CN115324399B - Automatic lifting system of heavy-duty large elevator platform - Google Patents

Abstract

The invention discloses an automatic lifting system of a heavy-duty large lifter platform, which belongs to the field of lifting garages and comprises a box body, wherein the box body is pre-buried underground, the top end surface of the box body is flush with the ground, a lifting groove is formed in the box body, the bottom end in the lifting groove is fixedly connected with a lifting driving assembly, the top end of the lifting driving assembly is provided with a bottom parking plate, the corner position of the top end surface of the bottom parking plate is fixedly connected with a stand column, and the top end of the stand column is fixedly connected with a top parking plate; the opposite faces of the two upright posts on the same side are symmetrically provided with rearview mirror calibration assemblies, the bottom end face of the bottom parking plate is provided with a vehicle advancing limiting assembly, and the outer side face of each upright post is provided with a liftable heating assembly. According to the invention, the driver can be assisted in finding the parking direction on a snowy day through the rearview mirror calibration assembly, the rearview mirror is prevented from being damaged, and the snowy on the vehicle body can be melted through the lifting heating assembly, so that the severe corrosion of the snowy on the vehicle paint and the vehicle chassis is prevented.

Description

Automatic lifting system of heavy-duty large elevator platform

Technical Field

The invention relates to a lifting garage, in particular to an automatic lifting system for a heavy-duty large lifter platform.

Background

With the development of society and the improvement of science and technology, the living standard of people is improved, the automobile gradually becomes a vehicle of home, the automobile demand is continuously increased, urban parking is difficult to be a troublesome problem facing each place, and many families have two automobiles, but often have no enough positions to park the two automobiles. For this reason, a double-deck parking apparatus has been developed to park two vehicles up and down, and the double-deck parking apparatus requires a heavy-duty lifting drive assembly to perform lifting work due to the heavy weight of the vehicles.

However, when the driver is in heavy snow weather, the driver is easy to scrape and touch the rearview mirror, especially the rearview mirror far away from the driver's seat when the vehicle is parked on the bottom layer of the double-layer parking device due to the obstruction of the sight line by the heavy snow, in addition, due to the pollution of the environment, the existing atmosphere contains some harmful corrosive substances which are attached to the heavy snow, so that the heavy snow attached to the surface of the vehicle can seriously corrode the vehicle paint and the vehicle chassis if not timely removed, further the vehicle is damaged, and the manual snow removing is troublesome and has low efficiency, and the running of the following vehicle is not influenced by the snow removing. Accordingly, one skilled in the art would provide an automated lifting system for heavy duty large elevator platforms to address the problems set forth in the background above.

Disclosure of Invention

The invention aims to provide an automatic lifting system for a heavy-duty large lifter platform, which can assist a driver to find a parking direction in a snowy day through a rearview mirror calibration assembly, avoid damage of the rearview mirror, and can melt the large snow on a vehicle body through a lifting heating assembly, avoid serious corrosion of the large snow to vehicle paint and a vehicle chassis, and facilitate running of subsequent vehicles so as to solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the automatic lifting system of the heavy-duty large elevator platform comprises a box body, wherein the box body is pre-buried underground, the top end surface of the box body is flush with the ground, a lifting groove is formed in the box body, the bottom end inside the lifting groove is fixedly connected with a lifting driving assembly, the top end of the lifting driving assembly is provided with a bottom parking plate, the corner position of the top end surface of the bottom parking plate is fixedly connected with a stand column, and the top end of the stand column is fixedly connected with a top parking plate; the two opposite faces of the stand columns on the same side are symmetrically provided with rearview mirror calibration assemblies, the bottom end face of the bottom parking plate is provided with a vehicle advancing limiting assembly, the outer side face of the stand column is provided with a lifting heating assembly, one side of the box body is provided with a drainage mechanism, and the other side of the box body is provided with a ventilation mechanism.

Through the rearview mirror calibration assembly that sets up, can assist the driver to look for the parking direction in the big snow day, avoid the rear-view mirror impaired, through the liftable heating element that sets up, can melt big snow on the automobile body, avoid big snow to the serious corruption of car lacquer and vehicle chassis.

As a further scheme of the invention: the rearview mirror calibration assembly specifically comprises: offer the notch on the stand side, the inside swing joint of notch has the rotor plate, and the equal fixedly connected with pivot of rotor plate top and bottom, rotor plate lateral surface fixedly connected with rubber layer, two in the rotary groove of seting up on notch top end face and bottom end face, and cup jointed the clockwork spring on the pivot lateral surface, the both ends of clockwork spring respectively with pivot lateral surface, rotary groove inner wall fixed connection, be equipped with the warning piece on notch one side inner wall.

When the vehicle is parked on a snowy day, the vehicle drives into the bottom parking plate from one side of the rearview mirror calibration assembly, when the rearview mirror of the vehicle is close to the upright post, the rotating plate is contacted with the rearview mirror at first, the rubber layer on the rotating plate can effectively avoid abrasion to the rearview mirror, the rotating plate is pushed to rotate by the rearview mirror in the rotating groove along with the slow driving of the vehicle, if the rearview mirror on one side is too close to the upright post, the rotating plate is continuously rotated to be in contact with the alarm piece, at the moment, the alarm piece alarms to remind a driver that the rearview mirror possibly needs to be scraped to the upright post, particularly the rearview mirror far away from a driving position, and the driver can timely adjust the steering wheel to ensure that the rearview mirror cannot be scraped to the upright post.

