CN107758583B - Intelligent movable electric elevator device for maintenance - Google Patents

Abstract

The invention discloses an intelligent movable electric elevator device for maintenance, which comprises a strip-shaped bearing base, wherein an electric control lifting mechanism is arranged on the upper surface of the strip-shaped bearing base, and an intelligent moving mechanism is arranged on the lower surface of the strip-shaped bearing base. The device has the advantages of being convenient to use, convenient to maintain, convenient to move intelligently, capable of reducing manual pushing strength, stable in support and good in lifting protection effect.

Description

Intelligent movable electric elevator device for maintenance

Technical Field

The invention relates to the field of electric control elevators, in particular to an intelligent movable electric elevator device for maintenance.

Background

The electric control elevator is used for controlling the tool to lift by switching on a power supply.

With the continuous development of society, people's life is also advancing constantly, present instrument is the operation more convenient, and in order to guarantee personnel's safety when using the instrument, consequently, it is firm in the fixed aspect, it is firm to fix, relative inconvenient and the waste time that just is comparatively convenient when dismantling, for the companion ladder, if need to expose the entirety of companion ladder when repairing by the damage, be located fixedly, therefore a part of companion ladder is located the platform inside, this needs to separate companion ladder and mounting platform, because the trouble of dismantling is comparatively, it is inconvenient to carry out the maintenance, and also need to remove the position according to different positions when going up and down for traditional companion ladder, because the device needs to support operating personnel, consequently, it is comparatively heavy, manual movement is inconvenient, intensity is also big, consequently, in order to solve these problems, it is very necessary to design a device that is convenient for removing and going up and down.

Disclosure of Invention

The invention aims to solve the problems, and designs an intelligent movable electric elevator device for maintenance.

The technical scheme includes that the intelligent movable electric elevator device for maintenance comprises a strip-shaped bearing base, wherein an electric control lifting mechanism is arranged on the upper surface of the strip-shaped bearing base, an intelligent moving mechanism is arranged on the lower surface of the strip-shaped bearing base, the electric control lifting mechanism comprises a group of horizontal sliding rails fixedly connected to the upper surface of the strip-shaped bearing base, a moving block arranged on each horizontal sliding rail, a bearing frame fixedly connected to the upper surfaces of the two groups of moving blocks, a group of interception frames fixedly connected to the upper surfaces of the bearing frames, a plurality of hydraulic pushing rods fixedly connected to the upper surfaces of the bearing frames and positioned between the groups of interception frames, a pushing base arranged above the plurality of hydraulic pushing rods, a base fixedly connected to the lower surface of the pushing base and connected with the telescopic end of each hydraulic pushing rod, an electric control elevator arranged on the upper surface of the pushing base, a bearing support frame arranged on the upper surface of the electric control elevator, a group of a pair of strip-shaped grooves formed in the upper surface of the strip-shaped bearing base by machining, a group of strip-shaped supporting blocks embedded in each group of the two number grooves, a group of the two groups of supporting blocks formed by machining the two groups of the two side of the strip-shaped supporting blocks in the upper surface of the strip-shaped supporting base and corresponding to each other at the inner side of the surface of the two side of the strip-shaped supporting blocks, and the two side of the two groups of the strip-shaped supporting blocks are rotatably sleeved on the upper surfaces of the corresponding sliding blocks, and the two side surfaces of the two side of the corresponding strip-shaped supporting blocks are arranged on the upper surfaces of the opposite side of the upper side of the sliding support rods and the corresponding sliding support base, and the two groups are rotatably arranged on the upper side surfaces of the upper side supporting support base and the upper side of the upper supporting support base and the upper support base The fixed support column is sleeved on the first rotating motor and between the first rotating motor and the lower surface of the strip-shaped bearing base, the fixed support column is sleeved on the rotating end of the first rotating motor, the hydraulic lifting rod is embedded on the lower surface of the fixed support column, the support base is sleeved on the lower end face of the hydraulic lifting rod, the two groups of support frames are fixedly connected to four corners of the lower surface of the strip-shaped bearing base, the horizontal bearing round rods are arranged in the support frames, the rolling wheels are sleeved on the horizontal bearing round rods and located in the corresponding support frames, the second rotating motor is fixedly connected to the side surface of one group of support frames, the rotating end of the second rotating motor is horizontal, and the fixed clamping hand is sleeved on the rotating end of the second rotating motor and connected with the end face of the corresponding horizontal bearing round rod.

