CN111252496A

CN111252496A - Energy-efficient mechanical transportation equipment

Info

Publication number: CN111252496A
Application number: CN202010210755.XA
Authority: CN
Inventors: 杨有军
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-24
Filing date: 2020-03-24
Publication date: 2020-06-09

Abstract

The invention discloses high-efficiency energy-saving mechanical transportation equipment, which comprises a movable chassis, a pair of angle adjusting structures and a conveying structure, wherein the conveying structure is arranged on the movable chassis, the angle adjusting structures are arranged on the movable chassis, and the angle adjusting structures are arranged on two sides of the conveying structure in a mirror image manner and are movably connected with the conveying structure. Only one motor is arranged for driving, so that the effects of energy conservation and emission reduction are achieved.

Description

Energy-efficient mechanical transportation equipment

Technical Field

The invention relates to the technical field of mechanical equipment, in particular to efficient and energy-saving mechanical transportation equipment.

Background

There are many occasions in production life where it is necessary to use a transmission type transportation apparatus, such as the logistics industry and the processing industry, the former is used for loading goods, the latter is used for transferring materials between areas, the tools used for loading or transferring are various devices such as a forklift or a ceiling crane, but any device has the limitations, such as limited transportation of goods by the forklift at one time and slow loading speed, but also can not bear the force of goods at higher positions, the space requirement of the overhead crane is higher, the deployment is not flexible and the equipment cost is high, therefore, some small and medium-sized enterprises still use manual loading and loading, not only the labor intensity of workers is increased, in addition, the body health of workers is easily damaged, so that the research of a loading device with low efficiency and low cost is imperative, and the present application is developed in order to solve the problems.

Disclosure of Invention

The invention aims to solve the problems, designs efficient and energy-saving mechanical transportation equipment, and solves the problems that the existing cargo transportation equipment is inflexible in arrangement, complex in structure, high in use limitation, high in use cost and operation cost, not energy-saving and environment-friendly.

The technical scheme of the invention for realizing the aim is as follows: a high-efficiency energy-saving mechanical transportation device comprises a movable chassis, a pair of angle adjusting structures and a conveying structure, wherein the conveying structure is arranged on the movable chassis;

the angle adjusting structure includes: the side guard plates are arranged on the two sides of the frame, and the side guard plates are fixed on the frame through a pair of sliding grooves;

the conveying structure is characterized in that a pair of side guard plates are connected to two sides of the conveying structure, a pair of sliding grooves are formed in the side guard plates, a pair of sliding blocks are assembled in the sliding grooves, the fixing seat is installed on the movable chassis, the supporting tube is installed in the fixing seat, the adjusting rod is inserted into the supporting tube, the top end of the adjusting rod is movably connected with the sliding blocks through a pin shaft, an internal thread structure is formed in the supporting tube, a thread block matched with the internal thread structure is movably installed at the bottom end of the adjusting rod, a rocker is movably installed on the fixing seat, a driving gear is arranged at the end of the.

The transfer structure includes: the device comprises a support, a pair of roll shafts, a conveyor belt, a driven gear, a driving motor and a driving gear;

one end of the support is movably mounted on the movable chassis, the pair of side protection plates are mounted on two sides of the support, the pair of roll shafts are respectively mounted at two ends of the support, the conveying belt is sleeved between the pair of roll shafts, a driven gear is arranged at one end of one of the pair of roll shafts, the driving motor is mounted on one side of the support, and a driving gear is arranged on the driving motor and meshed with the driven gear.

The ground gripping claw includes: the first movable arm, the fixed disc and the ground anchor;

the movable anchor is characterized in that one side of the movable chassis is provided with a pair of movable grooves, a pair of fixed shafts are arranged in the movable grooves, the first movable arm is movably arranged on the fixed shafts, the fixed disc is arranged at the end part of the first movable arm, a fixed hole is formed in the center of the fixed disc, and the ground anchor is arranged in the fixed hole.

The ground gripping claw includes: the second movable arm, the sliding block and the guide rail;

one end of the second movable arm is movably mounted on the fixed shaft, the sliding block is movably connected with the end of the second movable arm, the guide rail is mounted on one side of the movable chassis, the cross section of the guide rail is of an I-shaped structure, and the sliding block is assembled on the guide rail and provided with a concave groove matched with the guide rail.

