1. The utility model provides an intelligent universal lifting flat car structure, characterized by, includes frame, controller assembly (26), steering mechanism, elevating system and lithium cell (7), the frame includes frame main part, front and back baffle (1), side shield (2) and upper cover plate (3), front and back baffle (1) contain two, and both sides around the frame main part are arranged respectively in baffle (1) around two, side shield (2) contain two, and the left and right sides of frame main part is arranged respectively in to two side shields (2), side shield (2) are connected with front and back baffle (1), install red light (19) on front and back baffle (1), controller assembly (26), steering mechanism and elevating system all arrange in the frame main part, red light (19), steering mechanism and elevating system all are connected with controller assembly (26) electricity, controller assembly (26), Steering mechanism and elevating system all are connected with lithium cell (7) electricity, upper cover plate (3) are connected with the frame main part through elevating system.

2. The structure of the intelligent universal lifting flat car according to claim 1, wherein the steering mechanisms comprise four steering mechanisms, the four steering mechanisms are respectively arranged at four corners of the car frame main body, the steering mechanisms comprise a steering mounting plate (11), a driving assembly (8), a steering bearing (9) and a steering motor (10), the steering bearing (9) is arranged on the car frame main body, the driving assembly (8) and the steering motor (10) are arranged on the steering mounting plate (11), the outer ring of the steering bearing (9) is provided with a steering large gear (13), the steering mounting plate (11) is arranged on the inner ring of the steering bearing (9), the steering motor (10) is provided with a motor shaft, the motor shaft is sleeved with a steering small gear (12), the steering small gear (12) is meshed with the steering large gear (13), the steering motor (10) is respectively and electrically connected with the controller assembly (26) and the lithium battery (7).

3. The structure of an intelligent universal lifting flat car as claimed in claim 2, wherein the frame body is provided with a driving fixing plate (14), and the outer ring of the steering bearing (9) is connected with the frame body through the driving fixing plate (14).

4. An intelligent universal lifting flat car structure as claimed in claim 1, wherein the lifting mechanism comprises a hydraulic station (25) and two hydraulic cylinders (17), the two hydraulic cylinders (17) are respectively arranged at the front end and the rear end of the car frame body, a three-way valve is arranged between the hydraulic cylinders (17) and the hydraulic station (25), the two hydraulic cylinders (17) are communicated with the hydraulic station (25) through the three-way valve, the hydraulic station (25) is respectively electrically connected with the controller assembly (26) and the lithium battery (7), one end of each hydraulic cylinder (17) is installed on the car frame body, and the other end of each hydraulic cylinder (17) is connected with the upper cover plate (3).

5. An intelligent universal lifting flat car structure as claimed in claim 4, wherein two hydraulic cover plates (21) are arranged on the upper cover plate (3), the hydraulic cover plates (21) correspond to the hydraulic cylinders (17) one by one, the hydraulic cover plates (21) are connected with the upper cover plate (3), and the hydraulic cylinders (17) are connected with the upper cover plate (3) through the hydraulic cover plates (21).

6. An intelligent universal lifting flat car structure as claimed in claim 1, wherein a battery cover plate (4) is arranged on one side baffle (2), the battery cover plate (4) is connected with the side baffle (2), jacks are arranged on the battery cover plate (4), sockets are arranged on the lithium battery (7), and the sockets on the lithium battery (7) are arranged outside the battery cover plate (4) through the jacks on the battery cover plate (4).

7. The structure of an intelligent universal lifting flat car according to claim 6, wherein an electrical appliance cover plate (5) is arranged on the other side baffle plate (2), the electrical appliance cover plate (5) is connected with the side baffle plate (2), an emergency stop mounting plate (15) is arranged on the electrical appliance cover plate (5), a manual cut-off switch (22), an instrument (23) and a key switch (24) are mounted on the emergency stop mounting plate (15), the steering mechanism is electrically connected with a controller assembly (26) through the manual cut-off switch (22), the lifting mechanism is electrically connected with the controller assembly (26) through the key switch (24), and the instrument (23) is electrically connected with the controller assembly (26).

