CN117401610A - Electromechanical equipment lifting platform with low power consumption - Google Patents

Abstract

The invention relates to the technical field of elevators, in particular to a low-power-consumption electromechanical equipment lifting platform which comprises a vertical supporting portal frame, a transverse underframe, a stable lifting mechanism, an up-down gradient adjusting mechanism and a transverse moving mechanism, wherein the transverse underframe is arranged on the front side of the lower end of the vertical supporting portal frame, the rear end of the transverse underframe is correspondingly connected and fixed with the two sides of the lower end of the vertical supporting portal frame, the stable lifting mechanism is arranged in the middle of the front end of the vertical supporting portal frame, the up-down gradient adjusting mechanism is arranged at the front end of the transverse underframe, and the transverse moving mechanism is arranged on the two sides of the lower end of the transverse underframe. Through setting up transverse movement mechanism, the motor passes through a plurality of transverse connection pivots of chain drive and rotates, and a plurality of transverse connection pivots drive a plurality of transverse movement gyro wheels along transverse movement track lateral movement to drive whole mechanism can follow the production process fore-and-aft movement of product, and remove nimble, convenient operation.

Description

Electromechanical equipment lifting platform with low power consumption

Technical Field

The invention relates to the technical field of elevators, in particular to a low-power-consumption electromechanical equipment lifting platform.

Background

The lifting platform is a multifunctional lifting loading and unloading mechanical device. The hydraulic lifting platform is widely applicable to various industrial enterprises and production lines such as automobiles, containers, mould manufacturing, wood processing, chemical filling and the like, meets the lifting demands of different operation heights, can be assembled with various table top forms, has the characteristics of stable and accurate lifting, frequent starting, large carrying capacity and the like in cooperation with various control modes, and effectively solves various lifting operation difficulties in the industrial enterprises, so that the production operation is easy and free.

Chinese patent application number CN102786012a discloses a large tonnage lifting platform, the center of gravity of which is in the middle of the platform, and which can bear large tonnage and weight. The invention adopts the following technical scheme: the large-tonnage lifting platform comprises a hydraulic system, an electric system, a base, a platform and a lifting device, wherein the electric system comprises a motor and an electric cabinet, the hydraulic system comprises a hydraulic station, the lifting device comprises two groups of scissors structures, the two groups of scissors structures are connected through a mandrel, two ends of the two groups of scissors structures are connected through a fixed shaft, the scissors structures comprise an outer lifting fork and an inner lifting fork, rollers are arranged at two ends of the two lifting forks, and the base and the platform are provided with sliding grooves for the rollers to slide; the hydraulic system also comprises a plurality of hydraulic cylinders, and two ends of each hydraulic cylinder are respectively connected with the mandrel and the fixed shaft. The invention has the beneficial effects that: the lifting fork with the structure slides from two ends to the middle simultaneously, and the gravity center is positioned in the middle of the platform, so that the lifting fork can bear large-tonnage weight articles.

The Chinese patent with the application number of CN103523706A discloses a wall-mounted multi-cylinder lifting platform which is small in hydraulic cylinder stroke, low in cost and convenient to maintain. A wall-mounted multi-cylinder lifting platform comprises a workbench surface, a fixing frame, a main guide frame, a main telescopic cylinder, a plurality of auxiliary guide frames, a plurality of auxiliary telescopic cylinders and two chains, wherein guide rails are arranged on the left side and the right side of the fixing frame; the main guide frame and the auxiliary guide frames are arranged on the fixed frame, roller groups capable of sliding along the guide rails are arranged on the main guide frame and the auxiliary guide frames, and pulley blocks are also fixed on the main guide frame; one end of each of the two chains is arranged on the workbench surface, and the other end of each of the two chains passes through the pulley block and is arranged at the bottom of the fixing frame; the auxiliary telescopic cylinders are arranged from top to bottom and have the same number as the auxiliary guide frames; the main telescopic cylinder is positioned above the auxiliary telescopic cylinder.