The movable chassis is composed of a mounting platform with a rectangular structure and two pairs of rollers capable of rotating independently, and a traction ring is arranged on one side of the mounting platform.

The fixing seat is a table-shaped structure body, a rotating groove is formed in the center of the fixing seat, and a plurality of balls matched with the rotating groove are arranged at the bottom of the supporting tube.

The rocker is movably mounted on the fixed seat and is of a Z-shaped structure, and the driving gear is of a bevel gear structure.

The support is a rectangular structure frame, and a plurality of reinforcing rods are arranged in the middle of the support.

A pair of hydraulic pressure vaulting poles is movably mounted to support top both sides, cushion table movable mounting in support top and with a pair of hydraulic pressure vaulting pole swing joint.

The two sides of the adjusting rod are provided with a pair of limiting strips, and a limiting through groove matched with the pair of limiting strips is formed in the end portion of the supporting tube.

The high-efficiency energy-saving mechanical transportation equipment manufactured by the technical scheme of the invention is designed aiming at the current situation of cargo loading, a simple movable chassis carrying and conveying structure is utilized, a ground gripping claw is used for fixing to prevent overturning, the opening angle of the conveying structure and the movable chassis is adjusted by an angle adjusting structure on the conveying structure, so that the purpose of adjusting the height is achieved, the structures are matched with each other to provide automatic high-efficiency transportation equipment, the cargo can be quickly loaded when being transported, the operation cost and the equipment cost are low, and only one motor is arranged for driving, so that the effects of energy conservation and emission reduction are achieved.

Drawings

Fig. 1 is a schematic side view of an energy-efficient mechanical transportation apparatus according to embodiment 1 of the present invention.

Fig. 2 is a schematic top view of an energy-efficient mechanical transportation apparatus according to embodiment 1 of the present invention.

Fig. 3 is a schematic sectional structure view of an angle adjustment structure of an efficient energy-saving mechanical transportation device according to embodiment 1 of the present invention.

Fig. 4 is a schematic cross-sectional structural view of a skirt of an energy-efficient mechanical transportation device according to embodiment 1 of the present invention.

Fig. 5 is a schematic side view of an energy-efficient mechanical transportation apparatus according to embodiment 2 of the present invention.

In the figure: 1. moving the chassis; 2. a ground gripping claw; 3. a side guard plate; 4. a chute; 5. a slider; 6. a fixed seat; 7. supporting a tube; 8. adjusting a rod; 9. a thread block; 10. a rocker; 11. a drive gear; 12. a support; 13. a roll shaft; 14. a conveyor belt; 15. a driven gear; 16. a drive motor; 17. a driving gear; 2a1, a first movable arm; 2a2, fixed disk; 2a3, ground anchor; 2a4, a second movable arm; 2a5, slider; 2a6, guide rails; 18. mounting a platform; 19. a roller; 20. a traction ring; 21. a reinforcing bar; 22. a hydraulic stay bar; 23. a buffer table; 24. and (5) a limiting strip.

