recycling shell is arranged on a trailer base, the wastewater recycling cavity is arranged on the wastewater recycling shell, the self-discharging siphon U-shaped pipe is installed on the wastewater recycling shell in a penetrating way, one end of the self-discharging siphon U-shaped pipe is arranged in the wastewater recycling cavity, the other end of the self-discharging siphon U-shaped pipe extends to the outer side of the wastewater recycling shell, the sealing ring is arranged at the junction of the self-discharging siphon U-shaped pipe penetrating on the wastewater recycling shell, and the corrugated expansion pipe is arranged on the self-discharging siphon U-shaped pipe, the utility model discloses a trailer, including bellows standing groove, bellows, water wheels, power conversion, water wheels, belt pulley, conveyer belt, self-compensating formula is recycled and is unpowered to discharge integrative mechanism, bellows standing groove locates on the lateral wall of trailer base, on the bellows standing groove is located to the gomphosis of bellows, parcel type waste water flow shell rigid coupling is on waste water recovery shell, water wheels connects the pivot and runs through to rotate and locate on parcel type waste water flow shell, the little water wheels array of power conversion is installed in water wheels connects the pivot, water wheels firm board rigid coupling is on the inside wall of parcel type waste water flow shell, water wheels connects the pivot and runs through to rotate and locate on water wheels firm board, the generator is located on waste water recovery shell, belt pulley one is installed in the one end of water wheels connection pivot, belt pulley two is installed on the generator, conveyer belt pulley one and belt pulley two are located, self-compensating formula is recycled and unpowered discharges integrative mechanism and is equipped with two sets ofly.

3. The self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of claim 2, wherein: the intermediary intervention type passive all-dimensional electrostatic adsorption mechanism comprises an electrostatic adsorption wrapping layer, an unlimited motion roller, an electrostatic filling maintaining layer, a top supporting platform and an electrostatic adsorption moving auxiliary unit, wherein the electrostatic adsorption moving auxiliary unit is arranged on a magnetomotive top coverage rate adjusting unit, the electrostatic adsorption moving auxiliary unit is provided with two groups, the top supporting platform is arranged on the electrostatic adsorption moving auxiliary unit, the electrostatic filling maintaining layer is arranged on the top supporting platform, the unlimited motion roller is arranged on the electrostatic adsorption moving auxiliary unit, the electrostatic adsorption wrapping layer is arranged on the outer side wall of the unlimited motion roller, and the electrostatic adsorption moving auxiliary unit comprises an unlimited motion roller, an unlimited motion shaft, a roller sliding cavity, a wheel shaft moving through groove, a roller sliding supporting shell, a miniature electric cylinder, a lifting fine-tuning slider and a lifting fine-tuning slider, The device comprises a lifting fine-adjustment connecting groove, a lifting fine-adjustment moving shell and a top lifting connecting crank arm, wherein the roller sliding supporting shell is fixedly connected to a magnetomotive top coverage rate adjusting unit, a roller sliding cavity is arranged on the roller sliding supporting shell, an unlimited moving roller is embedded and slidably arranged in the roller sliding cavity, a wheel shaft moving through groove is arranged on the side wall of the roller sliding supporting shell in a penetrating way, the roller sliding cavity is communicated with the wheel shaft moving through groove, one end of the unlimited moving shaft is arranged on the unlimited moving roller, the other end of the unlimited moving shaft movably penetrates through the wheel shaft moving through groove and is fixedly connected to an unlimited moving roller, the lifting fine-adjustment moving shell is fixedly connected to the roller sliding supporting shell, one end of the top lifting connecting crank arm is slidably arranged on the lifting fine-adjustment moving shell, and the other end of the top lifting connecting crank arm is fixedly connected to a top supporting platform, the utility model discloses a lift fine setting movable shell, including lift fine setting movable shell, lift fine setting spread groove, miniature electronic jar, lift fine setting movable shell, lift fine setting slider's one end is located on the top lift connects the crank arm, the other end of lift fine setting slider is removed and is run through on the output of lift fine setting spread groove and locating miniature electronic jar.