In the assembly process of certain large products, such as containers, it is required that the elevator be able to place the product on the automated conveyor chain across a drive end (drive head of the automated conveyor chain) having a certain height. The above-mentioned lifting platforms do not meet this requirement. Therefore, there is an urgent need for a lifter that can span a higher driving end and can move linearly on a fixed rail, so as to meet the requirements of workshops in processing products, and improve production efficiency.

Disclosure of Invention

The invention aims at the problems in the prior art, and provides a low-power-consumption electromechanical equipment lifting platform, which is provided with a transverse moving mechanism, wherein a motor drives a plurality of transverse connecting rotating shafts to rotate through chain transmission, and the transverse connecting rotating shafts drive a plurality of transverse moving rollers to transversely move along a transverse moving track, so that the whole mechanism is driven to move back and forth along the production process of a product, and the movement is flexible and the operation is convenient.

The basic scheme of the invention is as follows: the low-power consumption electromechanical equipment lifting platform comprises a vertical supporting portal frame, a transverse chassis, a stable lifting mechanism, an up-down gradient adjusting mechanism and a transverse moving mechanism, wherein the transverse chassis is arranged at the front side of the lower end of the vertical supporting portal frame, the rear end of the transverse chassis is correspondingly connected and fixed with the two sides of the lower end of the vertical supporting portal frame, the stable lifting mechanism is arranged in the middle of the front end of the vertical supporting portal frame, the up-down gradient adjusting mechanism is arranged at the front end of the transverse chassis, and the transverse moving mechanism is arranged at the two sides of the lower end of the transverse chassis;

the stable lifting mechanism comprises a lifting platform, sliding components, counterweight consumption reducing components and auxiliary stabilizing components, wherein the lifting platform is arranged at the middle end inside the vertical support portal frame, the sliding components are arranged at two sides of the front end of the vertical support portal frame, the counterweight consumption reducing components are arranged at two sides of the upper end of the lifting platform, and the auxiliary stabilizing components are arranged at two sides of the front end of the lifting platform.

Preferably, the transverse moving mechanism comprises driven sprockets, a transverse driving chain, a driving sprocket, a transverse driving motor, a transverse connecting rotating shaft, transverse moving tracks and transverse moving rollers, wherein two transverse connecting rotating shafts are arranged, two transverse connecting rotating shafts are distributed on front and back sides of the lower end in the transverse underframe at intervals, each transverse connecting rotating shaft penetrates through two sides of the transverse underframe correspondingly and is connected with the transverse underframe through connecting bearings in a rotating mode, each transverse connecting rotating shaft is provided with the transverse moving rollers at two ends, the transverse moving tracks are provided with two transverse moving rollers, each transverse moving track is distributed on two sides of the lower end of the transverse underframe, each transverse moving roller is connected with the corresponding sliding of each transverse moving track in a corresponding mode, the transverse driving motor is arranged at one middle end of the inner side of the transverse underframe, the driving sprocket is arranged on the outer side of the transverse driving motor, the driven sprocket is arranged on one side of the front end of the transverse connecting rotating shaft, and the driving sprocket and the driven sprocket are connected with the driven sprocket in a corresponding meshed mode through the transverse driving chain.

Preferably, the feeding and discharging gradient adjusting mechanism comprises an adjusting side plate, a fixed support, a rotating bearing seat, an adjusting telescopic rod and an adjusting cylinder, wherein two sides of the rear end of the adjusting side plate are correspondingly connected with two sides of the front end of the transverse underframe through the rotating bearing seat in a rotating mode, the two adjusting cylinders are arranged on two sides of the lower end of the inner portion of the transverse underframe at intervals, the rear end of the adjusting cylinder is correspondingly connected with the lower end of the transverse underframe through the fixed support in a rotating mode, the inner portion of the front end of the adjusting cylinder is respectively provided with the adjusting telescopic rod, and the front end of the adjusting telescopic rod is correspondingly connected with two sides of the middle portion of the lower end of the adjusting side plate through the fixed support in a rotating mode.