Detailed Description

The invention is described in detail with reference to the accompanying drawings, and as shown in fig. 1-5, an efficient energy-saving mechanical transportation device comprises a mobile chassis 1, a pair of angle adjusting structures and a transmission structure, wherein the transmission structure is mounted on the mobile chassis 1, the pair of angle adjusting structures are arranged on two sides of the transmission structure in a mirror image manner and movably connected with the transmission structure, and a pair of ground grabbing claws 2 are arranged on the mobile chassis 1; the angle adjusting structure includes: the side guard plates comprise a pair of side guard plates 3, a pair of sliding chutes 4, a sliding block 5, a fixed seat 6, a supporting tube 7, an adjusting rod 8, a thread block 9, a rocker 10 and a driving gear 11; a pair of side guard plates 3 are connected to two sides of the conveying structure, a pair of sliding grooves 4 are formed in the pair of side guard plates 3, sliding blocks 5 are assembled in the pair of sliding grooves 4, the fixing seat 6 is installed on the movable chassis 1, the supporting tube 7 is installed in the fixing seat 6, the adjusting rod 8 is inserted into the supporting tube 7, the top end of the adjusting rod is movably connected with the sliding blocks 5 through a pin shaft, an internal thread structure is formed in the supporting tube 7, a thread block 9 matched with the internal thread structure is movably installed at the bottom end of the adjusting rod 8, a rocker 10 is movably installed on the fixing seat 6, a driving gear 11 is arranged at the end portion of the rocker 10, and tooth grooves matched; the transfer structure includes: a bracket 12, a pair of roller shafts 13, a conveyor belt 14, a driven gear 15, a driving motor 16 and a driving gear 17; one end of the support 12 is movably mounted on the movable chassis 1, the pair of side guard plates 3 are mounted on two sides of the support 12, the pair of roller shafts 13 are respectively mounted at two ends of the support 12, the conveyor belt 14 is sleeved between the pair of roller shafts 13, a driven gear 15 is arranged at one end of one of the pair of roller shafts 13, the driving motor 16 is mounted on one side of the support 12, a driving gear 17 is arranged on the driving motor 16, and the driven gear 15 is meshed with the driving gear 17; the ground gripping claw 2 includes: a first movable arm 2a1, a fixed disc 2a2 and a ground anchor 2a 3; a pair of movable grooves are formed in one side of the movable chassis 1, a pair of fixed shafts are arranged in the pair of movable grooves, the first movable arm 2a1 is movably mounted on the fixed shafts, the fixed disc 2a2 is mounted at the end part of the first movable arm 2a1, a fixed hole is formed in the center of the fixed disc 2a2, and the ground anchor 2a3 is mounted in the fixed hole; the ground gripping claw 2 includes: the second movable arm 2a4, the slider 2a5, and the guide rail 2a 6; one end of the second movable arm 2a4 is movably mounted on the fixed shaft, the slider 2a5 is movably connected with the end of the second movable arm 2a4, the guide rail 2a6 is mounted on one side of the movable chassis 1, the cross section of the guide rail 2a6 is in an I-shaped structure, and the slider 2a5 is mounted on the guide rail 2a6 and provided with a convex groove matched with the guide rail 2a 6; the movable chassis 1 consists of a mounting platform 18 with a rectangular structure and two pairs of rollers 19 capable of rotating independently, and a traction ring 20 is arranged on one side of the mounting platform 18; the fixed seat 6 is a table-shaped structure, a rotating groove is formed in the center of the fixed seat, and a plurality of balls matched with the rotating groove are arranged at the bottom of the supporting tube 7; the rocker 10 is movably mounted on the fixed seat 6, and is of a Z-shaped structure, and the driving gear 11 is of a bevel gear structure; the bracket 12 is a rectangular structural frame, and a plurality of reinforcing rods 21 are arranged in the middle of the bracket; a pair of hydraulic support rods 22 is movably mounted on two sides of the top end of the support 12, and the buffer table 23 is movably mounted on the top end of the support 12 and movably connected with the pair of hydraulic support rods 22; a pair of limiting strips 24 is arranged on two sides of the adjusting rod 8, and a limiting through groove matched with the pair of limiting strips 24 is arranged at the end part of the supporting tube 7.

The embodiment is characterized by comprising a movable chassis 1, a pair of angle adjusting structures and a conveying structure, wherein the conveying structure is arranged on the movable chassis 1, the pair of angle adjusting structures are arranged on two sides of the conveying structure in a mirror image manner and are movably connected with the conveying structure, and a pair of ground grabbing claws 2 are arranged on the movable chassis 1; the angle adjusting structure includes: the side guard plates comprise a pair of side guard plates 3, a pair of sliding chutes 4, a sliding block 5, a fixed seat 6, a supporting tube 7, an adjusting rod 8, a thread block 9, a rocker 10 and a driving gear 11; the two sides of the conveying structure are connected with a pair of side guard plates 3, a pair of sliding grooves 4 are formed in the pair of side guard plates 3, sliding blocks 5 are assembled in the sliding grooves 4, a fixed seat 6 is installed on a movable chassis 1, a supporting tube 7 is installed in the fixed seat 6, an adjusting rod 8 is inserted into the supporting tube 7, the top end of the adjusting rod is movably connected with the sliding blocks 5 through a pin shaft, an internal thread structure is formed in the supporting tube 7, a thread block 9 matched with the internal thread structure is movably installed at the bottom end of the adjusting rod 8, a rocker 10 is movably installed on the fixed seat 6, a driving gear 11 is arranged at the end; this high-efficient energy-conserving mechanical transportation equipment designs to the current situation that the goods loaded, utilize simple and easy removal chassis to carry on the transport structure, it is fixed to be aided with grabbing ground claw, prevent to overturn, adjust the transport structure through the angle modulation structure above that and remove the open angle on chassis, thereby reach height-adjusting's purpose, above structure cooperates mutually and provides an automatic high-efficient transportation equipment, can load fast and running cost and equipment cost are low when transporting the goods, only be equipped with one motor drive has energy saving and emission reduction's effect.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