The length of each strip-shaped supporting block is smaller than that of the strip-shaped bearing base.

The number of the hydraulic pushing rods is 4-6.

The cross section of each interception frame is N-shaped.

A group of positioning holes are processed on the two opposite side surfaces of each interception frame.

The width of each strip-shaped extrusion block is the same as the distance between a group of strip-shaped supporting blocks.

And the side surface of the strip-shaped bearing base is embedded with a mains supply interface.

The side surface of the strip-shaped bearing base is hinged with a group of swinging handles at the position opposite to the position of the mains supply interface.

And a control button and a starting switch are arranged at the idle position of the upper surface of the strip-shaped bearing base.

The height of each strip-shaped supporting block is higher than the horizontal plane of the strip-shaped bearing base.

The intelligent movable electric elevator device for maintenance, which is manufactured by the technical scheme of the invention, is convenient to use, convenient to maintain, convenient to intelligent move, capable of reducing the manual pushing strength, stable in support and good in lifting protection effect.

Drawings

FIG. 1 is a schematic view of an intelligent mobile electric elevator apparatus for maintenance according to the present invention;

FIG. 2 is a top view of an intelligent mobile motorized lift arrangement for maintenance according to the present invention;

FIG. 3 is a front view of the intelligent mobile electric elevator apparatus for maintenance according to the present invention, wherein the bar-shaped bearing base, the bar-shaped supporting block, the sliding limiting frame, the horizontal bearing rod, the swing limiting rod, the bar-shaped extrusion block and the mains interface are matched;

FIG. 4 is a bottom view of an intelligent mobile motorized lift arrangement for maintenance according to the present invention;

in the figure, 1, a strip-shaped bearing base; 2. a horizontal slide rail; 3. a moving block; 4. a carrier; 5. an interception frame; 6. a hydraulic push rod; 7. pushing the base; 8. an electric control elevator; 9. a load bearing support frame; 10. a bar-shaped supporting block; 11. a sliding limit frame; 12. a horizontal carrier bar; 13. a swing restricting lever; 14. a strip-shaped extrusion block; 15. a first rotary electric machine; 16. a fixing frame; 17. fixing the support column; 18. a hydraulic lifting rod; 19. a support base; 20. a support frame; 21. a horizontal bearing round bar; 22. a rolling wheel; 23. a second rotary electric machine; 24. fixing the clamping hand; 25. a mains interface; 26. a swing handle; 27. a control button; 28. a start switch 29, a base.

