CN218620121U - Electric loading machine for containerized goods - Google Patents

Abstract

The utility model relates to the technical field of airport ground equipment, in particular to an electric container cargo loader; the lifting device comprises a chassis, a mobile unit, first lift platform and second lift platform, second lift platform includes the leading truck, second loading board and two lift units, every lift unit all includes the scissors frame, first promotion subassembly and second promotion subassembly, start hydraulic lifting post, adjust the height of scissors fork formula crane, thereby adjust the height of first loading board, start first promotion subassembly and second promotion subassembly, through the position that changes first stabilizer blade and second stabilizer blade, thereby adjust the angle of opening and shutting between first support column and the second support column, and then adjust the whole height of scissors frame, make second loading board and first loading board be in same height, because first promotion subassembly and second promote the subassembly by electric drive, compare in traditional hydraulic drive's mode, reduce the running cost.

Description

Electric loading machine for containerized goods

Technical Field

The utility model relates to an airport ground equipment technical field especially relates to an electrodynamic type collection dress cargo loader.

Background

The containerized cargo loader is an airport cargo lifting platform car which is commonly called, is airport ground equipment used for transporting airport containers or containerized plate cargos into an airplane from the ground or transferring cargos to a ground flat car from the airplane, has the characteristics of stable structure, flexible movement, stable lifting, convenient operation, large carrying capacity and the like, and can provide great convenience for loading and unloading airport airplane cargos.

However, all the actuating elements of the existing container loader are hydraulic elements, hydraulic energy is distributed to the actuating elements from a hydraulic pump through hydraulic valves with multiple functions, and the operation cost is high due to the fact that the oil price is higher.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electrodynamic type containerized goods loader solves all executive component of the current containerized goods loader among the prior art and is hydraulic component, and the hydraulic pressure can be distributed executive component through the hydrovalve of multiple functions from the hydraulic pump, because the oil price leads to the problem that the running cost is high on the high side.

In order to achieve the above object, the utility model provides an electric container loader, including chassis, mobile unit, first lift platform and second lift platform, be provided with the mobile unit below the chassis, first lift platform and second lift platform all are located the top of chassis, and be located respectively the both ends of chassis, first lift platform includes scissors fork crane, first loading board and hydraulic lifting post, the one end of scissors fork crane is dismantled with the chassis and is connected, the other end of scissors fork crane is provided with first loading board, be provided with hydraulic lifting post between chassis and the first loading board;

the second lifting platform comprises a guide frame, a second bearing plate and two lifting units, the guide frame is connected with the chassis in a detachable mode and located on one side of the first lifting platform, the second bearing plate is close to one end of the guide frame and provided with a sliding piece, the sliding piece is connected with the guide frame in a sliding mode, the second bearing plate is connected with the chassis in a sliding mode, the two lifting units are arranged between the two lifting units and located on two sides of the chassis respectively, each lifting unit comprises a scissor frame, a first pushing assembly and a second pushing assembly, the scissor frame comprises a first supporting column and a second supporting column, the first supporting column and the second supporting column are arranged in a crossed mode, a first supporting leg is movably arranged at one end of the first supporting column, the other end of the first supporting column is connected with the second bearing plate in a sliding mode and located below the second bearing plate, the output end of the first pushing assembly corresponds to the first supporting leg, a second supporting leg is movably arranged at one end of the second supporting column, the other end of the second supporting column is connected with the second bearing plate in a sliding mode and located below the second bearing plate, and the output end of the second supporting leg corresponds to the second supporting plate.

The first pushing assembly and the second pushing assembly respectively comprise a servo motor, a screw rod and a screw rod sleeve, the servo motor is detachably connected with the chassis, the output end of the servo motor is provided with the screw rod, the screw rod sleeve is arranged on the screw rod, and the first supporting leg and the second supporting leg are detachably connected with one screw rod sleeve respectively.

The first pushing assembly and the second pushing assembly further comprise auxiliary supporting frames, the auxiliary supporting frames are located at one ends, far away from the servo motor, of the screw rods, one ends of the auxiliary supporting frames are detachably connected with the chassis, and the other ends of the auxiliary supporting frames are sleeved outside the screw rods.

Each auxiliary supporting frame comprises a bottom plate, a supporting plate and a supporting ring, one end of the supporting plate is fixedly connected with the bottom plate, the other end of the supporting plate is fixedly connected with the supporting ring, the bottom plate is detachably connected with the chassis, and the supporting ring is sleeved outside the screw rod.

The first bearing plate and the second bearing plate are provided with a plurality of conveying rollers, and fences are arranged on two sides of the first bearing plate.