Example 1: as can be known from the attached drawings 1-5 of the specification, the present application is a high-efficiency energy-saving mechanical transportation device, which comprises a movable chassis 1, a pair of angle adjusting structures and a conveying structure, wherein the conveying structure is installed on the movable chassis 1, the pair of angle adjusting structures are arranged on two sides of the conveying structure in a mirror image manner and movably connected with the conveying structure, the movable chassis 1 is provided with a pair of ground gripping claws 2, in the specific implementation process, the movable chassis 1 is used as a bottom supporting and moving device, the movable chassis 1 is composed of a mounting platform 18 with a rectangular structure and two pairs of rollers 19 capable of rotating independently, one side of the mounting platform 18 is provided with a traction ring 20, the traction ring 20 is used for traction movement, each roller 19 can rotate independently, the direction can be adjusted conveniently, and the ground gripping claws 2 on, further, dragging force is provided, overturning of the mobile chassis 1 due to overlarge bearing at the front end of the conveying structure in the use process is avoided, the conveying structure is movably connected with the mobile chassis 1, and the angle of the conveying structure can be adjusted through a pair of angle adjusting structures, so that different loading heights are matched;

as can be seen from the accompanying FIGS. 1-5 of the specification, the angle adjusting structure includes: the side guard plates 3, the sliding chutes 4, the sliding block 5, the fixed seat 6, the supporting tube 7, the adjusting rod 8, the thread block 9, the rocker 10 and the driving gear 11 are connected and positioned as follows;

the two sides of the conveying structure are connected with a pair of side guard plates 3, a pair of sliding grooves 4 are formed in the pair of side guard plates 3, sliding blocks 5 are assembled in the sliding grooves 4, a fixed seat 6 is installed on a movable chassis 1, a supporting tube 7 is installed in the fixed seat 6, an adjusting rod 8 is inserted into the supporting tube 7, the top end of the adjusting rod is movably connected with the sliding blocks 5 through a pin shaft, an internal thread structure is formed in the supporting tube 7, a thread block 9 matched with the internal thread structure is movably installed at the bottom end of the adjusting rod 8, a rocker 10 is movably installed on the fixed seat 6, a driving gear 11 is arranged at the end;

in the specific implementation process, the supporting tube 7 is fixed by using the fixing seat 6, the fixing seat 6 is a table-shaped structure, the center of the fixing seat 6 is provided with a rotating groove, the bottom of the supporting tube 7 is provided with a plurality of balls matched with the rotating groove, the supporting tube 7 is movably arranged in the fixing seat 6 by sliding the balls in the rotating groove, the rocker 10 is shaken to drive the driving gear 11 to rotate, the rocker 10 is movably arranged on the fixing seat 6 and is of a Z-shaped structure, the driving gear 11 is of a bevel gear structure, the driving gear 11 is meshed with a tooth groove to drive the supporting tube 7 to rotate, internal threads of the supporting tube 7 are meshed with the thread block 9, the thread block 9 drives the adjusting rod 8 to move up and down in the supporting tube 7, so that the annular hoop at the top end of the adjusting rod 8 is pushed to slide in the sliding groove 4, the ascending transmission structure, meanwhile, the top end of the conveying structure is lifted to be matched with a higher loading position, a pair of limiting strips 24 are arranged on two sides of the adjusting rod 8, a limiting through groove matched with the pair of limiting strips 24 is formed in the end part of the supporting tube 7, the adjusting rod 8 plays a limiting role when stretching and retracting, and the adjusting rod 8 is prevented from being unstable when moving;

as can be seen from fig. 1-5 of the specification, the transfer structure comprises: a bracket 12, a pair of roller shafts 13, a conveyor belt 14, a driven gear 15, a driving motor 16 and a driving gear 17, which are connected and positioned as follows;