8. The structure of the intelligent universal lifting flat car according to claim 5, wherein the upper cover plate (3) is provided with two long beams (31), two beams (6) and cylinder mounting beams (28), the two long beams (31) are respectively arranged above the two side baffles (2), the beams (6) are respectively provided with a plurality of beams (6) which are uniformly distributed between the two long beams (31), two ends of each beam (6) are respectively connected with the two long beams (31), a plurality of cylinder fixing beams (18) are uniformly distributed between the two adjacent beams (6), two ends of each cylinder fixing beam (18) are respectively connected with the two beams (6), the cylinder mounting beams (28) are arranged above the hydraulic cylinders (17), and the cylinder mounting beams (28) are connected with the beams (6), the oil cylinder mounting beam (28) is connected with the hydraulic oil cylinder (17).

9. The structure of an intelligent universal lifting flat car as claimed in claim 8, wherein two channel steels (27) are arranged on the car frame body, two roller fixing plates (16) are arranged on the cross beam (6), the channel steels (27) correspond to the roller fixing plates (16) one by one, a guide wheel supporting beam (29) is arranged between the two roller fixing plates (16), rollers (30) are arranged on the roller fixing plates (16), the rollers (30) are arranged in the channel steels (27), and the rollers (30) are connected with the channel steels (27) in a rolling manner.

10. An intelligent universal lifting flat car structure as claimed in claim 1, wherein the bottom of the front and rear baffles (1) is provided with a contact edge (20), and the contact edge (20) is connected with the front and rear baffles (1).

Background

The flat car is mainly used for carrying people and goods, when driving, a 'car loop' tied between two handle bars is hung on shoulders, the two handles are held by hands, the body is slightly inclined, and the flat car can be pulled to go on the road. When the vehicle runs on an uphill slope or the road is wet and slippery, a person following the vehicle can tie a rope on the right side of the handlebar to be sleeved on the shoulder for pulling the vehicle or assisting the person to move forwards at the back. Generally, a vehicle is provided with two to three movable compartment plates to prevent fine and foreign materials such as soil and crops from leaking. The water wagon for drawing water in the northern Shaanxi area is simpler and cruder than a flat car, the handlebar is longer, and the wheels are higher than a wagon plate, so that turning and force balance during movement are facilitated. In civilian markets or temples, flat cars are often filled with goods and placed on both sides of the road, thus forming a convenient sale "booth".

The flat car generally adopts inflatable solid tires, and has low plate height and large loading capacity. The danger of tire burst and tire burst is avoided. Safe, simple and durable. He is unpowered and needs a tractor or forklift to tow. A train of one or more flatbeds and a forklift or tractor is typically used for flat cargo or large equipment handling. The method is widely applied to airports, ports, railway stations, factories and large warehouses. The efficiency of goods transfer translation has greatly been improved. The consumption cost of the forklift and manpower is reduced.

At present, along with the gradual advance of the industrialized society, in order to carry more convenient and practical, equipment with a lifting function is additionally arranged on the original basis of the flat car, so that the flat car not only can finish the carrying work on a line, but also can provide convenient carrying for the position with the height difference.

However, the existing lifting flat car is generally only provided with a switch button, and cannot be reasonably adjusted when the lifting flat car encounters external interference in the working process, so that the carrying work is very likely to be stopped directly due to external factors, and the lifting flat car is very inconvenient.

Disclosure of Invention

The invention provides an intelligent universal lifting flat car structure with intelligent external interference coping equipment, aiming at overcoming the defect that the reasonable adjustment cannot be carried out when external interference is encountered in the working process in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides an intelligent universal lift flatbed structure, includes frame, controller assembly, steering mechanism, elevating system and lithium cell, the frame includes frame main part, front and back baffle, side shield and upper cover plate, the front and back baffle contains two, and both sides around the frame main part are arranged respectively to the baffle around two, the side shield contains two, and the left and right sides of frame main part is arranged respectively in to two side shields, the side shield is connected with front and back baffle, install the red light on the preceding backplate, controller assembly, steering mechanism and elevating system all arrange in the frame main part, red light, steering mechanism and elevating system all are connected with the controller assembly electricity, controller assembly, steering mechanism and elevating system all are connected with the lithium cell electricity, the upper cover plate passes through elevating system and is connected with the frame main part.

Through two front and back both sides, two side shield and frame main part constitute the space of an mountable smart machine, the front and back both sides of frame main part are arranged respectively in to baffle around two, the left and right sides of frame main part is arranged respectively in to two side shield, install red light and the interior controller assembly of frame and be connected with the electricity on the baffle around, install the sensor in the controller assembly, just on the steering mechanism of connecting the controller assembly electricity with information transfer through the inductor when the outside obstacle of red light response, steering mechanism alright turn to obstacle position like this, just so reached and be equipped with the purpose that the intellectuality dealt with external disturbance equipment. The lifting mechanism is further arranged in the frame body and electrically connected with the controller assembly, and the red light, the steering mechanism and the lifting mechanism are electrically connected with the lithium battery, so that the frame can be steered, and the upper cover plate can be lifted under the control of the lifting mechanism.