4. The self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of claim 3, wherein: the magnetomotive top coverage rate adjusting unit comprises a first electromagnet, a first coverage rate adjusting cushion pad, a second electromagnet, a second coverage rate adjusting cushion pad, a vertically moving iron block, a coverage rate adjusting guide support frame, an external connecting moving column, a vertically moving cavity, a vertically moving connecting groove, a coverage rate adjusting transmission rod, a transmission inclined sliding groove, a horizontally moving cavity, a horizontally moving external connecting groove, a horizontally moving sliding block and a horizontally moving transmission column, wherein the coverage rate adjusting guide support frame is arranged on a trailer base, the vertically moving cavity is arranged on the coverage rate adjusting guide support frame, the vertically moving connecting groove is arranged on the side wall of the coverage rate adjusting guide support frame, the vertically moving connecting groove is communicated with the vertically moving cavity, the vertically moving iron block is embedded and slidably arranged on the vertically moving cavity, the first electromagnet is arranged at the top of the vertically moving cavity, the second electromagnet is arranged at the bottom of the vertical moving cavity, the first coverage adjusting buffer cushion is arranged on the first electromagnet, the second coverage adjusting buffer cushion is arranged on the second electromagnet, one end of the external connecting moving column is arranged on the vertical moving iron block, the other end of the external connecting moving column is movably penetrated on the vertical moving connecting groove, the coverage adjusting transmission rod is fixedly connected on the external connecting moving column, the transmission inclined sliding groove is arranged on the coverage adjusting transmission rod, the horizontal moving cavity is arranged in the coverage adjusting guide supporting frame, the horizontal moving outer connecting groove is arranged on the side wall of the coverage adjusting guide supporting frame, the horizontal moving cavity is communicated with the horizontal moving outer connecting groove, the horizontal moving slide block is embedded and slidably arranged on the horizontal moving cavity, and the horizontal moving transmission column is embedded and slidably arranged on the horizontal moving outer connecting groove, one end of the horizontal motion transmission column is fixedly connected to the horizontal movement sliding block, the other end of the horizontal motion transmission column is embedded and slidably arranged on the transmission inclined sliding groove, one end, with the top covered with the tarpaulin, of the top is wound on the covering adjusting roller, the other end, with the top covered with the tarpaulin, of the top is arranged on the horizontal movement sliding block, two ends of the covering adjusting roller are rotatably arranged between the coverage rate adjusting and guiding support frames, the roller sliding support shell is fixedly connected to the coverage rate adjusting and guiding support frames, and the magnetic power top coverage rate adjusting unit is provided with two sets.

5. The self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of claim 4, wherein: the intervention type repulsion force conversion buffer mechanism comprises a neodymium magnet I, a neodymium magnet II, a neodymium magnet III, a neodymium magnet IV, a buffer guide rod I, a buffer guide rod II, a buffer slide block I, a buffer slide block II, a buffer stop block I, a buffer stop block II, a buffer swing rod I, a buffer swing rod II, an impact contact platform, a buffer bag, non-Newtonian fluid, an impact horizontal guide rod, an impact horizontal guide rail and a buffer operation groove, wherein the buffer operation groove is formed in the side wall of the trailer base, the buffer stop block I is fixedly connected onto the buffer operation groove, the buffer guide rod I is arranged on the buffer stop block I, the neodymium magnet I is arranged on the buffer guide rod I in a penetrating and sliding manner, the buffer slide block I is fixedly connected onto the neodymium magnet I, the neodymium magnet II is fixedly connected onto the buffer operation groove, the magnetic poles of the neodymium magnet I and the neodymium magnet II are the same, the impact horizontal guide rail is arranged on the buffer operation groove, the impact horizontal guide rod is embedded and slidably arranged on the impact horizontal guide rail, the impact contact table is fixedly connected onto the impact horizontal guide rod, one end of the buffer swing rod is hinged onto the buffer sliding block I, the other end of the buffer swing rod I is hinged onto the impact contact table, the buffer limiting block II is fixedly connected onto the buffer operation groove, the buffer sliding block II is arranged on the buffer limiting block II, the neodymium magnet III is arranged on the buffer limiting block II in a penetrating and sliding manner, the buffer sliding block II is arranged on the buffer sliding block II in a penetrating and sliding manner, the buffer sliding block II is fixedly connected onto the neodymium magnet III, the neodymium magnet IV is fixedly connected onto the buffer operation groove, opposite magnetic poles of the neodymium magnet III and the neodymium magnet IV are the same, one end of the buffer swing rod II is hinged onto the buffer sliding block II, and the other end of the buffer swing rod II is hinged onto the impact contact table, the buffer bag is arranged on the impact contact table, the non-Newtonian fluid is filled in the buffer bag, and the two groups of the intervention type repulsion force conversion buffer mechanisms are arranged.