Detailed Description

The invention is specifically described below with reference to the accompanying drawings, as shown in fig. 1-4, an intelligent mobile electric elevator device for maintenance comprises a strip-shaped bearing base 1, wherein an electric control lifting mechanism is arranged on the upper surface of the strip-shaped bearing base 1, an intelligent moving mechanism is arranged on the lower surface of the strip-shaped bearing base 1, the electric control lifting mechanism consists of a group of horizontal sliding rails 2 fixedly connected to the center of the upper surface of the strip-shaped bearing base 1, a movable block 3 arranged on each horizontal sliding rail 2, a bearing frame 4 fixedly connected to the upper surfaces of the two groups of movable blocks 3, a group of interception frames 5 fixedly connected to the upper surfaces of the bearing frames 4, a plurality of hydraulic pushing rods 6 fixedly connected to the upper surfaces of the bearing frames 4 and positioned between the group of interception frames 5, a pushing base 7 arranged above the plurality of hydraulic pushing rods 6, a base 29 fixedly connected to the lower surface of the pushing base 7 and connected with the telescopic end of each hydraulic pushing rod 6, an electric control lifting ladder 8 arranged on the upper surface of the pushing base 7 the electric control elevator 8 comprises a bearing support frame 9 arranged on the upper surface of the electric control elevator 8, a group of first strip-shaped grooves processed on the upper surface of the strip-shaped bearing base 1 and positioned on two sides of the bearing frame 4, strip-shaped support blocks 10 embedded in each first strip-shaped groove, a group of sliding grooves processed on two ends of the upper surface of each strip-shaped support block 10, a sliding limit frame 11 arranged in each group of sliding grooves, a group of horizontal bearing rods 12 embedded on two opposite side surfaces of each strip-shaped support block 10, swing limit rods 13 sleeved on each horizontal bearing rod 12 and overlapped with each other, and strip-shaped extrusion blocks 14 fixedly connected at one end of the inner side surface of each swing limit rod 13 and overlapped with the corresponding side surface of the bearing frame 4, the intelligent moving mechanism is composed of a first rotating motor 15 embedded in the center of the lower surface of the strip-shaped bearing base 1 and with a downward rotating end, a fixed support column 17 sleeved on the rotating end of the first rotating motor 15, a hydraulic lifting rod 18 embedded on the lower surface of the fixed support column 17, a supporting base 19 sleeved on the lower end surface of the hydraulic lifting rod 18, two groups of supporting frames 20 fixedly connected to four corners of the lower surface of the strip-shaped bearing base 1, horizontal bearing round rods 21 arranged in each supporting frame 20, rolling wheels 22 sleeved on each horizontal bearing round rod 21 and positioned in the corresponding supporting frames 20, a second rotating motor 23 fixedly connected on the side surface of one group of supporting frames 20 and with a horizontal rotating end, and a fixed clamp 24 sleeved on the rotating end of each second rotating motor 23 and connected with the end surface of the corresponding horizontal bearing round rod 21; the length of each strip-shaped supporting block 10 is smaller than the length of the strip-shaped bearing base 1; the number of the hydraulic pushing rods 6 is 4-6; the cross section of each interception frame 5 is N-shaped; a group of positioning holes are formed in the surfaces of two opposite sides of each interception frame 5; the width of each strip-shaped extrusion block 14 is the same as the distance between a group of strip-shaped support blocks 10; the commercial power interface 25 is embedded on the side surface of the strip-shaped bearing base 1; a group of swing handles 26 are hinged to the side surface of the strip-shaped bearing base 1 opposite to the position of the mains supply interface 25; a control button 27 and a start switch 28 are arranged at the idle position of the upper surface of the strip-shaped bearing base 1; the height of each strip-shaped supporting block 10 is higher than the horizontal plane of the strip-shaped bearing base 1.