As preferred, steering mechanism contains four, and four steering mechanism arrange in respectively on four angles of frame main part, steering mechanism is including turning to mounting panel, drive assembly, steering bearing and turning to the motor, turn to the bearing and install in frame main part, drive assembly and steering motor are installed on turning to the mounting panel, it turns to the gear wheel to install on the outer lane of steering bearing, turn to the mounting panel and install on the inner circle that turns to the bearing, be equipped with the motor shaft on turning to the motor, the cover is equipped with on the motor shaft and turns to the pinion, turn to the pinion and turn to gear wheel meshing, turn to the motor and be connected with controller assembly and lithium cell electricity respectively. Design like this and use the power of lithium cell to begin work through turning to the motor, so turn to the motor shaft on the motor alright let the steering pinion of suit rotate on the motor shaft, arrange in and then install on the steering bearing outer lane and turn to the gear wheel, turn to the pinion with turn to gear wheel meshing, turn to the gear wheel just so and can be driven by the steering pinion and also rotate, and the red light is connected and four steering mechanism arrange in respectively on four angles of frame through the controller assembly with turning to the motor electricity, so, the frame is run into the obstacle alright let turn to the motor and in time operate, turn to the work with this developing.

Preferably, a driving fixing plate is arranged on the frame main body, and an outer ring of the steering bearing is connected with the frame main body through the driving fixing plate. The design can let the connected frame main part develop to turn to through the drive fixed plate under the drive of drive fixed plate like this, and the outer lane of the steering bearing of here is connected with the frame main part through the drive fixed plate, and the rotation of steering bearing just is the work order that the frame turned to like this.

Preferably, the lifting mechanism comprises a hydraulic station and two hydraulic oil cylinders, the two hydraulic oil cylinders are respectively arranged at the front end and the rear end of the frame main body, a three-way valve is arranged between the hydraulic oil cylinders and the hydraulic station, the two hydraulic oil cylinders are communicated with the hydraulic station through the three-way valve, the hydraulic station is respectively electrically connected with the controller assembly and the lithium battery, one ends of the hydraulic oil cylinders are installed on the frame main body, and the other ends of the hydraulic oil cylinders are connected with the upper cover plate. The hydraulic cylinder that communicates through three-way valve and hydraulic pressure station like this is gone up and down under the control of hydraulic pressure station, and the upper cover plate that so is connected with hydraulic cylinder just goes up and down under hydraulic cylinder's control, and the hydraulic pressure station is connected with controller assembly and lithium cell electricity respectively, and the controller assembly just controls hydraulic pressure station and uses the work of lithium cell battery inner battery resource.

Preferably, the upper cover plate is provided with two hydraulic cover plates, the hydraulic cover plates correspond to the hydraulic oil cylinders one by one, the hydraulic cover plates are connected with the upper cover plate, and the hydraulic oil cylinders are connected with the upper cover plate through the hydraulic cover plates. The hydraulic cover plate connected through the hydraulic oil cylinder is designed to drive the hydraulic cover plate to lift when the hydraulic oil cylinder lifts, and the upper cover plate connected with the hydraulic cover plate can lift.

Preferably, a battery cover plate is arranged on one side baffle plate and connected with the side baffle plate, jacks are arranged on the battery cover plate, a socket is arranged on the lithium battery, and the socket on the lithium battery penetrates through the jacks on the battery cover plate and is arranged outside the battery cover plate. The design can make the lithium cell do the electricity and connect with external power source well through passing the jack on the battery cover plate and arranging the socket outside the battery cover plate.