As still further aspects of the invention: the alarm part specifically comprises: the air bag is embedded in the middle position of the inner wall at one side of the notch, a strip-shaped groove is formed in one side of the air bag, and a whistle communicated with the air bag is fixedly connected inside the strip-shaped groove.

When the rotating plate is continuously rotated to be in contact with the air bag, the rotating plate extrudes air in the air bag from the whistle, and the whistle at the moment gives out a pungent whistle to remind a driver.

As still further aspects of the invention: the vehicle forward limit assembly specifically comprises: the first through groove and the second through groove are respectively formed in two sides of the bottom end face of the bottom parking plate, the lug plate is fixedly connected to the middle position of the bottom end face of the bottom parking plate, the side face of the lug plate is rotationally connected with a lever, the lever is in a horizontal state under the action of external force, the top of one end of the lever is fixedly connected with a first metal supporting rod, the top end of the first metal supporting rod penetrates through the first through groove and is fixedly connected with a metal pressing plate, the top of the other end of the lever is fixedly connected with a second metal supporting rod, the top end of the side face of the second metal supporting rod penetrates through and is fixedly connected with a limiting rod, the top end face of the second metal supporting rod is flush with the top end opening of the second through groove, and a positioning piece is arranged inside the second through groove.

Because the snowy overhead traveling vehicle skis easily, and in addition the driver sight receives the barrier of snowy, the front and back distance is difficult to control when the vehicle slowly drives into on the bottom parking board, and at this moment, the spacing subassembly of vehicle forward can restrict the location to the front and back distance, specifically does: when a vehicle slowly drives into the bottom parking plate, the front wheel of the vehicle is pressed on the metal pressing plate, the metal pressing plate is pressed into the first through groove, at the moment, the first metal supporting rod moves downwards in a circular mode relative to the connection point of the lug plate and the lever, and then drives the second metal supporting rod to move upwards in a circular mode relative to the connection point of the lug plate and the lever, the top end of the second metal supporting rod is ejected out of the second through groove, the limiting rod protrudes out of the second through groove along with the second metal supporting rod, the metal pressing plate pressed into the first through groove together with the first metal supporting rod is fixed in the first through groove through the locating piece, the position of the limiting rod protruding out of the second through groove is stable, when the vehicle slowly drives into the bottom parking plate and the front wheel contacts with the limiting rod, the limiting rod props against the front wheel of the vehicle to remind a driver that the front and back position of the vehicle has reached a proper position, and the position at the moment is also convenient for the follow-up liftable heating assembly to melt big snow on the vehicle.

As still further aspects of the invention: the locating piece specifically includes: the second through groove is in a right trapezoid shape, the electromagnet is embedded on the inclined surface of the second through groove, and the side surface of the metal pressing plate is contacted with the electromagnet when the metal pressing plate is pressed down into the second through groove.

When the vehicle is driven into the bottom parking plate, the electromagnet is electrified to generate magnetism, and when the metal pressing plate and the first metal supporting rod are pressed into the first through groove, the first metal supporting rod and the metal pressing plate are firmly adsorbed and fixed by the electromagnet.

As still further aspects of the invention: the liftable heating component specifically comprises: offer at the inside right angle groove of stand, the inside swing joint in right angle groove has right angle lifter plate, and the inside center in right angle groove is equipped with spacing elevating system, adjacent two fixedly connected with heating rod between the right angle lifter plate.

After the vehicle is driven into the bottom parking plate, the bottom parking plate and the vehicle on the bottom parking plate are taken into the lifting groove through the lifting driving assembly, and at the moment, the heavy snow on the vehicle is easy to seriously corrode the vehicle paint and the vehicle chassis, so that the heavy snow on the vehicle body can be melted through the lifting heating assembly, and the method specifically comprises the following steps of: the right-angle lifting plate is driven to lift back and forth in the right-angle groove through the limiting lifting mechanism, the heating rods are electrified to generate heat, the four heating rods enclose the vehicle in the middle and build a heating environment, and the heating rods follow the back and forth lifting of the right-angle lifting plate to effectively heat the upper and lower surroundings of the vehicle in an omnibearing manner, so that the snow on the vehicle body is melted rapidly.

As still further aspects of the invention: the limit lifting mechanism specifically comprises: the two optical axes and two lead screws, two the optical axes run through two right angle lifter plates that are the diagonal and place respectively, and optical axes top and bottom respectively with right angle groove top wall, diapire fixed connection, two the lead screw runs through respectively and threaded connection two other right angle lifter plates that are the diagonal and place, and lead screw top and bottom respectively with right angle groove top wall, diapire swing joint, the inside fixedly connected with motor of stand of lead screw below, and motor top output and lead screw bottom fixed connection.