The embodiment is characterized in that the electric control lifting body 8 in the device is lifted by control, the bearing support frame 9 positioned on the upper surface of the electric control lifting body 8 is convenient for carrying workers to lift, the lower end surface of the electric control lifting body 8 is fixed by the pushing base 7, the lower surface of the pushing base 7 is supported by a plurality of hydraulic pushing rods 6, each hydraulic pushing rod 6 is fixedly connected with a base 29 positioned on the lower surface of the pushing base 7 and is convenient for stabilization, the lower end surfaces of the hydraulic pushing rods 6 are fixedly connected with the upper surface of the bearing frame 4, a group of interception frames 5 positioned on the edge of the upper surface of the bearing frame 4 are convenient for effectively intercepting the electric control lifting body 8 above the same, fixing holes positioned on each interception frame 5 are convenient for placing fixing bolts to stabilize one group of interception frames 5, wherein the carriage 4 is connected with a group of horizontal sliding rails 2 positioned on the upper surface of the bar-shaped carriage base 1 through two groups of moving blocks 3, and is convenient to move on, wherein if the electric control elevator 8 is damaged, each hydraulic pushing rod 6 is controlled to ascend so as to push the electric control elevator 8 upwards to expose, wherein when the electric control elevator 8 is lifted during working, the stability of two sides is ensured, a group of bar-shaped supporting blocks 10 positioned on the upper surface of the bar-shaped carriage base 1 and positioned on two sides is convenient to effectively intercept the bar-shaped carriage base 1, the sliding limiting frame 11 positioned on the upper surface of each bar-shaped supporting block 10 is convenient to move and shelter according to the actual situation, wherein if the lifting work is determined, a group of swinging limiting rods 13 positioned on the two opposite side surfaces of each bar-shaped supporting block 10 swings on the corresponding horizontal carriage rods 12, the bar-shaped squeeze blocks 14 on the side surface of each swing limiting rod 13 are placed between a group of bar-shaped supporting blocks 10 so as to limit the two ends of the bearing frame 4 to stabilize lifting, wherein if the device needs to be moved and the proper rotation angle is moved, when the device rotates first, the hydraulic lifting rods 18 below the bar-shaped bearing base 1 are controlled to extend, the supporting bases 19 on the lower end surfaces of the hydraulic lifting rods 18 are contacted with the ground, the hydraulic lifting rods 18 are continuously extended, each rolling wheel 22 is far away from the ground, the upper end surfaces of the hydraulic lifting rods 18 are fixed with a first rotating motor 17 on the lower surface of the bar-shaped bearing base 1 through fixed supporting columns 17, at the moment, the first rotating motor 17 is controlled to rotate through the rotation angle, and the supporting bases 19 are fixed, therefore, after the upper surface of the strip-shaped bearing base 1 rotates by a certain angle, the hydraulic lifting rod 18 is restored to the original position, so that the rolling wheels 22 in the two groups of supporting frames 20 positioned on the lower surface of the strip-shaped bearing base 1 are contacted with the ground, wherein each rolling wheel 22 is sleeved on the horizontal bearing round rod 21 positioned in the corresponding supporting frame 18, each second rotating motor 23 rotates by control, the corresponding horizontal bearing round rod 21 is driven by the fixed clamping hand 24 to rotate, the corresponding rolling wheel 22 rotates, the device walks, the first rotating motor 15 is connected with the lower surface of the strip-shaped bearing base 1 by the fixed frame 16, the commercial power interface 25 positioned on the side surface of the strip-shaped bearing base 1 is convenient for connecting the power supply, the electric elements in the device are provided with the power supply, wherein a set of swing handles 26 located on the side surface of the bar-shaped bearing base 1 is convenient to pull, so that the device does not electrify and walks, wherein a control button 27 located on the upper surface of the bar-shaped bearing base 1 is convenient to control and operate, a start switch 29 located on the upper surface of the bar-shaped bearing base 1 is convenient to start so that the device starts working, wherein if an electric control elevator 8 is to be repaired, the outer side of a set of bar-shaped supporting blocks 10 can be pulled out through manual pulling by the bearing frame 4 corresponding to the electric control elevator 8, and then the hydraulic pushing rod 6 pushes the electric control elevator, so that the device is convenient to maintain, and the device is convenient to use, convenient to maintain, intelligent to move, reduces manual pushing strength, supports stably and has good lifting protection effect.