one end of a support 12 is movably arranged on a movable chassis 1, a pair of side guard plates 3 are arranged on two sides of the support 12, a pair of roll shafts 13 are respectively arranged on two ends of the support 12, a conveyor belt 14 is sleeved between the pair of roll shafts 13, a driven gear 15 is arranged at the end part of one of the roll shafts 13, a driving motor 16 is arranged on one side of the support 12, a driving gear 17 is arranged on the driving motor 16, and the driven gear 15 is meshed with the driving gear 17;

in the specific implementation process, one end of a support 12 is movably fixed on a movable chassis 1, the support 12 is a rectangular structural frame, a plurality of reinforcing rods 21 are arranged in the middle of the support 12, the strength of the support 12 is enhanced, when the support is used, a driving gear 17 is driven by a driving motor 16 to be meshed with a driven gear 15, so that the driving gear drives a roller shaft 13 to rotate, the two roller shafts 13 are mutually driven to move upwards to drive a conveyor belt 14 to carry goods on the conveyor belt 14 and convey the goods from the bottom end to the top end, a pair of hydraulic supporting rods 22 are movably installed on two sides of the top end of the support 12, a buffer table 23 is movably installed at the top end of the support 12 and is movably connected with the pair of hydraulic supporting rods 22, and the;

as can be seen from the attached figures 1-5 of the description, the ground gripping claw 2 comprises: the first movable arm 2a1, the fixed disc 2a2 and the ground anchor 2a3 are connected and positioned as follows;

a pair of movable grooves are formed in one side of the movable chassis 1, a pair of fixed shafts are arranged in the pair of movable grooves, the first movable arm 2a1 is movably mounted on the fixed shafts, the fixed disc 2a2 is mounted at the end part of the first movable arm 2a1, a fixed hole is formed in the center of the fixed disc 2a2, the ground anchor 2a3 is mounted in the fixed hole, the fixed disc 2a2 is flatly paved on the ground by rotating the first movable arm 2a1, the fixed disc 2a2 is reinforced by the ground anchor 2a3, and therefore pulling force is provided to fix the first movable arm 2a1, and the movable chassis 1 is fixed;

in conclusion, the high-efficiency and energy-saving mechanical transportation equipment is designed aiming at the current situation of cargo loading, a simple mobile chassis 1 is used for carrying a conveying structure, a ground grabbing claw 2 is used for fixing to prevent overturning, the opening angle of the conveying structure and the mobile chassis 1 is adjusted through an angle adjusting structure on the conveying structure, so that the purpose of adjusting the height is achieved, the structures are matched with each other to provide automatic high-efficiency transportation equipment, the cargo can be rapidly loaded when being transported, the operation cost and the equipment cost are low, and only one motor is arranged for driving, so that the effects of energy conservation and emission reduction are achieved.

Example 2: as can be seen from fig. 1 to 5 of the specification, the ground gripping claw 2 may preferably further include: the second movable arm 2a4, the slider 2a5, and the guide rail 2a6 are connected in the following relationship and position;

one end of the second movable arm 2a4 is movably mounted on the fixed shaft, the slide block 2a5 is movably connected with the end of the second movable arm 2a4, the guide rail 2a6 is mounted on one side of the movable chassis 1, the cross section of the guide rail 2a6 is in an I-shaped structure, and the slide block 2a5 is assembled on the guide rail 2a6 and provided with a convex groove matched with the guide rail 2a 6;

in the specific implementation process, the sliding block 2a5 and the movable chassis 1 are connected through the second movable arm 2a4, the sliding block 2a5 is limited through the I-shaped guide rail 2a6, the sliding block 2a5 can move along with the movable chassis 1 in the moving process, and the movable chassis 1 is clamped with the groove of the sliding block 2a5 through the I-shaped structure when stopped, so that the sliding block 2a5 is limited, the movable chassis 1 is further limited, the working principle of the movable chassis 1 is basically the same as that of the embodiment 1, but the anchor 2a3 does not need to be fixed, and the sliding rail has requirements on the site.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. An efficient and energy-saving mechanical transportation device comprises a movable chassis (1), a pair of angle adjusting structures and a conveying structure, and is characterized in that the conveying structure is mounted on the movable chassis (1), the pair of angle adjusting structures are arranged on two sides of the conveying structure in a mirror image mode and are movably connected with the conveying structure, and a pair of ground grabbing claws (2) are arranged on the movable chassis (1);