Preferably, the lifting platform comprises a lifting motor, a lifting threaded rod, a lifting sliding sleeve, a lifting sliding side plate and a supporting flat plate, the supporting flat plate is arranged at the top end of a transverse chassis, the lifting sliding side plate is arranged at the middle part of the rear end of the supporting flat plate, the lower end of the lifting sliding side plate is correspondingly connected and fixed with the middle part of the rear end of the supporting flat plate, the lifting motor is arranged at the middle part of the top end of the vertical supporting portal frame, the lifting threaded rod is arranged at the middle end of the inside of the vertical supporting portal frame, the upper end and the lower end of the lifting threaded rod are correspondingly and rotatably connected with the vertical supporting portal frame, the upper end of the lifting threaded rod passes through the vertical supporting portal frame and is correspondingly connected with the lower end of the lifting motor in a transmission manner, and the rear end of the lifting sliding sleeve passes through the lifting threaded rod and is correspondingly meshed with the lifting threaded rod in a sliding manner.

Preferably, the counter weight reduces the consumption subassembly and includes connection chain, corner sliding support, peg and balancing weight, the peg is equipped with two, two the peg interval distribution is in the inside upper end both sides of vertical support portal frame, two the peg side all is equipped with a plurality of balancing weights of overlapping and placing, two the peg upper end corresponds the connection through the connection chain respectively with lift sliding side plate upper end both sides, vertical support portal frame top both sides all are equipped with corner sliding support, two connect the chain middle part and pass two corner sliding support tops respectively and with corner sliding support sliding connection.

Preferably, the sliding assembly comprises sliding blocks and sliding rails, the sliding rails are arranged on two sides of the front end of the vertical support portal frame, the sliding blocks are arranged on two sides of the rear end of the lifting sliding side plate, and a plurality of sliding blocks are correspondingly and slidably connected with a plurality of sliding rails.

Preferably, each auxiliary stabilizing assembly comprises a sliding frame, a movable roller underframe, a movable roller and a fixed side plate, wherein the rear side of the lower end of the sliding frame is correspondingly connected and fixed with one side of the front end of the transverse underframe, the movable roller underframe is arranged at the bottom end of the sliding frame, the middle part of the upper end of the movable roller underframe is correspondingly connected and fixed with the bottom end of the sliding frame, the rear end of the fixed side plate is correspondingly connected and fixed with one side of the front end of the supporting plate, the upper side and the lower side of the front end of the fixed side plate are respectively provided with a movable roller, and each movable roller is correspondingly and slidably connected with the inner wall of the sliding frame.

Preferably, the dull and stereotyped rear end both sides of support all are equipped with the clamp assembly, every clamp assembly includes V type supporting rod, connects the swivel mount, presss from both sides tight telescopic link, mounting panel and presss from both sides tight cylinder, the mounting panel front end corresponds fixedly with supporting dull and stereotyped rear end one side, it corresponds the rotation with mounting panel rear end middle part to press from both sides tight cylinder rear end and be connected, V type supporting rod middle part bottom corresponds the rotation through connecting the swivel mount with supporting dull and stereotyped and is connected, it all is equipped with the tight telescopic link of clamp to press from both sides tight cylinder front end inside, it corresponds the rotation with V type supporting rod rear end to press from both sides tight telescopic link front end and is connected.

Preferably, auxiliary pulleys are arranged on two sides of the rear part of the bottom end of the vertical support portal frame.

Preferably, the lower side of the front end of each V-shaped supporting rod is provided with an anti-slip pad.

The invention has the advantages that:

according to the invention, the motor drives the plurality of transverse connecting rotating shafts to rotate through chain transmission, and the plurality of transverse connecting rotating shafts drive the plurality of transverse moving rollers to transversely move along the transverse moving track, so that the whole mechanism is driven to move back and forth along the production process of a product, the movement is flexible, the operation is convenient, the feeding and discharging gradient adjusting mechanism is arranged, the lifting platform and the ground are conveniently inclined at an acute angle during feeding and discharging, the goods pulling channel lifting platform is conveniently provided, and the stable lifting mechanism with the counterweight is arranged.