In this embodiment, a programmable series controller, two motor drivers and three relays are installed at the idle position of the device, taking a controller of MAM-200 model as an example, seven output terminals of the controller of the model are respectively connected with the input ends of the two motor drivers, the three relays, a start switch 28 and a control button 27 through wires, a person skilled in the art connects the two motor drivers with the wiring terminals of the first rotating motor 15 and the second rotating motor 23 through wires, and simultaneously connects the three relays with a hydraulic push rod 6, a driving cylinder in the electric control elevator 8 and an electromagnetic valve in the hydraulic lifting rod 18, and connects the output end at the mains interface 25 with the power connection end of the controller through wires. After the programming of the controller, the working sequence of each electric device can be completely controlled by the person skilled in the art, and the specific working principle is as follows: wherein the electric control lifting body 8 in the device is lifted by control, the bearing support frame 9 positioned on the upper surface of the electric control lifting body 8 is convenient for carrying workers to lift, the lower end surface of the electric control lifting body 8 is fixed by the pushing base 7, the lower surface of the pushing base 7 is supported by a plurality of hydraulic pushing rods 6, each hydraulic pushing rod 6 is fixedly connected with a base 29 positioned on the lower surface of the pushing base 7, the electric control lifting body is convenient for stabilization, the lower end surfaces of the hydraulic pushing rods 6 are fixedly connected with the upper surface of the bearing frame 4, a group of interception frames 5 positioned at the edge of the upper surface of the bearing frame 4 are convenient for effectively intercepting the electric control lifting body 8 above the same, the fixing holes positioned on each interception frame 5 are convenient for placing fixing bolts, so that one group of interception frames 5 are stable, wherein the carriage 4 is connected with a group of horizontal sliding rails 2 positioned on the upper surface of the bar-shaped carriage base 1 through two groups of moving blocks 3, and is convenient to move on, wherein if the electric control elevator 8 is damaged, each hydraulic pushing rod 6 is controlled to ascend so as to push the electric control elevator 8 upwards to expose, wherein when the electric control elevator 8 is lifted during working, the stability of two sides is ensured, a group of bar-shaped supporting blocks 10 positioned on the upper surface of the bar-shaped carriage base 1 and positioned on two sides is convenient to effectively intercept the bar-shaped carriage base 1, the sliding limiting frame 11 positioned on the upper surface of each bar-shaped supporting block 10 is convenient to move and shelter according to the actual situation, wherein if the lifting work is determined, a group of swinging limiting rods 13 positioned on the two opposite side surfaces of each bar-shaped supporting block 10 swings on the corresponding horizontal carriage rods 12, the bar-shaped squeeze blocks 14 on the side surface of each swing limiting rod 13 are placed between a group of bar-shaped supporting blocks 10 so as to limit the two ends of the bearing frame 4 to stabilize lifting, wherein if the device needs to be moved and the proper rotation angle is moved, when the device rotates first, the hydraulic lifting rods 18 below the bar-shaped bearing base 1 are controlled to extend, the supporting bases 19 on the lower end surfaces of the hydraulic lifting rods 18 are contacted with the ground, the hydraulic lifting rods 18 are continuously extended, each rolling wheel 22 is far away from the ground, the upper end surfaces of the hydraulic lifting rods 18 are fixed with a first rotating motor 17 on the lower surface of the bar-shaped bearing base 1 through fixed supporting columns 17, at the moment, the first rotating motor 17 is controlled to rotate through the rotation angle, and the supporting bases 19 are fixed, therefore, after the upper surface of the strip-shaped bearing base 1 rotates by a certain angle, the hydraulic lifting rod 18 is restored to the original position, so that the rolling wheels 22 in the two groups of supporting frames 20 positioned on the lower surface of the strip-shaped bearing base 1 are contacted with the ground, wherein each rolling wheel 22 is sleeved on the horizontal bearing round rod 21 positioned in the corresponding supporting frame 18, each second rotating motor 23 rotates by control, the corresponding horizontal bearing round rod 21 is driven by the fixed clamping hand 24 to rotate, the corresponding rolling wheel 22 rotates, the device walks, the first rotating motor 15 is connected with the lower surface of the strip-shaped bearing base 1 by the fixed frame 16, the commercial power interface 25 positioned on the side surface of the strip-shaped bearing base 1 is convenient for connecting the power supply, the electric elements in the device are provided with the power supply, wherein a set of swing handles 26 located on the side surface of the bar-shaped bearing base 1 is convenient to pull, so that the device walks without being electrified, wherein a control button 27 located on the upper surface of the bar-shaped bearing base 1 is convenient to control and operate, a start switch 29 located on the upper surface of the bar-shaped bearing base 1 is convenient to start so that the device starts working, wherein if the electric control elevator 8 is to be repaired, the bearing frame 4 corresponding to the electric control elevator 8 can be pulled out of the set of bar-shaped supporting blocks 10 by manual pulling, and then pushed by the hydraulic pushing rod 6, so that the electric control elevator 8 is convenient to repair.

The above technical solution only represents the preferred technical solution of the present invention, and some changes that may be made by those skilled in the art to some parts of the technical solution represent the principles of the present invention, and the technical solution falls within the scope of the present invention.