The specific use process of the limiting lifting mechanism is as follows: the motor operation drives the lead screw rotation, and the right angle lifter plate on the lead screw rises or descends in corresponding right angle groove, and the right angle lifter plate on the optical axis follows in corresponding right angle groove and rises or descends, guarantees that the reciprocates of each right angle lifter plate is unanimous, and improves the stability of each right angle lifter plate reciprocates.

As still further aspects of the invention: the lifting driving assembly specifically comprises: the fixed frame, fixed frame top swing joint has first support arm and the second support arm of alternately placing, and second support arm bottom, the equal swing joint in first support arm top have the gyro wheel, second support arm side fixedly connected with lower carriage, first support arm side fixedly connected with upper supporting frame, and swing joint has at least three cylinder between upper supporting frame and the lower carriage, a plurality of parallelly connected stabilizer blades of fixed frame bottom end face both sides fixedly connected with, the inclined plane is personally submitted to the lift groove bottom, and each stabilizer blade terminal surface is in same horizontal plane, and the bottom surface is fixed on the inclined plane of lift groove bottom.

The lifting driving component can drive the bottom parking plate to lift, and specifically comprises the following steps: when the cylinder runs to extend the output end, the cylinder pushes each roller to move to one side, the included angle between the first support arm and the second support arm is continuously reduced until the first support arm and the second support arm are contracted together, and the bottom parking plate is retracted into the lifting groove; when the cylinder operates to shrink the output end, the cylinder pulls each roller to move to the other side at the moment, and the included angle between the first support arm and the second support arm is continuously increased until the first support arm and the second support arm are unfolded to the maximum angle, and the bottom parking plate is lifted out of the lifting groove at the moment.

As still further aspects of the invention: the drainage mechanism specifically comprises: the water tank is fixed on one side of the tank body, the water tank is communicated with the bottom end of the inclined surface of the lifting groove through a drain pipe, and the booster pump is fixedly connected inside the water tank, and a water outlet pipe leading to the outside is arranged inside the water tank.

Because the bottom surface of the lifting groove is inclined, when snow on the vehicle is melted into water or external water flows into the lifting groove, the water flows into the water drain pipe along the inclined direction, then flows into the water tank through the water drain pipe, and after a period of time, the booster pump operates to drain the water accumulated in the water tank through the water outlet pipe, and the setting of the support legs can prevent the fixing frame from being directly washed and damaged by the water flow.

As still further aspects of the invention: the ventilation mechanism specifically comprises: and one end of the ventilation pipe is communicated with the inside of the lifting groove, and the other end of the ventilation pipe is connected with a fan on the ground.

When the air conditioner is used, in order to improve the ventilation and drying performance of the air in the lifting groove, the fan continuously sucks in the external air and conveys the external air into the lifting groove through the ventilation pipe.

Compared with the prior art, the invention has the beneficial effects that:

1. through the rearview mirror calibration assembly that sets up, can assist the driver to look for the parking direction in snowy day to can report to the police and remind the driver that the rearview mirror probably will scrape the stand, especially keep away from the rearview mirror of driver's position, the driver in time adjusts the steering wheel and guarantees that the rearview mirror can not scrape the stand, effectively avoids the rearview mirror impaired.

2. Because the large snow crown block is easy to slip, and the sight of the driver is blocked by large snow, the front-back distance is difficult to control when the vehicle slowly enters the bottom parking plate, and at the moment, the front-back distance can be limited and positioned by the vehicle forward limiting component, so that the driver is helped to stop the vehicle at a proper position, and a sufficient interval distance is provided for the follow-up snow melting work.

3. After the vehicle is driven into the bottom parking plate, the bottom parking plate and the vehicle on the bottom parking plate are taken into the lifting groove through the lifting driving assembly, at the moment, because big snow on the vehicle is easy to seriously corrode the vehicle paint and the vehicle chassis, the big snow on the vehicle body can be melted through the lifting heating assembly, compared with the traditional manual snow removing, the whole snow melting process is efficient and full in aspect, and the water left on the vehicle body can be quickly dried after the snow is melted into water, so that the vehicle is prevented from being corroded and damaged.

4. After the vehicle finishes snow melting and drying work, the top parking plate is heated through the lifting driving assembly, snow on the top parking plate is melted rapidly, the position of the top parking plate is conveniently found for parking, a large amount of snow can be prevented from entering the lifting groove when the bottom parking plate is lifted next time, and in addition, the lifting heating assembly lifted to the top end can not influence the entering and exiting of the vehicle.

5. Through drainage mechanism and ventilation mechanism that set up, not only can effectively discharge the ponding in the lift groove, can also improve the circulation and the desiccation of lift inslot air.

6. Because a large amount of snow adheres to on the vehicle, the existence of snow or snow after melting probably lead to the door to be frozen, do not open the door when needing to use, the license plate is covered by snow, but lift heating element can melt snow into water fast and will remain the water fast drying on the automobile body again after, this has effectively solved above-mentioned difficult problem, open the door and spill the license plate when conveniently using next time, in addition, snow on the wheel can lead to skidding after freezing, but lift heating element also can eliminate the snow on the wheel, avoid freezing skidding.