Preferably, an electric appliance cover plate is arranged on the other side baffle plate, the electric appliance cover plate is connected with the side baffle plate, an emergency stop mounting plate is arranged on the electric appliance cover plate, a manual cut-off switch, an instrument and a key switch are mounted on the emergency stop mounting plate, the steering mechanism is electrically connected with the controller assembly through the manual cut-off switch, the lifting mechanism is electrically connected with the controller assembly through the key switch, and the instrument is electrically connected with the controller assembly. But the design is through the scram mounting panel manual operation on the electrical apparatus apron like this, and manual cut-off switch, instrument and the key switch of installation on the scram mounting panel, steering mechanism pass through manual cut-off switch and are connected with the lithium cell electricity, and elevating system passes through the key switch and is connected with the lithium cell electricity, and the instrument is connected with the lithium cell electricity, so alright manual control turns to motor, hydraulic pressure station and instrument disconnection and is connected with the electricity of lithium cell.

Preferably, the upper cover plate is provided with two long beams, two beams and two oil cylinder mounting beams, the two long beams are arranged above the two side baffles respectively, each beam comprises a plurality of beams, the plurality of beams are uniformly distributed between the two long beams, two ends of each beam are connected with the two long beams respectively, a plurality of oil cylinder fixing beams are uniformly distributed between the two adjacent beams, two ends of each oil cylinder fixing beam are connected with the two beams respectively, the oil cylinder mounting beams are arranged above the hydraulic oil cylinders and are connected with the beams, and the oil cylinder mounting beams are connected with the hydraulic oil cylinders. The design can constitute a firm frame construction through long crossbeam and the crossbeam on the upper cover plate like this, then can mark off an area through a plurality of hydro-cylinder fixed beam evenly distributed between two adjacent crossbeams, and the hydro-cylinder installation roof beam through being connected with hydraulic cylinder then can let hydraulic cylinder and upper cover plate do well and contact.

Preferably, the vehicle frame main body is provided with two channel steel, the cross beam is provided with two roller fixing plates, the channel steel corresponds to the roller fixing plates one to one, a guide wheel supporting beam is arranged between the two roller fixing plates, the roller fixing plates are provided with rollers, the rollers are arranged in the channel steel, and the rollers are connected with the channel steel in a rolling manner. The design is so that can guarantee the stable of hydraulic pressure station through the guide pulley supporting beam between two gyro wheel fixed plates and place, and the gyro wheel on the guide pulley supporting beam is arranged in the channel-section steel, and the channel-section steel is then connected with the side shield, so, hydraulic pressure station just is under the supporting effect of side shield and crossbeam.

Preferably, the bottom of the front and rear baffles is provided with a touch edge, and the touch edge is connected with the front and rear baffles. The design can touch the external obstacle earlier than the front and rear baffles through the contact edges arranged on the front and rear baffles, so that the probability of damage to the front and rear baffles is reduced.

The invention has the beneficial effects that: the purpose of intelligently dealing with external interference equipment can be achieved; the lifting of the upper cover plate can be controlled; the work of the flat car can be manually controlled; the probability of damage to the front and rear baffle plates can be reduced.

Drawings

FIG. 1 is a structural layout of the present invention;

FIG. 2 is a structural layout of the interior of the vehicle frame of the present invention;

FIG. 3 is a structural layout view taken in section A of FIG. 1;

FIG. 4 is a top view of the structure of the present invention;

FIG. 5 is a structural arrangement of the steering mechanism of the present invention;

FIG. 6 is a left side view of the structure of the present invention;

FIG. 7 is a right side view of the structure of the present invention;

FIG. 8 is a rear view of the structure of the present invention;

fig. 9 is a front view of the inventive structure.

In the figure: 1. front and back baffle, 2, side shield, 3, upper cover plate, 4, battery cover plate, 5, electrical apparatus cover plate, 6, crossbeam, 7, lithium cell, 8, drive assembly, 9, steering bearing, 10, steering motor, 11, steering mounting plate, 12, steering pinion, 13, steering bull gear, 14, drive fixed plate, 15, scram mounting plate, 16, roller fixed plate, 17, hydraulic cylinder, 18, cylinder fixed beam, 19, red light, 20, touch edge, 21, hydraulic cover plate, 22, manual cut-off switch, 23, instrument, 24, key switch, 25, hydraulic pressure station, 26, controller assembly, 27, channel steel, 28, cylinder mounting beam, 29, guide wheel supporting beam, 30, roller, 31, long crossbeam.