Claims (10)

1. The utility model provides an electric elevator device for intelligent movement of maintenance, includes bar bearing base (1), its characterized in that, bar bearing base (1) upper surface is equipped with automatically controlled elevating system, bar bearing base (1) lower surface is equipped with intelligent movement mechanism, automatically controlled elevating system is by a set of horizontal slide rail (2) of fixed connection in the center department of bar bearing base (1) upper surface, set up movable block (3) on every horizontal slide rail (2), fixed connection is at bearing frame (4) of two sets of movable block (3) upper surfaces, fixed connection is at a set of interception frame (5) of bearing frame (4) upper surface both ends department, fixed connection is at a plurality of hydraulic pushing rods (6) of bearing frame (4) upper surface and be located between a set of interception frame (5), push base (7) of setting in a plurality of hydraulic pushing rods (6) top, fixed connection is at push base (29) of pushing base (7) lower surface and being connected with each hydraulic pushing rod (6) telescopic end, set up electric control elevator (8) of pushing base (7) upper surface, set up elevator (8) on two sets of movable block (3) upper surface, a set of electric control frame (9) of elevator (4) and be located on a set of bearing frame (10) of bearing frame of bar bearing frame (4) processing number of one and both sides of bearing frame (10 The intelligent moving mechanism consists of a group of sliding grooves processed at two ends of the upper surface of each bar-shaped supporting block (10), a sliding limiting frame (11) arranged in each group of sliding grooves, a group of horizontal supporting rods (12) embedded on two opposite side surfaces of each bar-shaped supporting block (10), swing limiting rods (13) sleeved on each horizontal supporting rod (12) and mutually overlapped, bar-shaped extrusion blocks (14) fixedly connected at one end of the inner side surface of each swing limiting rod (13) and overlapped with the corresponding side surface of the supporting frame (4), a first rotating motor (15) embedded at the center of the lower surface of the bar-shaped supporting base (1) and with the rotating end downwards, a fixed frame (16) sleeved on the first rotating motor (15) and between the lower surface of the bar-shaped supporting base (1), a fixed supporting column (17) sleeved on the rotating end of the first rotating motor (15), a hydraulic lifting rod (18) embedded on the lower surface of the fixed supporting column (17), a supporting base (19) fixedly connected on the lower end surface of each hydraulic lifting rod (18), a round supporting frame (20) fixedly connected on the lower surface of the bar-shaped supporting base (1), and a round supporting frame (20) sleeved on the lower surface of each round supporting rod (20) and arranged in the corresponding round supporting frame (20) of the first round supporting rod The fixed clamp (24) is sleeved on the rotating end of each second rotating motor (23) and connected with the end face of the corresponding horizontal bearing round rod (21).

2. An intelligent mobile electric elevator arrangement for maintenance according to claim 1, characterized in that the length of each of the bar-shaped supporting blocks (10) is smaller than the length of the bar-shaped carrying base (1).

3. An intelligent mobile electric elevator arrangement for maintenance according to claim 1, characterized in that the number of hydraulic pushrods (6) is 4-6.

4. An intelligent mobile electric elevator arrangement for maintenance according to claim 1, characterized in that each of the interception shelves (5) is N-shaped in cross section.

5. An intelligent mobile electric lift arrangement for maintenance according to claim 1, characterized in that a set of positioning holes is made on the opposite side surfaces of each of said bars (5).

6. An intelligent mobile electric elevator arrangement for maintenance according to claim 1, characterized in that the width of each of the bar-shaped extrusion blocks (14) is the same as the distance between a set of bar-shaped support blocks (10).

7. An intelligent mobile electric elevator arrangement for maintenance according to claim 1, characterized in that the side surface of the strip-shaped carrying base (1) is embedded with a mains interface (25).

8. An intelligent mobile electric elevator arrangement for maintenance according to claim 1 or 7, characterized in that a set of swing handles (26) are hinged to the side surface of the strip-shaped load-bearing base (1) opposite the mains interface (25).

9. An intelligent mobile electric elevator arrangement for maintenance according to claim 1, characterized in that the strip-shaped carrying base (1) is provided with a control button (27) and a start switch (28) at the free place on the upper surface.

10. An intelligent mobile electric elevator arrangement for maintenance according to claim 1, characterized in that the height of each of the bar-shaped supporting blocks (10) is higher than the horizontal plane of the bar-shaped carrying base (1).

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