Drawings

FIG. 1 is a schematic diagram of an automated lifting system for a heavy duty large lift platform;

FIG. 2 is a schematic diagram of the structure of a box in an automated lifting system for a heavy duty large elevator platform;

FIG. 3 is a schematic diagram of a rearview mirror calibration assembly in an automated lifting system for a heavy duty large lift platform;

FIG. 4 is a view of the combination of a lift drive assembly and a bottom parking plate in a heavy duty large lift platform automated lifting system;

FIG. 5 is a combined view of a heating rod, a right angle lifter plate, and a right angle slot in an automated lifting system for a heavy-duty large lift platform;

FIG. 6 is a combined view of a heating rod, a right angle lifter plate, a lead screw, and an optical axis in an automated lifting system for a heavy-duty large lifter platform;

FIG. 7 is a view of the combination of a vehicle forward limit assembly and a bottom parking plate in a heavy duty large lift platform automated lifting system;

fig. 8 is a view of the combination of a plate and lever in a heavy duty large lift platform automated lifting system.

In the figure: 1. a case; 2. a lifting groove; 3. a lifting driving assembly; 301. a fixing frame; 302. a support leg; 303. a first support arm; 304. a second support arm; 305. a lower support frame; 306. a roller; 307. an upper support frame; 308. a cylinder; 4. a bottom parking plate; 5. a column; 6. a top parking plate; 7. a rearview mirror calibration assembly; 701. a notch; 702. a rotary groove; 703. a rotating plate; 704. a rubber layer; 705. a rotating shaft; 706. a spring; 707. an air bag; 708. a bar-shaped groove; 709. whistle; 8. a vehicle forward limit assembly; 801. a first through groove; 802. a second through slot; 803. ear plates; 804. a lever; 805. an electromagnet; 806. a second metal support rod; 807. a first metal support rod; 808. a limit rod; 809. a metal pressing plate; 9. a heating rod; 10. a right angle lifting plate; 11. a right angle slot; 12. a screw rod; 13. a motor; 14. a ventilation pipe; 15. a blower; 16. a drain pipe; 17. a water tank; 18. a booster pump; 19. a water outlet pipe; 20. an optical axis.

Detailed Description

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 8, in an embodiment of the present invention, an automated lifting system for a heavy-duty large elevator platform includes a box 1, wherein the box 1 is pre-buried underground, the top end surface of the box 1 is flush with the ground, a lifting groove 2 is formed in the box 1, a lifting driving assembly 3 is fixedly connected to the bottom end of the lifting groove 2, a bottom parking plate 4 is arranged at the top end of the lifting driving assembly 3, a stand column 5 is fixedly connected to a corner position of the top end surface of the bottom parking plate 4, and a top parking plate 6 is fixedly connected to the top end of the stand column 5; the opposite faces of the two upright posts 5 on the same side are symmetrically provided with rearview mirror calibration assemblies 7, the bottom end face of the bottom parking plate 4 is provided with a vehicle advancing limiting assembly 8, the outer side face of each upright post 5 is provided with a lifting heating assembly, one side of the box body 1 is provided with a drainage mechanism, and the other side of the box body 1 is provided with a ventilation mechanism. Through the rearview mirror calibration assembly 7 that sets up, can assist the driver to look for the parking direction in the big snow day, avoid the rear-view mirror impaired, through the liftable heating element that sets up, can melt big snow on the automobile body, avoid big snow to car lacquer and automobile chassis serious corrosion.

In this embodiment: the rearview mirror calibration assembly 7 specifically includes: the notch 701 is formed in the side face of the upright post 5, the rotating plate 703 is movably connected to the inside of the notch 701, the rotating shafts 705 are fixedly connected to the top end and the bottom end of the rotating plate 703, the rubber layer 704 is fixedly connected to the outer side face of the rotating plate 703, the two rotating shafts 705 are respectively movably connected to the rotating grooves 702 formed in the top end face and the bottom end face of the notch 701, the spring 706 is sleeved on the outer side face of the rotating shaft 705, the two ends of the spring 706 are respectively fixedly connected with the outer side face of the rotating shaft 705 and the inner wall of the rotating groove 702, and an alarm piece is arranged on the inner wall of one side of the notch 701. When the vehicle is parked on a snowy day, the vehicle drives into the bottom parking plate 4 from one side of the rearview mirror calibration assembly 7, when the rearview mirror of the vehicle is close to the upright post 5, the rotating plate 703 is contacted with the rearview mirror at first, the rubber layer 704 on the rotating plate 703 can effectively avoid abrasion to the rearview mirror, the rotating plate 703 is pushed to rotate by the rearview mirror in the rotating groove 702 along with the slow driving of the vehicle, if the rearview mirror on one side is too close to the upright post 5, the rotating plate 703 is continuously rotated to contact with the alarm piece, at the moment, the alarm piece alarms to remind a driver that the rearview mirror possibly needs to scrape the upright post 5, particularly the rearview mirror far away from a driving position, the driver timely adjusts the steering wheel to ensure that the rearview mirror cannot scrape the upright post 5, in addition, in the rotating plate 703 rotating process, the rotating shaft 705 in the rotating groove 702 follows rotation, the spring 706 deforms to be forced, and after the rearview mirror is separated from the rotating plate 703, the spring 706 resets to restore the original shape of the rotating plate 703.