6. The self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of claim 5, wherein: the reciprocating action type cleaning mechanism comprises an annular nozzle, a pressurized water pipe mounting head, a nozzle reciprocating motion connecting rod, a reciprocating gear, a reciprocating rotating shaft, a cleaning support upright post, a reciprocating rack, an upper end transmission gear, a lower end transmission gear, a rack guide rail, a sector gear, a reciprocating action swing rod, a waist-shaped groove, a reciprocating action slider, an auxiliary turntable, a turntable rotating shaft and a reciprocating action driving motor, wherein the cleaning support upright post is fixedly connected in a trailer shielding fence, the reciprocating action driving motor is arranged on the cleaning support upright post, the turntable rotating shaft is arranged on the output end of the reciprocating action driving motor, the auxiliary turntable is arranged on the turntable rotating shaft, the reciprocating action slider is arranged on the auxiliary turntable, the reciprocating action swing rod is hinged on the cleaning support upright post, the waist-shaped groove is arranged on the reciprocating action swing rod, and the reciprocating action slider is embedded and slidably arranged in the waist-shaped groove, sector gear rigid coupling is on reciprocating action pendulum rod, the rack guide rail is located on the clean support post, reciprocating rack gomphosis slides and locates on the rack guide rail, the upper end driving gear is located on reciprocating rack, lower extreme driving gear is located on reciprocating rack, reciprocating shaft rotates and locates on the clean support post, reciprocating gear locates in reciprocating shaft, shower nozzle reciprocating motion connecting rod rigid coupling is in reciprocating shaft, add water pipe installation head rigid coupling on shower nozzle reciprocating motion connecting rod, annular shower nozzle locates and adds water pipe installation head, the meshing is connected between upper end driving gear and the reciprocating gear, the meshing is connected between lower extreme driving gear and the sector gear, the electricity is connected between generator and the reciprocating action driving motor.

7. The self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of claim 6, wherein: self-adaptation turns to and prevents swinging mechanism includes to turn to the fortune groove, rotates adjusting motor, turns to adjusting gear one, turns to adjusting gear two, turns to pivot one, turns to pivot two, removes wheel, wheel body fender cover and the platform, turn to the fortune groove and locate on the trailer base, turn to pivot two and rotate and locate to turn to on the groove, turn to the platform rigid coupling in turn to pivot two on, it installs on turning to the fortune groove to rotate adjusting motor, turn to pivot one and locate to rotate on the output of adjusting motor, turn to adjusting gear one and locate to turn to pivot one, turn to adjusting gear two and locate to turn to on the pivot two, turn to adjusting gear one and turn to the meshing connection between the adjusting gear two, it locates to turn to the platform to remove the wheel rotation, wheel body fender cover rigid coupling is on turning to the platform.

8. The self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of claim 7, wherein: the adaptive support auxiliary mechanism comprises a support auxiliary operation groove, a double-rod guide rail, a support adjustment electric cylinder I, a support adjustment electric cylinder II, an electric cylinder connection sliding table I, an electric cylinder connection sliding table II, a support auxiliary sliding block I, a support auxiliary sliding block II, an adaptive guide chute I, an adaptive guide chute II, a support adjusting plate, a ground contact upright post and an upright post guide rod, wherein the support auxiliary operation groove is arranged on the trailer base, the double-rod guide rail is arranged on the support auxiliary operation groove, the support adjustment electric cylinder I is arranged on the support auxiliary operation groove, the electric cylinder connection sliding table I is embedded and slidably arranged on the double-rod guide rail, the support auxiliary sliding block I is arranged on the electric cylinder connection sliding table I, the support adjustment electric cylinder II is arranged on the support auxiliary operation groove, the electric cylinder connection sliding table II is slidably arranged on the double-rod guide rail, the support auxiliary sliding block II is arranged on the electric cylinder connection sliding table II, the utility model discloses a slide-type transportation device, including support regulating plate, adaptability guide chute, two gomphosis of support auxiliary slide blocks, stand guide bar rigid coupling is on supporting supplementary fortune groove, the ground contact stand gomphosis slides and locates on the stand guide bar, support the regulating plate rigid coupling on ground contact stand, adaptability guide chute wears to locate on supporting the regulating plate consistently, adaptability guide chute two runs through and locates on supporting the regulating plate, support auxiliary slide block gomphosis and slide and locate adaptability guide chute one, support two gomphosis of auxiliary slide block and slide and locate on the adaptability guide chute two.

9. The self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of claim 8, wherein: the electrostatic adsorption wrapping layer and the electrostatic filling maintaining layer are made of chemical fiber materials.

10. The self-compensating full coverage adsorption and wastewater collection and passive discharge integrated trailer of claim 9, wherein: the reciprocating action driving motor is a waterproof motor, and the coverage rate adjusting guide support frame, the external connection moving column, the coverage rate adjusting transmission rod, the horizontal moving slide block and the horizontal movement transmission column are made of nonmetal materials.

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