Detailed Description

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

In the embodiment shown in fig. 1, the intelligent universal lifting flat car structure comprises a car frame, a controller assembly 26, a steering mechanism, a lifting mechanism and a lithium battery 7, wherein the car frame comprises a car frame main body, a front baffle plate 1 and a rear baffle plate 1, side shield 2 and upper cover plate 3, baffle 1 contains two around, both sides around the frame main part are arranged respectively in to baffle 1 around two, side shield 2 contains two, the left and right sides of frame main part is arranged respectively in to two side shields 2, side shield 2 is connected with baffle 1 around with, install red light 19 on the baffle 1 around, controller assembly 26, steering mechanism and elevating system all arrange in the frame main part, red light 19, steering mechanism and elevating system all are connected with controller assembly 26 electricity, controller assembly 26, steering mechanism and elevating system all are connected with lithium cell 7 electricity, upper cover plate 3 passes through elevating system and is connected with the frame main part.

As shown in fig. 2 and 5, the number of the steering mechanisms is four, the four steering mechanisms are respectively disposed at four corners of the frame body, each steering mechanism includes a steering mounting plate 11, a driving assembly 8, a steering bearing 9 and a steering motor 10, the steering bearing 9 is mounted on the frame body, the driving assembly 8 and the steering motor 10 are mounted on the steering mounting plate 11, a steering large gear 13 is mounted on an outer ring of the steering bearing 9, the steering mounting plate 11 is mounted on an inner ring of the steering bearing 9, a motor shaft is disposed on the steering motor 10, a steering small gear 12 is sleeved on the motor shaft, the steering small gear 12 is engaged with the steering large gear 13, and the steering motor 10 is respectively electrically connected with the controller assembly 26 and the lithium battery 7. The frame main body is provided with a driving fixing plate 14, and the outer ring of the steering bearing 9 is connected with the frame main body through the driving fixing plate 14.

As shown in fig. 1, 3, 4, 6 and 7, the lifting mechanism comprises a hydraulic station 25 and two hydraulic cylinders 17, the two hydraulic cylinders 17 are respectively arranged at the front end and the rear end of the frame body, a three-way valve is arranged between the hydraulic cylinders 17 and the hydraulic station 25, the two hydraulic cylinders 17 are communicated with the hydraulic station 25 through the three-way valve, the hydraulic station 25 is respectively electrically connected with the controller assembly 26 and the lithium battery 7, one end of each hydraulic cylinder 17 is arranged on the frame body, and the other end of each hydraulic cylinder 17 is connected with the upper cover plate 3. Two hydraulic cover plates 21 are arranged on the upper cover plate 3, the hydraulic cover plates 21 correspond to the hydraulic oil cylinders 17 one by one, the hydraulic cover plates 21 are connected with the upper cover plate 3, and the hydraulic oil cylinders 17 are connected with the upper cover plate 3 through the hydraulic cover plates 21. A battery cover plate 4 is arranged on one side baffle plate 2, the battery cover plate 4 is connected with the side baffle plate 2, a jack is arranged on the battery cover plate 4, a socket is arranged on the lithium battery 7, and the socket on the lithium battery 7 penetrates through the jack on the battery cover plate 4 and is arranged outside the battery cover plate 4. An electric appliance cover plate 5 is arranged on the other side baffle plate 2, the electric appliance cover plate 5 is connected with the side baffle plate 2, an emergency stop mounting plate 15 is arranged on the electric appliance cover plate 5, a manual cut-off switch 22, an instrument 23 and a key switch 24 are mounted on the emergency stop mounting plate 15, the steering mechanism is electrically connected with a controller assembly 26 through the manual cut-off switch 22, the lifting mechanism is electrically connected with the controller assembly 26 through the key switch 24, and the instrument 23 is electrically connected with the controller assembly 26.

As shown in fig. 2, fig. 8 and fig. 9, be equipped with long crossbeam 31 on the upper cover plate 3, crossbeam 6 and hydro-cylinder installation roof beam 28, long crossbeam 31 contains two, two long crossbeams 31 are arranged in the top of two side shield 2 respectively, crossbeam 6 contains a plurality of, a plurality of crossbeam 6 evenly distributed is between two long crossbeams 31, the both ends of crossbeam 6 are connected with two long crossbeams 31 respectively, evenly distributed has a plurality of hydro-cylinder fixed beam 18 between two adjacent crossbeams 6, the both ends of hydro-cylinder fixed beam 18 are connected with two crossbeams 6 respectively, hydro-cylinder installation roof beam 28 is arranged in the top of hydraulic cylinder 17, hydro-cylinder installation roof beam 28 is connected with crossbeam 6, hydro-cylinder installation roof beam 28 is connected with hydraulic cylinder 17. Be equipped with two channel-section steels 27 in the frame main part, be equipped with two gyro wheel fixed plates 16 on the crossbeam 6, channel-section steel 27 and gyro wheel fixed plate 16 one-to-one are equipped with a guide pulley supporting beam 29 between two gyro wheel fixed plates 16, are equipped with gyro wheel 30 on the gyro wheel fixed plate 16, and in channel-section steel 27 was arranged in to gyro wheel 30, gyro wheel 30 and channel-section steel 27 roll connection. The bottom of the front and rear baffle plates 1 is provided with a touch edge 20, and the touch edge 20 is connected with the front and rear baffle plates 1.