Drawings

FIG. 1 is a schematic diagram of a low power consumption electromechanical device lift platform of the present invention (view I);

FIG. 2 is a schematic diagram of a low-power-consumption lifting platform of an electromechanical device according to the present invention (view two);

FIG. 3 is an enlarged view of a portion A of FIG. 2;

FIG. 4 is a schematic diagram of a stable lifting mechanism in a low-power consumption electromechanical device lifting platform according to the present invention (view I);

FIG. 5 is a schematic diagram of a stable lifting mechanism in a low-power consumption electromechanical device lifting platform (view two);

FIG. 6 is an enlarged view of part B of FIG. 5;

FIG. 7 is a schematic diagram of a lateral movement mechanism in a low power consumption electromechanical device lift platform of the present invention;

fig. 8 is a schematic structural diagram of an up-down slope adjusting mechanism in the low-power consumption electromechanical device lifting platform of the invention.

Reference numerals referred to in the drawings are:

a portal frame 1 is vertically supported;

the auxiliary stabilizing assembly 2, the sliding frame 201, the movable roller underframe 202, the movable roller 203 and the fixed side plate 204;

the feeding and discharging slope adjusting mechanism 3, an adjusting side plate 301, a fixed support 302, a rotating bearing seat 303, an adjusting telescopic rod 304 and an adjusting cylinder 305;

a transverse moving mechanism 4, a moving chain wheel 401, a transverse transmission chain 402, a driving chain wheel 403, a transverse transmission motor 404, a transverse connecting rotating shaft 405, a transverse moving track 406 and a transverse moving roller 407;

clamping assembly 5, V-shaped supporting rod 501, connecting swivel base 502, clamping telescopic rod 503, mounting plate 504, clamping cylinder 505 and anti-slip pad 506;

a lifting platform 6, a lifting motor 601, a lifting threaded rod 602, a lifting sliding sleeve 603, a lifting sliding side plate 604 and a supporting flat plate 605;

a sliding assembly 7, a sliding block 701 and a sliding track 702;

the counterweight consumption reducing assembly 8, a connecting lock chain 801, a corner sliding support 802, a hanging rod 803 and a counterweight 804;

auxiliary pulley 9, transverse chassis 10.

Detailed Description

The following is a further detailed description of the embodiments:

as shown in fig. 1-8, the low-power-consumption electromechanical equipment lifting platform comprises a vertical supporting portal frame 1, a transverse underframe 10, a stable lifting mechanism, an up-down gradient adjusting mechanism 3 and a transverse moving mechanism 4, wherein the transverse underframe 10 is arranged at the front side of the lower end of the vertical supporting portal frame 1, the rear end of the transverse underframe 10 is correspondingly connected and fixed with two sides of the lower end of the vertical supporting portal frame 1, the stable lifting mechanism is arranged in the middle of the front end of the vertical supporting portal frame 1, the up-down gradient adjusting mechanism 3 is arranged at the front end of the transverse underframe 10, and the transverse moving mechanism 4 is arranged at two sides of the lower end of the transverse underframe 10;

the stable lifting mechanism comprises a lifting platform 6, sliding components 7, counterweight consumption reducing components 8 and auxiliary stabilizing components 2, wherein the lifting platform 6 is arranged at the middle end inside the vertical support portal frame 1, the sliding components 7 are arranged at the two sides of the front end of the vertical support portal frame 1, the counterweight consumption reducing components 8 are arranged at the two sides of the upper end of the lifting platform 6, and the auxiliary stabilizing components 2 are arranged at the two sides of the front end of the lifting platform 6.