The utility model discloses an electrodynamic type collection dress cargo loader, including chassis, mobile unit, first lift platform and second lift platform, second lift platform includes leading truck, second loading board and two lift units, every the lift unit all includes scissor holder, first promotion subassembly and second promotion subassembly, starts hydraulic pressure jacking post adjusts the height of scissor holder formula crane, thereby adjusts the height of first loading board starts first promotion subassembly with the second promotes the subassembly, through changing first stabilizer blade with the position of second stabilizer blade, thereby adjusts first support column with the angle of opening and shutting between the second support column, and then adjust the whole height of scissor holder makes the second loading board along the direction of leading truck goes up and down, makes the second loading board with first loading board is in same height, because first promotion subassembly with second promotion subassembly compares in traditional hydraulic drive's mode, reduces the running cost.

Drawings

Fig. 1 is a schematic structural view of an electric container loader according to the present invention.

Fig. 2 is a schematic structural diagram of a second lifting platform provided by the present invention.

Fig. 3 is a partial enlarged view of a structure in fig. 2 according to the present invention.

1-chassis, 2-mobile unit, 3-first lifting platform, 4-second lifting platform, 5-scissor type lifting frame, 6-first bearing plate, 7-hydraulic lifting column, 8-guide frame, 9-second bearing plate, 10-lifting unit, 11-sliding member, 12-scissor frame, 13-first pushing assembly, 14-second pushing assembly, 15-first supporting column, 16-second supporting column, 17-first supporting leg, 18-second supporting leg, 19-servo motor, 20-screw rod, 21-screw rod sleeve, 22-auxiliary supporting frame, 23-bottom plate, 24-supporting plate, 25-supporting ring, 26-conveying roller and 27-enclosure.

Detailed Description

Referring to fig. 1 to 3, the present invention provides an electric container loader, including a chassis 1, a moving unit 2, a first lifting platform 3 and a second lifting platform 4, the moving unit 2 is disposed below the chassis 1, the first lifting platform 3 and the second lifting platform 4 are both disposed above the chassis 1 and are respectively disposed at two ends of the chassis 1, the first lifting platform 3 includes a scissor-type crane 5, a first loading plate 6 and a hydraulic lifting column 7, one end of the scissor-type crane 5 is detachably connected to the chassis 1, the other end of the scissor-type crane 5 is disposed with the first loading plate 6, and the hydraulic lifting column 7 is disposed between the chassis 1 and the first loading plate 6;

the second lifting platform 4 comprises a guide frame 8, a second bearing plate 9 and two lifting units 10, the guide frame 8 is detachably connected with the chassis 1 and is located on one side of the first lifting platform 3, the second bearing plate 9 is close to one end of the guide frame 8 and is provided with a sliding part 11, the sliding part 11 is slidably connected with the guide frame 8, two lifting units 10 are arranged between the second bearing plate 9 and the chassis 1, the two lifting units 10 are respectively located on two sides of the chassis 1, each lifting unit 10 comprises a scissor frame 12, a first pushing assembly 13 and a second pushing assembly 14, the scissor frame 12 comprises a first supporting column 15 and a second supporting column 16, the first supporting column 15 and the second supporting column 16 are arranged in a crossed structure, one end of the first supporting column 15 is movably provided with a first supporting leg 17, the other end of the first supporting column 15 is slidably connected with the second bearing plate 9 and is located below the second bearing plate 9, the output end of the first pushing assembly 13 is corresponding to the first supporting leg 17, one end of the second supporting column 16 is movably provided with a second supporting leg 18, and the second bearing plate 9 is slidably connected with the second supporting leg 14, and the second supporting column 18 is correspondingly connected with the second bearing plate 9 and pushes the second supporting leg 14.

In this embodiment, the hydraulic lifting column 7 is started, the height of the scissor type crane 5 is adjusted, so that the height of the first bearing plate 6 is adjusted, the first pushing assembly 13 and the second pushing assembly 14 are started, the opening and closing angle between the first supporting column 15 and the second supporting column 16 is adjusted by changing the positions of the first supporting leg 17 and the second supporting leg 18, and then the overall height of the scissor holder 12 is adjusted, so that the second bearing plate 9 is lifted along the direction of the guide frame 8, so that the second bearing plate 9 and the first bearing plate 6 are at the same height, and since the first pushing assembly 13 and the second pushing assembly 14 are both driven by electricity, compared with the conventional hydraulic driving method, the operation cost is reduced.

Further, the first pushing assembly 13 and the second pushing assembly 14 both include a servo motor 19, a screw rod 20 and a screw rod sleeve 21, the servo motor 19 is detachably connected to the chassis 1, the screw rod 20 is disposed at an output end of the servo motor 19, the screw rod sleeve 21 is disposed on the screw rod 20, and the first supporting leg 17 and the second supporting leg 18 are detachably connected to one screw rod sleeve 21 respectively.