In this embodiment: the alarm part specifically includes: the air bag 707, the air bag 707 inlays in the inner wall intermediate position of notch 701 one side, and air bag 707 one side has seted up bar groove 708, and bar groove 708 inside fixedly connected with whistle 709 with air bag 707 intercommunication. As the rotating plate 703 is continuously rotated into contact with the air bag 707, the rotating plate 703 forces air from the air bag 707 out of the whistle 709, where the whistle 709 emits a harsh whistle to alert the driver.

In this embodiment: the vehicle forward limit assembly 8 specifically includes: the first through groove 801 and the second through groove 802 which are respectively formed in two sides of the bottom end surface of the bottom parking plate 4 are fixedly connected with the lug 803 in the middle of the bottom end surface of the bottom parking plate 4, the side surface of the lug 803 is rotationally connected with the lever 804, the lever 804 is in a horizontal state under the action of external force, one end top of the lever 804 is fixedly connected with the first metal supporting rod 807, the top end of the first metal supporting rod 807 penetrates through the first through groove 801 and is fixedly connected with the metal pressing plate 809, the top of the other end top of the lever 804 is fixedly connected with the second metal supporting rod 806, the side top end of the second metal supporting rod 806 penetrates through and is fixedly connected with the limiting rod 808, the top end surface of the second metal supporting rod 806 is flush with the top end opening of the second through groove 802, and a positioning piece is arranged in the second through groove 802. Because the snowy overhead traveling vehicle skis easily, and in addition, the driver sight is blocked by the snowy, the front-back distance is difficult to control when the vehicle slowly drives into the bottom parking plate 4, and at this time, the vehicle forward limiting component 8 can limit and position the front-back distance, specifically: when the vehicle slowly drives into the bottom parking plate 4, the front wheel of the vehicle presses on the metal pressing plate 809, the metal pressing plate 809 is pressed into the first through groove 801, at this time, the first metal supporting rod 807 moves downwards circularly relative to the connection point of the lug 803 and the lever 804, so as to drive the second metal supporting rod 806 to move upwards circularly relative to the connection point of the lug 803 and the lever 804, the top end of the second metal supporting rod 806 is ejected out of the second through groove 802, the limiting rod 808 follows the second metal supporting rod 806 to protrude out of the second through groove 802, the metal pressing plate 809 pressed into the first through groove 801 together with the first metal supporting rod 807 is fixed in the first through groove 801 through the positioning piece, so that the position of the limiting rod 808 protruding out of the second through groove 802 is stable, when the vehicle slowly drives into the bottom parking plate 4 and the front wheel contacts the limiting rod 808, the front wheel of the limiting rod 808 reminds the driver that the front wheel of the vehicle has reached a proper position, and the position at this time is also convenient for the subsequent liftable heating assembly to melt the snow on the vehicle.

In this embodiment: the setting element specifically includes: the electromagnet 805, the second through slot 802 is in a right trapezoid shape, the electromagnet 805 is embedded on the inclined surface of the second through slot 802, and the side surface of the metal pressing plate 809 contacts with the electromagnet 805 when the metal pressing plate 809 is pressed down into the second through slot 802. When the vehicle is driven into the bottom parking plate 4, the electromagnet 805 is electrified to generate magnetism, and when the metal pressing plate 809 and the first metal supporting rod 807 are pressed into the first through groove 801, the first metal supporting rod 807 and the metal pressing plate 809 are firmly adsorbed and fixed by the electromagnet 805.

In this embodiment: liftable heating element specifically includes: offer at the inside right angle groove 11 of stand 5, the inside swing joint in right angle groove 11 has right angle lifter plate 10, and the inside center in right angle groove 11 is equipped with spacing elevating system, fixedly connected with heating rod 9 between two adjacent right angle lifter plates 10. After the vehicle is driven into the bottom parking plate 4, the bottom parking plate 4 and the vehicle on the bottom parking plate are taken into the lifting groove 2 through the lifting driving assembly 3, and at the moment, the heavy snow on the vehicle is easy to seriously corrode the vehicle paint and the vehicle chassis, so that the heavy snow on the vehicle body can be melted through the lifting heating assembly, and specifically: the right-angle lifting plate 10 is driven to lift back and forth in the right-angle groove 11 through the limiting lifting mechanism, the heating rods 9 are electrified to generate heat, the four heating rods 9 enclose the vehicle in the middle and build a heating environment, and the heating rods 9 follow the back and forth lifting of the right-angle lifting plate 10 to effectively heat the upper and lower surroundings of the vehicle in an omnibearing manner, so that the snow on the vehicle body is melted rapidly.