The transverse moving mechanism 4 comprises driven sprockets 401, transverse driving chains 402, driving sprockets 403, transverse driving motors 404, transverse connecting rotating shafts 405, transverse moving tracks 406 and transverse moving rollers 407, wherein two transverse connecting rotating shafts 405 are arranged, the two transverse connecting rotating shafts 405 are distributed on the front side and the rear side of the lower end of the inner portion of the transverse chassis 10 at intervals, two ends of each transverse connecting rotating shaft 405 correspondingly penetrate through two sides of the transverse chassis 10 and are in rotary connection with the transverse chassis 10 through connecting bearings, the transverse moving rollers 407 are arranged at two ends of each transverse connecting rotating shaft 405, two transverse moving tracks 406 are arranged, the two transverse moving tracks 406 are distributed on two sides of the lower end of the transverse chassis 10 at intervals, each transverse moving roller 407 is correspondingly and slidably connected with each transverse moving track 406, the transverse driving motors 404 are arranged at the middle end of one side of the inner portion of the transverse chassis 10, the driving sprockets 403 are arranged on the outer side of the transverse driving motors 404, the driven sprockets 401 are arranged on one side of the front end of the transverse connecting rotating shafts 405, and the driving sprockets 403 are correspondingly meshed with the driven sprockets 401 through the transverse driving chains 402. The transverse moving mechanism 4 is provided with a driven sprocket 401, a transverse transmission chain 402, a driving sprocket 403 and a transverse transmission motor 404, and is driven by the motor to drive the chain transmission, so that the transmission is more stable, the precision is higher, the maintenance cost is lower, a transverse connection rotating shaft 405, a transverse moving track 406 and transverse moving rollers 407 are arranged, and the transverse connection rotating shaft 405 drives the transverse moving rollers 407 to slide on the transverse moving track 406, so that the whole structure is driven to stably and horizontally move.

The feeding and discharging gradient adjusting mechanism 3 comprises an adjusting side plate 301, a fixed support 302, a rotary bearing seat 303, an adjusting telescopic rod 304 and adjusting cylinders 305, wherein two sides of the rear end of the adjusting side plate 301 are correspondingly connected with two sides of the front end of the transverse underframe 10 through the rotary bearing seat 303 in a rotating mode, the two adjusting cylinders 305 are arranged on two sides of the lower end of the inner portion of the transverse underframe 10 at intervals, the rear end of each adjusting cylinder 305 is correspondingly connected with the lower end of the transverse underframe 10 through the fixed support 302 in a rotating mode, an adjusting telescopic rod 304 is arranged in the front end of each adjusting cylinder 305, and the front end of each adjusting telescopic rod 304 is correspondingly connected with two sides of the middle portion of the lower end of the adjusting side plate 301 through the fixed support 302 in a rotating mode. The loading and unloading slope adjustment mechanism 3 is provided with an adjustment side plate 301, is convenient for supporting loading and unloading of cargoes, is provided with an adjustment telescopic rod 304 and an adjustment cylinder 305, adopts an air pressure driving mode, and drives the adjustment side plate 301 according to the vertical distance between the ground and the lifting platform, so that the specified angle of the track can be overturned.

The lifting platform 6 comprises a lifting motor 601, a lifting threaded rod 602, a lifting sliding sleeve 603, a lifting sliding side plate 604 and a supporting flat plate 605, wherein the supporting flat plate 605 is arranged at the top end of the transverse chassis 10, the lifting sliding side plate 604 is arranged at the middle of the rear end of the supporting flat plate 605, the lower end of the lifting sliding side plate 604 is correspondingly connected and fixed with the middle of the rear end of the supporting flat plate 605, the lifting motor 601 is arranged at the middle of the top end of the vertical supporting portal frame 1, the lifting threaded rod 602 is arranged at the middle end of the inside of the vertical supporting portal frame 1, the upper end and the lower end of the lifting threaded rod 602 are correspondingly and rotatably connected with the vertical supporting portal frame 1, the upper end of the lifting threaded rod 602 passes through the vertical supporting portal frame 1 and is correspondingly in transmission connection with the lower end of the lifting motor 601, the lifting sliding sleeve 603 is arranged at the middle of the rear end of the lifting sliding side plate 604, and the rear end of the lifting sliding sleeve 603 passes through the lifting threaded rod 602 and is correspondingly meshed and slidingly connected with the lifting threaded rod 602. The lifting platform 6 is provided with a lifting motor 601, a lifting threaded rod 602 and a lifting sliding sleeve 603, the lifting threaded rod 602 is driven to rotate through the lifting motor 601, then the lifting threaded rod 602 drives the lifting sliding side plate 604 to move up and down through the lifting sliding sleeve 603, the lifting sliding side plate 604 is arranged, the supporting flat plate 605 is conveniently driven to move up and down, the supporting flat plate 605 is arranged, and goods are conveniently supported and placed.