In this embodiment, the servo motor 19 is started to drive the screw rod 20 to rotate, and the first leg 17 and the second leg 18 are respectively detachably connected to one screw rod sleeve 21, so that the first leg 17 and the second leg 18 are driven to translate on the screw rod 20, the opening and closing angles of the first supporting column 15 and the second supporting column 16 are adjusted, and the height of the second bearing plate 9 is adjusted.

Further, first promotion subassembly 13 with second promotion subassembly 14 all still includes auxiliary support frame 22, auxiliary support frame 22 is located lead screw 20 is kept away from servo motor 19's one end, auxiliary support frame 22's one end with chassis 1 dismantles the connection, auxiliary support frame 22's the other end cover is established the outside of lead screw 20, every auxiliary support frame 22 all includes bottom plate 23, backup pad 24 and support ring 25, the one end of backup pad 24 with bottom plate 23 fixed connection, the other end of backup pad 24 with support ring 25 fixed connection, bottom plate 23 with chassis 1 dismantles the connection, support ring 25 cover is established the outside of lead screw 20.

In this embodiment, the lead screw 20 is kept away from the one end of servo motor 19 sets up auxiliary stay frame 22, through auxiliary stay frame 22 is right lead screw 20 is made, avoids lead screw 20 with servo motor 19's junction atress is too big, reduces lead screw 20's life, bottom plate 23 with support ring 25 all with backup pad 24 fixed connection adopts the integrated into one piece technique to make during the manufacturing, and the structure is more firm.

Further, a plurality of conveying rollers 26 are disposed on each of the first bearing plate 6 and the second bearing plate 9, and fences 27 are disposed on two sides of the first bearing plate 6.

In this embodiment, the first loading plate 6 and the second loading plate 9 are provided with a plurality of conveying rollers 26, so as to facilitate transportation of goods, the two sides of the first loading plate 6 are provided with the fences 27, and therefore workers are prevented from falling from the first lifting platform 3.

Claims (5)

1. An electric container cargo loader comprises a chassis, a mobile unit, a first lifting platform and a second lifting platform, wherein the mobile unit is arranged below the chassis, the first lifting platform and the second lifting platform are both positioned above the chassis and are respectively positioned at two ends of the chassis, the first lifting platform comprises a scissor-type lifting frame, a first bearing plate and a hydraulic jacking column, one end of the scissor-type lifting frame is detachably connected with the chassis, the other end of the scissor-type lifting frame is provided with the first bearing plate, the hydraulic jacking column is arranged between the chassis and the first bearing plate, and the container cargo loader is characterized in that,

the second lifting platform comprises a guide frame, a second bearing plate and two lifting units, the guide frame is detachably connected with the chassis and is located on one side of the first lifting platform, the second bearing plate is close to one end of the guide frame and is provided with a sliding part, the sliding part is connected with the guide frame in a sliding mode, the second bearing plate is connected with the chassis in a sliding mode, the two lifting units are arranged between the second bearing plate and the chassis and are located on two sides of the chassis respectively, each lifting unit comprises a scissor frame, a first pushing assembly and a second pushing assembly, the scissor frame comprises a first supporting column and a second supporting column, the first supporting column and the second supporting column are arranged in a crossed structure mode, a first supporting leg is movably arranged at one end of the first supporting column, the other end of the first supporting column is connected with the second bearing plate in a sliding mode and is located below the second bearing plate, the output end of the first pushing assembly corresponds to the first supporting leg, a second supporting leg is movably arranged at one end of the second supporting column, the other end of the second supporting column is connected with the second bearing plate in a sliding mode and is located below the second bearing plate, and the second supporting plate, and the output end of the second supporting leg corresponds to the second supporting leg pushing assembly.

2. The electric bulk cargo loader according to claim 1,

the first pushing assembly and the second pushing assembly respectively comprise a servo motor, a lead screw and a lead screw sleeve, the servo motor is detachably connected with the chassis, the output end of the servo motor is provided with the lead screw, the lead screw is provided with the lead screw sleeve, and the first supporting leg and the second supporting leg are respectively detachably connected with the lead screw sleeve.

3. The electric container loader according to claim 2,

the first pushing assembly and the second pushing assembly further comprise auxiliary supporting frames, the auxiliary supporting frames are located at one ends, far away from the servo motor, of the screw rods, one ends of the auxiliary supporting frames are detachably connected with the chassis, and the other ends of the auxiliary supporting frames are sleeved outside the screw rods.

4. The electric container loader according to claim 3,

every the auxiliary stay frame all includes bottom plate, backup pad and support ring, the one end of backup pad with bottom plate fixed connection, the other end of backup pad with support ring fixed connection, the bottom plate with the chassis is dismantled and is connected, the support ring cover is established the outside of lead screw.

5. The electric bulk cargo loader according to claim 1,

the first bearing plate and the second bearing plate are provided with a plurality of conveying rollers, and fences are arranged on two sides of the first bearing plate.

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