In this embodiment: spacing elevating system specifically includes: the two optical axes 20 and the two lead screws 12, the two optical axes 20 respectively penetrate through the two right-angle lifting plates 10 which are placed in a diagonal manner, the top end and the bottom end of the optical axes 20 are respectively fixedly connected with the top wall and the bottom wall of the right-angle groove 11, the two lead screws 12 respectively penetrate through and are in threaded connection with the other two right-angle lifting plates 10 which are placed in a diagonal manner, the top end and the bottom end of the lead screws 12 are respectively movably connected with the top wall and the bottom wall of the right-angle groove 11, a motor 13 is fixedly connected inside the upright post 5 below the lead screws 12, and the output end at the top of the motor 13 is fixedly connected with the bottom end of the lead screws 12. The specific use process of the limiting lifting mechanism is as follows: the motor 13 operates to drive the screw rod 12 to rotate, the right-angle lifting plate 10 on the screw rod 12 ascends or descends in the corresponding right-angle groove 11, the right-angle lifting plate 10 on the optical axis 20 ascends or descends in the corresponding right-angle groove 11, the up-and-down movement consistency of each right-angle lifting plate 10 is ensured, and the up-and-down movement stability of each right-angle lifting plate 10 is improved.

In this embodiment: the lift drive assembly 3 specifically includes: the fixed frame 301, the first support arm 303 and the second support arm 304 of fixed frame 301 top swing joint cross placement, and second support arm 304 bottom, the equal swing joint in first support arm 303 top has gyro wheel 306, second support arm 304 side fixedly connected with lower carriage 305, first support arm 303 side fixedly connected with upper supporting frame 307, and swing joint has at least three cylinder 308 between upper supporting frame 307 and the lower carriage 305, fixed frame 301 bottom surface both sides fixedly connected with a plurality of parallelly connected stabilizer blades 302, the inclined plane is personally submitted to the lift vat 2 bottom, each stabilizer blade 302 top face is in same horizontal plane, the bottom face is fixed on the inclined plane of lift vat 2 bottom. The lifting driving component 3 can drive the bottom parking plate 4 to lift, and specifically comprises the following steps: when the air cylinder 308 operates to extend the output end, the air cylinder 308 pushes each roller 306 to move to one side, and the included angle between the first supporting arm 303 and the second supporting arm 304 is continuously reduced until the first supporting arm 303 and the second supporting arm 304 are contracted together, and the bottom parking plate 4 is retracted into the lifting groove 2; when the air cylinder 308 operates to retract the output end, the air cylinder 308 pulls each roller 306 to move to the other side, and the included angle between the first supporting arm 303 and the second supporting arm 304 is continuously increased until the first supporting arm 303 and the second supporting arm 304 are unfolded to the maximum angle, and the bottom parking plate 4 is lifted out of the lifting groove 2.

In this embodiment: the drainage mechanism specifically includes: the water tank 17 is fixed on one side of the tank body 1, the water tank 17 is communicated with the bottom end of the inclined surface of the lifting groove 2 through the water drain pipe 16, the booster pump 18 is fixedly connected inside the water tank 17, and the water outlet pipe 19 leading to the outside is arranged inside the water tank 17. Because the bottom end surface of the lifting groove 2 is inclined, when snow on the vehicle and the bottom parking plate 4 is melted into water and flows into the lifting groove 2, the water flows into the drain pipe 16 along the inclined direction, then flows into the water tank 17 through the drain pipe 16, and after a period of time, the booster pump 18 operates to discharge the accumulated water in the water tank 17 through the water outlet pipe 19, and it is noted that the setting of the support legs 302 can prevent the fixing frame 301 from being directly washed and damaged by the water flow.

In this embodiment: the ventilation mechanism specifically includes: a ventilation pipe 14 fixed on the other side of the box body 1, one end of the ventilation pipe 14 is communicated with the inside of the lifting groove 2, and the other end of the ventilation pipe 14 is connected with a fan 15 on the ground. In use, in order to improve the ventilation and drying of the air in the lifting tank 2, the fan 15 continuously sucks in the outside air and delivers the outside air to the lifting tank 2 through the ventilation pipe 14

The working principle of the invention is as follows: when a vehicle is required to be parked on the bottom parking plate 4 in snowy weather, first, the bottom parking plate 4 is lifted up by the lifting drive assembly 3, specifically: the air cylinder 308 operates to retract the output end, the air cylinder 308 pulls each roller 306 to move to the other side, and the included angle between the first supporting arm 303 and the second supporting arm 304 is continuously increased until the first supporting arm 303 and the second supporting arm 304 are unfolded to the maximum angle, and the bottom parking plate 4 is lifted out of the lifting groove 2. Then, the vehicle slowly drives into the bottom parking plate 4 from the side where the rearview mirror calibration assembly 7 is located, when the rearview mirror of the vehicle is close to the upright post 5, firstly, the rotating plate 703 is contacted with the rearview mirror, the rubber layer 704 on the rotating plate 703 can effectively avoid abrasion to the rearview mirror, as the vehicle slowly drives in, the rotating plate 703 is pushed to rotate by the rearview mirror in the rotating groove 702, if the rearview mirror on one side is too close to the upright post 5, the rotating plate 703 continuously rotates to contact with the alarm, at this time, the alarm alarms to remind a driver that the rearview mirror possibly needs to scrape to the upright post 5, particularly the rearview mirror far away from the driving position, and the driver timely adjusts the steering wheel to ensure that the rearview mirror does not scrape to the upright post 5.