The counterweight consumption reducing assembly 8 comprises a connecting lock chain 801, corner sliding supports 802, hanging rods 803 and counterweight blocks 804, wherein two hanging rods 803 are arranged, the two hanging rods 803 are distributed on two sides of the upper end inside the vertical support portal frame 1 at intervals, a plurality of counterweight blocks 804 which are placed in an overlapping mode are arranged on the side faces of the two hanging rods 803, the upper ends of the two hanging rods 803 are correspondingly connected with the two sides of the upper end of the lifting sliding side plate 604 through the connecting lock chain 801 respectively, the two sides of the top end of the vertical support portal frame 1 are respectively provided with the corner sliding supports 802, and the middle parts of the two connecting lock chains 801 penetrate through the top ends of the two corner sliding supports 802 respectively and are in sliding connection with the corner sliding supports 802. The counterweight consumption reducing assembly 8 is provided with a connecting chain 801, a convenient hanging rod 803 is fixedly connected with the lifting sliding side plate 604, a corner sliding support 802 is arranged, sliding friction force at a corner of the connecting chain 801 is slowed down, the service life of the connecting chain 801 is prolonged, the hanging rod 803 is arranged, and a counterweight 804 is convenient to hang.

The sliding assembly 7 comprises sliding blocks 701 and sliding rails 702, the sliding rails 702 are arranged on two sides of the front end of the vertical support portal frame 1, the sliding blocks 701 are arranged on two sides of the rear end of the lifting sliding side plate 604, and the sliding blocks 701 are correspondingly connected with the sliding rails 702 in a sliding manner. The sliding assembly 7 is provided with the sliding block 701 and the sliding track 702, so that the lifting sliding side plate 604 can be conveniently assisted to move up and down, and the overall movement stability is further improved.

Each auxiliary stabilizing assembly 2 comprises a sliding frame 201, a movable roller underframe 202, movable rollers 203 and a fixed side plate 204, wherein the rear side of the lower end of the sliding frame 201 is correspondingly connected and fixed with one side of the front end of the transverse underframe 10, the movable roller underframe 202 is arranged at the bottom end of the sliding frame 201, the middle part of the upper end of the movable roller underframe 202 is correspondingly connected and fixed with the bottom end of the sliding frame 201, the rear end of the fixed side plate 204 is correspondingly connected and fixed with one side of the front end of a supporting flat plate 605, movable rollers 203 are respectively arranged on the upper side and the lower side of the front end of the fixed side plate 204, and each movable roller 203 is correspondingly and slidably connected with the inner wall of the sliding frame 201. The auxiliary stabilizing assembly 2 is arranged, so that the lifting stability of the lifting platform 6 is further improved, and the phenomenon that the weight distribution of cargoes on two sides of the surface of the lifting platform 6 is uneven to turn on one's side is avoided.

The support flat 605 rear end both sides all are equipped with clamping assembly 5, every clamping assembly includes V type butt pole 501, connect swivel mount 502, clamp telescopic link 503, mounting panel 504 and clamping cylinder 505, mounting panel 504 front end corresponds fixedly with support flat 605 rear end one side, clamping cylinder 505 rear end corresponds the rotation with mounting panel 504 rear end middle part and is connected, V type butt pole 501 middle part bottom corresponds the rotation with support flat 605 through connecting swivel mount 502 and is connected, clamp telescopic link 503 is all equipped with inside clamping cylinder 505 front end, clamp telescopic link 503 front end corresponds the rotation with V type butt pole 501 rear end and is connected. The clamping assembly 5 is arranged, so that a fixed cargo can be conveniently supported and fastened, and the cargo is prevented from sliding out of the lifting platform 6.

Two sides of the rear part of the bottom end of the vertical support portal frame 1 are provided with auxiliary pulleys 9. The vertical support portal frame 1 is provided with an auxiliary pulley 9, so that the horizontal movement is convenient.