Firstly, articles to be carried are placed on an upper cover plate 3, the front side and the rear side of a frame main body are both connected with a front baffle plate 1 and a rear baffle plate 1, the left side and the right side of the frame main body are both connected with a side baffle plate 2, so that the frame main body, the front baffle plate 1, the rear baffle plate 1 and the side baffle plate 2 form a frame, the frame is arranged in the frame and is provided with a controller assembly 26, a steering mechanism, a lifting mechanism and a lithium battery 7, a sensor is arranged in the controller assembly 26, and the steering mechanism and the lifting mechanism can be started to work through the controller assembly 26.

In the process of carrying the frame, when the red lamps 19 on the front and rear baffle plates 1 of the frame sense obstacles, the controller assembly 26 electrically connected with the red lamps 19 can enable the sensor to transmit the information to the steering mechanism electrically connected with the controller assembly 26 in time, the steering motor 10 on the steering mechanism can be started by using the electric resources in the lithium battery 7 electrically connected with the steering motor 10 in time, so that the motor shaft on the steering motor 10 can rotate, the steering pinion 12 sleeved on the motor shaft is driven by the motor shaft to rotate, so that the steering bull gear 13 arranged on the outer ring of the steering bearing 9 on the steering mechanism is driven by the steering pinion 12 to rotate, the steering pinion 12 is meshed with the steering bull gear 13, the steering mounting plate 11 is also arranged on the inner ring of the steering bearing 9, and the steering mechanism comprises four steering gears, four steering mechanism are arranged in four angles of frame respectively, and in the rotation work that turns to gear wheel 13, turn to bearing 9 and just let the drive assembly 8 that is connecting drive the frame and turn to the work, so just reached and be equipped with the intelligent purpose of dealing with external interference equipment. The steering mechanism is provided with a steering mounting plate 11, the steering mounting plate 11 is connected with the steering bearing 9, and the steering mounting plate 11 is connected with the frame through a driving fixing plate 14, so that the work of the steering mechanism driving the frame to steer can be smoothly carried out.

When the goods are transported to the destination and the height difference exists between the destination and the vehicle frame, the key switch 24 on the electrical appliance cover plate 5 on the side baffle 2 can be controlled, the hydraulic station 25 is electrically connected with the lithium battery 7 through the key switch 24, and the start of the key switch 24 is to start the work of the hydraulic station 25.

The lifting mechanism comprises a hydraulic station 25 and a hydraulic oil cylinder 17, one end of the hydraulic oil cylinder 17 is movably connected with the hydraulic station 25, the other end of the hydraulic oil cylinder 17 is connected with the upper cover plate 3, and when the hydraulic station 25 works, the hydraulic oil cylinder 17 is controlled to drive the upper cover plate 3 to lift until the position of a destination is reached, and then the transportation work is finished. The hydraulic station 25 is provided with a guide wheel supporting beam 29, the left end and the right end of the guide wheel supporting beam 29 are provided with rollers 30, the side baffle 2 is provided with a channel steel 18, the upper cover plate 3 is distributed with a long beam 31, a beam 6, an oil cylinder fixing beam 18 and an oil cylinder mounting beam 28, and thus the upper cover plate 3 is arranged on a frame, and safety and stability are realized. The roller fixing plate 16 is connected between two adjacent cross beams 6, and the rollers 30 are arranged in the channel steel 18, so that the hydraulic station 25 is under the supporting effect of the side baffle plates 2 and the upper cover plate 3.

The work of the universal lift flatbed structure of intelligence all uses the electric resource of lithium cell 7 basically, and during the inoperative, can will pass through the jack on the battery apron 4 and arrange the socket of the outside of battery apron 4 in and be connected well with external power supply electricity, so just can let lithium cell 7 fill electric resource.