In the process that the vehicle slowly drives into the bottom parking plate 4, because the snowy overhead traveling vehicle is easy to slip, and the sight of the driver is blocked by the snowy, the front-back distance is difficult to control when the vehicle slowly drives into the bottom parking plate 4, and at this time, the vehicle forward limiting component 8 can limit and position the front-back distance, specifically: when the vehicle slowly drives into the bottom parking plate 4, the front wheel of the vehicle presses on the metal pressing plate 809, the metal pressing plate 809 is pressed into the first through groove 801, at this time, the first metal supporting rod 807 moves downwards circularly relative to the connection point of the lug 803 and the lever 804, so as to drive the second metal supporting rod 806 to move upwards circularly relative to the connection point of the lug 803 and the lever 804, the top end of the second metal supporting rod 806 is ejected out of the second through groove 802, the limiting rod 808 follows the second metal supporting rod 806 to protrude out of the second through groove 802, the metal pressing plate 809 pressed into the first through groove 801 together with the first metal supporting rod 807 is fixed in the first through groove 801 through the positioning piece, so that the position of the limiting rod 808 protruding out of the second through groove 802 is stable, when the vehicle slowly drives into the bottom parking plate 4 and the front wheel contacts the limiting rod 808, the front wheel of the limiting rod 808 reminds the driver that the front wheel of the vehicle has reached a proper position, and the position at this time is also convenient for the subsequent liftable heating assembly to melt the snow on the vehicle.

After the vehicle is at a parked position, the driver gets off the vehicle and lowers the bottom parking plate 4 through the lifting driving assembly 3, specifically: the air cylinder 308 operates to extend the output end, at this time, the air cylinder 308 pushes each roller 306 to move to one side, and the included angle between the first supporting arm 303 and the second supporting arm 304 is continuously reduced until the first supporting arm 303 and the second supporting arm 304 are contracted together, at this time, the bottom parking plate 4 is retracted into the lifting groove 2, and the top parking plate 6 covers the top opening of the lifting groove 2, so that the big snow is prevented from entering the lifting groove 2. Subsequently, because the heavy snow on the vehicle is easy to severely corrode the vehicle paint and the vehicle chassis, the heavy snow on the vehicle body can be melted by the liftable heating component, specifically: the right-angle lifting plate 10 is driven to lift back and forth in the right-angle groove 11 through the limiting lifting mechanism, the heating rods 9 are electrified to generate heat, the four heating rods 9 enclose the vehicle in the middle and build a heating environment, and the heating rods 9 follow the back and forth lifting of the right-angle lifting plate 10 to effectively heat the upper and lower surroundings of the vehicle in an omnibearing manner, so that the snow on the vehicle body is melted rapidly. In addition, in snowy weather, four heating rods 9 can be still sent to the highest position by spacing elevating system and heat top parking board 6 after melting the big snow on the vehicle, and then melt the snow on the top parking board 6 fast, not only conveniently find the position of top parking board 6 and park, can also avoid a large amount of snow to get into lift groove 2 when lifting bottom parking board 4 next time. Wherein, the specific use process of the spacing elevating system is: the motor 13 operates to drive the screw rod 12 to rotate, the right-angle lifting plate 10 on the screw rod 12 ascends or descends in the corresponding right-angle groove 11, the right-angle lifting plate 10 on the optical axis 20 ascends or descends in the corresponding right-angle groove 11, the up-and-down movement consistency of each right-angle lifting plate 10 is ensured, and the up-and-down movement stability of each right-angle lifting plate 10 is improved.

Finally, because the bottom end surface of the lifting groove 2 is inclined, when the snow on the vehicle and the bottom parking plate 4 is melted into water and flows into the lifting groove 2, the water flows into the drain pipe 16 along the inclined direction, then flows into the water tank 17 through the drain pipe 16, and after a period of time, the booster pump 18 operates to discharge the water accumulated in the water tank 17 through the water outlet pipe 19, and it is noted that the fixing frame 301 can be prevented from being directly washed and damaged by the water flow due to the arrangement of the supporting legs 302. When the vehicle is needed to use, the vehicle can be taken only by lifting the bottom parking plate 4 again, when the vehicle is taken, the electromagnet 805 is powered off and the magnetism disappears to release the first metal supporting rod 807 and the metal pressing plate 809, and because the lever 804 is in a horizontal state under the action of no external force, the second metal supporting rod 806 is retracted into the second through groove 802 along with the return of the lever 804 to the horizontal state, at the moment, the limiting rod 808 is not abutted against the front wheels of the vehicle along with the retraction of the second through groove 802, and the vehicle can smoothly exit the bottom parking plate 4 through the second through groove 802.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

The present invention is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present invention and the inventive concept thereof, can be replaced or changed equally within the scope of the present invention.