A non-slip pad 506 is arranged at the lower side of the front end of each V-shaped supporting rod 501. The V-shaped supporting rod 501 is provided with an anti-slip pad 506, so that the friction between the V-shaped supporting rod 501 and the lifting platform 6 is improved.

The foregoing is merely an embodiment of the present invention, and a specific structure and characteristics of common knowledge in the art, which are well known in the scheme, are not described herein, so that a person of ordinary skill in the art knows all the prior art in the application day or before the priority date of the present invention, and can know all the prior art in the field, and have the capability of applying the conventional experimental means before the date, so that a person of ordinary skill in the art can complete and implement the present embodiment in combination with his own capability in the light of the present application, and some typical known structures or known methods should not be an obstacle for a person of ordinary skill in the art to implement the present application. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present invention, and these should also be considered as the scope of the present invention, which does not affect the effect of the implementation of the present invention and the utility of the patent.

Claims (10)

1. Electromechanical device lift platform of low-power consumption, its characterized in that: the automatic feeding and discharging device comprises a vertical supporting portal frame, a transverse chassis, a stable lifting mechanism, a feeding and discharging gradient adjusting mechanism and a transverse moving mechanism, wherein the transverse chassis is arranged at the front side of the lower end of the vertical supporting portal frame, the rear end of the transverse chassis is correspondingly connected and fixed with the two sides of the lower end of the vertical supporting portal frame, the stable lifting mechanism is arranged in the middle of the front end of the vertical supporting portal frame, the feeding and discharging gradient adjusting mechanism is arranged at the front end of the transverse chassis, and the transverse moving mechanism is arranged at the two sides of the lower end of the transverse chassis;

the stable lifting mechanism comprises a lifting platform, sliding components, counterweight consumption reducing components and auxiliary stabilizing components, wherein the lifting platform is arranged at the middle end inside the vertical support portal frame, the sliding components are arranged at two sides of the front end of the vertical support portal frame, the counterweight consumption reducing components are arranged at two sides of the upper end of the lifting platform, and the auxiliary stabilizing components are arranged at two sides of the front end of the lifting platform.

2. The low power consumption electromechanical device lift platform of claim 1, wherein: the transverse moving mechanism comprises driven sprockets, transverse transmission chains, driving sprockets, transverse transmission motors, transverse connection rotating shafts, transverse moving tracks and transverse moving idler wheels, wherein two transverse connection rotating shafts are arranged, two transverse connection rotating shafts are distributed on the front side and the rear side of the lower end in the transverse chassis at intervals, each transverse connection rotating shaft two ends correspondingly penetrate through two sides of the transverse chassis and are connected with the transverse chassis through connecting bearings in a rotating mode, each transverse connection rotating shaft two ends are respectively provided with a transverse moving idler wheel, two transverse moving tracks are arranged on two sides of the lower end of the transverse chassis, each transverse moving idler wheel is correspondingly and slidably connected with each transverse moving track, the transverse transmission motors are arranged at the middle end of one side in the transverse chassis, the driving sprockets are arranged on the outer side of the transverse transmission motors, the driven sprockets are arranged on one side of the front end of the transverse connection rotating shafts, and the driving sprockets and the driven sprockets are correspondingly meshed and connected with the driven sprockets through the transverse transmission chains.

3. The low power consumption electromechanical device lift platform of claim 2, wherein: the feeding and discharging gradient adjusting mechanism comprises an adjusting side plate, a fixed support, a rotating bearing seat, an adjusting telescopic rod and adjusting cylinders, wherein two sides of the rear end of the adjusting side plate are correspondingly connected with two sides of the front end of a transverse chassis through the rotating bearing seat in a rotating mode, the two adjusting cylinders are arranged on two sides of the lower end of the inner portion of the transverse chassis at intervals, the rear end of each adjusting cylinder is correspondingly connected with the lower end of the transverse chassis through the fixed support in a rotating mode, each adjusting telescopic rod is arranged in the front end of each adjusting cylinder, and each adjusting telescopic rod is correspondingly connected with two sides of the middle of the lower end of the adjusting side plate through the fixed support in a rotating mode.