the angle adjusting structure includes: a pair of side guard plates (3), a pair of sliding chutes (4), a sliding block (5), a fixed seat (6), a supporting tube (7), an adjusting rod (8), a thread block (9), a rocker (10) and a driving gear (11);

the conveying structure is characterized in that a pair of side guard plates (3) are connected to two sides of the conveying structure, a pair of sliding grooves (4) are formed in the side guard plates (3), a pair of sliding blocks (5) are assembled in the sliding grooves (4), the fixing base (6) is installed on the movable chassis (1), the supporting tube (7) is installed in the fixing base (6), the adjusting rod (8) is inserted into the supporting tube (7), the top end of the adjusting rod is movably connected with the sliding blocks (5) through a pin shaft, an internal thread structure is formed in the supporting tube (7), a thread block (9) matched with the internal thread structure is movably installed at the bottom end of the adjusting rod (8), a rocker (10) is movably installed on the fixing base (6), a driving gear (11) is arranged at the end of the rocker (10), and tooth grooves matched with the.

2. An energy efficient mechanical transportation apparatus as defined in claim 1 wherein the transfer structure comprises: the device comprises a bracket (12), a pair of roll shafts (13), a conveyor belt (14), a driven gear (15), a driving motor (16) and a driving gear (17);

one end of the support (12) is movably mounted on the movable chassis (1), the pair of side protection plates (3) are mounted on two sides of the support (12), the pair of roller shafts (13) are respectively mounted at two ends of the support (12), the conveying belt (14) is sleeved between the pair of roller shafts (13), a driven gear (15) is arranged at the end of one of the pair of roller shafts (13), the driving motor (16) is mounted on one side of the support (12), and a driving gear (17) is arranged on the driving motor (16) and the driven gear (15) is meshed with the driving gear (17).

3. An energy efficient mechanical transport device according to claim 1, characterized in that the ground gripping claw (2) comprises: a first movable arm (2a1), a fixed disc (2a2) and a ground anchor (2a 3);

remove chassis (1) one side and be equipped with a pair of movable groove, it is a pair of the activity inslot is equipped with a pair of fixed axle, first digging arm (2a1) movable mounting is on the fixed axle, fixed disk (2a2) are installed in first digging arm (2a1) tip, the fixed orifices has been seted up at fixed disk (2a2) center, earth anchor (2a3) are installed in the fixed orifices.

4. An energy efficient mechanical transport device according to claim 3, characterized in that the ground gripping claw (2) comprises: a second movable arm (2a4), a slider (2a5), and a guide rail (2a 6);

second digging arm (2a4) one end movable mounting is on the fixed axle, slider (2a5) and second digging arm (2a4) tip swing joint, guide rail (2a6) are installed in removal chassis (1) one side, just guide rail (2a6) cross section is I shape structure, slider (2a5) assemble on guide rail (2a6) and seted up type-convex recess and guide rail (2a6) and match.

5. An energy-efficient mechanical transportation device as claimed in claim 1, characterized in that the moving chassis (1) is composed of a mounting platform (18) with a rectangular structure and two pairs of rollers (19) capable of rotating independently, and a traction ring (20) is arranged on one side of the mounting platform (18).

6. An efficient energy-saving mechanical transportation device as claimed in claim 1, wherein the fixed seat (6) is a table-shaped structure with a rotation groove at the center, and the bottom of the support tube (7) is provided with a plurality of balls matched with the rotation groove.

7. An efficient energy-saving mechanical transportation device as claimed in claim 1, characterized in that the rocker (10) is movably mounted on the fixed base (6) and is of a zigzag structure and the driving gear (11) is of a bevel gear structure.

8. An energy efficient mechanical transportation device as claimed in claim 2 wherein the frame (12) is a rectangular frame with several reinforcement bars (21) in between.

9. An efficient energy-saving mechanical transportation device as claimed in claim 8, wherein a pair of hydraulic support rods (22) are movably mounted on two sides of the top end of the support (12), and the buffer platform (23) is movably mounted on the top end of the support (12) and movably connected with the pair of hydraulic support rods (22).

10. An efficient energy-saving mechanical transportation device as claimed in claim 1, characterized in that a pair of limiting strips (24) are arranged at two sides of the adjusting rod (8) and a limiting through groove matched with the pair of limiting strips (24) is arranged at the end part of the supporting tube (7).