Claims (7)

1. The automatic lifting system for the heavy-duty large elevator platform is characterized by comprising a box body (1), wherein the box body (1) is pre-buried underground, the top end face of the box body (1) is flush with the ground, a lifting groove (2) is formed in the box body (1), a lifting driving assembly (3) is fixedly connected to the bottom end inside the lifting groove (2), a bottom parking plate (4) is arranged at the top end of the lifting driving assembly (3), an upright post (5) is fixedly connected to the corner position of the top end face of the bottom parking plate (4), and a top parking plate (6) is fixedly connected to the top end of the upright post (5);

the two opposite surfaces of the upright posts (5) on the same side are symmetrically provided with rearview mirror calibration assemblies (7), the bottom end surface of the bottom parking plate (4) is provided with a vehicle advancing limiting assembly (8), the outer side surface of the upright post (5) is provided with a lifting heating assembly, one side of the box body (1) is provided with a drainage mechanism, and the other side of the box body (1) is provided with a ventilation mechanism;

the rearview mirror calibration assembly (7) comprises: the automatic alarm device comprises a notch (701) formed in the side face of a stand column (5), wherein the inside of the notch (701) is movably connected with a rotating plate (703), the top end and the bottom end of the rotating plate (703) are fixedly connected with rotating shafts (705), the outer side face of the rotating plate (703) is fixedly connected with a rubber layer (704), the two rotating shafts (705) are respectively and movably connected in rotating grooves (702) formed in the top end face and the bottom end face of the notch (701), a spring (706) is sleeved on the outer side face of the rotating shaft (705), and two ends of the spring (706) are respectively and fixedly connected with the outer side face of the rotating shaft (705) and the inner wall of the rotating groove (702), and an alarm piece is arranged on the inner wall of one side of the notch (701);

the alarm part specifically comprises: the air bag (707), the air bag (707) is embedded in the middle position of the inner wall at one side of the notch (701), one side of the air bag (707) is provided with a strip-shaped groove (708), and a whistle (709) communicated with the air bag (707) is fixedly connected inside the strip-shaped groove (708);

the vehicle forward limit assembly (8) specifically comprises: offer first logical groove (801), second logical groove (802) in end face both sides of end parking board (4) respectively, end parking board (4) bottom intermediate position fixedly connected with otic placode (803), and otic placode (803) side rotates and be connected with lever (804), lever (804) are in the horizontality under not receiving the exogenic action, lever (804) one end top fixedly connected with first metal support pole (807), and first metal support pole (807) top runs through first logical groove (801) and fixedly connected with metal clamp plate (809), lever (804) other end top fixedly connected with second metal support pole (806), and side top of second metal support pole (806) runs through and fixedly connected with gag lever post (808), second metal support pole (806) top end face flushes with second logical groove (802) top opening, second logical inslot (802) is equipped with the setting element.

2. The automated lifting system of a heavy-duty large lift platform of claim 1, wherein the positioning member comprises: the second through groove (802) is in a right trapezoid shape, the electromagnet (805) is embedded on the inclined surface of the second through groove (802), and the side surface of the metal pressing plate (809) is contacted with the electromagnet (805) when the metal pressing plate (809) is pressed down into the second through groove (802).

3. The automated lifting system of a heavy duty large lift platform of claim 1, wherein the liftable heating assembly specifically comprises: offer right angle groove (11) inside stand (5), right angle groove (11) inside swing joint has right angle lifter plate (10), and right angle groove (11) inside center is equipped with spacing elevating system, adjacent two fixedly connected with heating rod (9) between right angle lifter plate (10).

4. The automated lifting system of a heavy-duty large lift platform of claim 3, wherein the limit lifting mechanism comprises: two optical axes (20) and two lead screws (12), two optical axes (20) run through two right angle lifter plates (10) that are the diagonal and place respectively, and optical axes (20) top and bottom respectively with right angle groove (11) roof, diapire fixed connection, two lead screws (12) run through respectively and threaded connection two other right angle lifter plates (10) that are the diagonal and place, and lead screw (12) top and bottom respectively with right angle groove (11) roof, diapire swing joint, stand (5) inside fixedly connected with motor (13) of lead screw (12) below, and motor (13) top output and lead screw (12) bottom fixed connection.

5. The heavy-duty large elevator platform automated lifting system of claim 1, wherein the lift drive assembly (3) specifically comprises: mount (301), mount (301) top swing joint has first support arm (303) and second support arm (304) of alternately placing, and second support arm (304) bottom, first support arm (303) top all swing joint have gyro wheel (306), second support arm (304) side fixedly connected with bottom suspension frame (305), first support arm (303) side fixedly connected with top suspension frame (307), and swing joint has at least three cylinder (308) between top suspension frame (307) and bottom suspension frame (305), mount (301) bottom surface both sides fixedly connected with a plurality of stabilizer blade (302) that connect in parallel, the inclined plane is personally submitted to lifting groove (2) bottom, and each stabilizer blade (302) top surface is in same horizontal plane, and the bottom surface is fixed on the inclined plane of lifting groove (2) bottom.

6. The automated lifting system of a heavy duty large lift platform of claim 5, wherein the drainage mechanism comprises: the water tank (17) is fixed on one side of the tank body (1), the water tank (17) is communicated with the bottom end of the inclined surface of the lifting groove (2) through a drain pipe (16), a booster pump (18) is fixedly connected inside the water tank (17), and a water outlet pipe (19) leading to the outside is arranged inside the water tank (17).

7. The heavy duty large lift platform automated lifting system of claim 1, wherein the ventilation mechanism specifically comprises: and a ventilation pipe (14) fixed on the other side of the box body (1), wherein one end of the ventilation pipe (14) is communicated with the inside of the lifting groove (2), and the other end of the ventilation pipe (14) is connected with a fan (15) on the ground.