4. A low power consumption electromechanical device lift platform as recited in claim 3, wherein: the lifting platform comprises a lifting motor, a lifting threaded rod, a lifting sliding sleeve, a lifting sliding side plate and a supporting flat plate, the supporting flat plate is arranged at the top end of a transverse chassis, the lifting sliding side plate is arranged at the middle part of the rear end of the supporting flat plate, the lower end of the lifting sliding side plate is correspondingly connected and fixed with the middle part of the rear end of the supporting flat plate, the lifting motor is arranged at the middle part of the top end of the vertical supporting portal frame, the lifting threaded rod is arranged at the middle end inside the vertical supporting portal frame, the upper end and the lower end of the lifting threaded rod are correspondingly and rotatably connected with the vertical supporting portal frame, the upper end of the lifting threaded rod passes through the vertical supporting portal frame and is correspondingly connected with the lower end of the lifting motor in a transmission manner, and the rear end of the lifting sliding sleeve passes through the lifting threaded rod and is correspondingly meshed with the lifting threaded rod in a sliding manner.

5. The low power consumption electromechanical device lift platform of claim 4, wherein: the counterweight consumption reducing assembly comprises a connecting lock chain, corner sliding supports, hanging rods and balancing weights, wherein the hanging rods are arranged in two, the hanging rods are distributed on two sides of the upper end of the vertical supporting portal frame at intervals, the two hanging rod sides are respectively provided with a plurality of overlapped balancing weights, the two hanging rod upper ends and two sides of the upper end of the lifting sliding side plate are respectively and correspondingly connected through the connecting lock chain, the two sides of the top end of the vertical supporting portal frame are respectively provided with the corner sliding supports, and the middle part of each connecting lock chain respectively penetrates through the top ends of the two corner sliding supports and is in sliding connection with the corner sliding supports.

6. The low power consumption electromechanical device lift platform of claim 5, wherein: the sliding assembly comprises sliding blocks and sliding rails, the sliding rails are arranged on two sides of the front end of the vertical support portal frame, the sliding blocks are arranged on two sides of the rear end of the lifting sliding side plate, and a plurality of sliding blocks are correspondingly and slidably connected with a plurality of sliding rails.

7. The low power consumption electromechanical device lift platform of claim 6, wherein: every supplementary stable subassembly includes carriage, removes gyro wheel chassis, removes gyro wheel and fixed curb plate, carriage lower extreme rear side corresponds fixedly with horizontal chassis front end one side, remove the gyro wheel chassis setting in the carriage bottom, just remove gyro wheel chassis upper end middle part and carriage bottom and correspond fixedly, fixed curb plate rear end and support dull and stereotyped front end one side and correspond fixedly, fixed curb plate front end upper and lower side all is equipped with and removes the gyro wheel, every remove gyro wheel and the corresponding sliding connection of carriage inner wall.

8. The low power consumption electromechanical device lift platform of claim 7, wherein: the utility model discloses a clamping device for the support of the flat board, including the support flat board rear end, support flat board rear end both sides all are equipped with clamping assembly, every clamping assembly includes V type support pole, connects the swivel mount, presss from both sides tight telescopic link, mounting panel and presss from both sides tight cylinder, the mounting panel front end corresponds fixedly with support flat board rear end one side, it corresponds the rotation with mounting panel rear end middle part to press from both sides tight cylinder rear end and is connected, V type support pole middle part bottom is connected through connecting the swivel mount with support flat board correspondence rotation, it all is equipped with the tight telescopic link of clamp cylinder front end inside, it corresponds the rotation with V type support pole rear end and is connected to press from both sides tight telescopic link front end.

9. The low power consumption electromechanical device lift platform of claim 8, wherein: auxiliary pulleys are arranged on two sides of the rear portion of the bottom end of the vertical support portal frame.

10. The low power consumption electromechanical device lift platform of claim 9, wherein: and an anti-slip pad is arranged at the lower side of the front end of each V-shaped supporting rod.