CN112079295A - Electric stacking machine capable of being loaded onto vehicle - Google Patents

Abstract

The invention provides an electric stacking machine capable of getting on a vehicle, which comprises a frame body, a loading mechanism, a telescopic mechanism, a first linkage mechanism, a second linkage mechanism and a control mechanism. The frame body comprises a supporting seat, a lifting seat, a case, a handle, a first wheel set and a second wheel set; the load mechanism comprises a moving frame and a fork, the moving frame is movably arranged on the lifting seat, and the fork is arranged on the moving frame; one end of the telescopic mechanism is arranged on the case, and the other end of the telescopic mechanism is arranged on the lifting seat; one end of the first linkage mechanism is connected with the movable frame, and the other end of the first linkage mechanism is connected with the supporting seat; one end of the second linkage mechanism is connected with the other end supporting seat of the movable frame; the control mechanism includes an electric power unit, a power unit, and an operation unit. Therefore, the load-carrying mechanism can be lifted or lowered to carry goods by matching the telescopic mechanism and the first linkage mechanism, the lifting stroke during carrying is increased, the load-carrying mechanism can be abutted against the car hopper, and the frame body is lifted and moved onto the car hopper by matching the second linkage mechanism and the telescopic mechanism so as to carry out carrying operation along with the car movement.

Description

Electric stacking machine capable of being loaded onto vehicle

Technical Field

The present invention relates to an electric forklift capable of getting on, and more particularly, to an electric forklift capable of increasing a lift stroke during transportation and moving with a vehicle to perform transportation.

Background

Generally, when transporting goods, a forklift is used to unload the goods from a vehicle or transport the goods to the vehicle.

Because the existing stacking machine is only limited to operation on the ground and cannot be carried to a discharging site along with a vehicle, the difficulty in discharging and carrying is increased if the stacking machine is not configured on the discharging site.

Disclosure of Invention

Based on at least one embodiment of the invention, the electric forklift capable of getting on the vehicle can enable the load-carrying mechanism to ascend or descend to carry goods by matching of the telescopic mechanism and the first linkage mechanism, increase the ascending stroke during carrying, enable the load-carrying mechanism to abut against the car hopper, and enable the frame body to be lifted and moved to the car hopper by matching of the second linkage mechanism and the telescopic mechanism so as to carry out carrying operation along with the movement of the car.

The invention provides an electric stacking machine capable of getting on a vehicle, which comprises: the device comprises a frame body, a loading mechanism, a telescopic mechanism, a first linkage mechanism, two second linkage mechanisms and a control mechanism. The rack body comprises a supporting seat, a lifting seat, a case, a handle, a first wheel set and a second wheel set, wherein the supporting seat is arranged on the case, the lifting seat is movably arranged on the supporting seat, the handle is movably arranged on the supporting seat, the first wheel set is arranged on two sides of the bottom of the case, and the second wheel set is movably arranged on the bottom of the case; the load mechanism comprises a moving frame and two forks, the moving frame is movably arranged on the lifting seat, and the forks are respectively arranged on two sides of one surface of the moving frame; the telescopic mechanism is positioned in the lifting seat, one end of the telescopic mechanism is arranged on the case, and the other end of the telescopic mechanism is arranged on the lifting seat; one end of the first linkage mechanism is connected with the movable frame, and the other end of the first linkage mechanism is connected with the supporting seat; one end of each second linkage mechanism is connected with the movable frame, and the other end of each second linkage mechanism is connected with the supporting seat; the control mechanism comprises an electric power unit, a power unit and an operation unit, the power unit is connected with the electric power unit and the telescopic mechanism, and the operation unit is connected with the electric power unit and the power unit.

Through the embodiment, the invention provides the electric fork lift capable of getting on a vehicle. The load-carrying mechanism can be lifted or lowered by the cooperation of the telescopic mechanism and the first linkage mechanism to carry goods, the lifting stroke during carrying is increased, the load-carrying mechanism can be abutted against the car hopper, and the frame body is lifted and moved onto the car hopper by the cooperation of the second linkage mechanism and the telescopic mechanism to carry out carrying operation along with the car movement.

Optionally, a guide groove is formed in the inner side of the support seat, and a guide portion correspondingly combined with the guide groove is formed in the outer side of the lifting seat.

Optionally, the two sides of the interior of the lifting seat are respectively provided with a track, the other side of the moving frame is provided with a plurality of wheel bodies, and each wheel body is movably arranged on each track.

Optionally, the top of lift seat is equipped with first pulley, the both sides of lift seat bottom are equipped with the second pulley respectively.

Optionally, the first linkage mechanism is a chain, and the first linkage mechanism is wound around the first pulley, and then connected to the moving frame at one end thereof and connected to the supporting seat at the other end thereof.

Optionally, each second linking mechanism is a chain, and each second linking mechanism is wound around each second pulley, and is connected to the moving frame at one end thereof and connected to the supporting seat at the other end thereof.

Optionally, an elastic component is arranged between the handle and the support seat.

Optionally, the second wheel set has two foot rests, a force application portion and a plurality of wheel bodies, the force application portion is connected to one end of each foot rest, each wheel body is disposed in each foot rest, the bottom of the chassis is provided with two limiting grooves, each foot rest is movably disposed in each limiting groove, each fork is provided with a receiving area, and each receiving area receives each foot rest.

Optionally, the telescopic mechanism is an oil hydraulic cylinder, the power unit is a rechargeable battery, and the power unit is an oil hydraulic power pump.

Optionally, the operation unit has a switch, a power display screen, a charging seat and two sets of lifting switches, the switch, the power display screen and the charging seat are disposed on the chassis, and the lifting switches are respectively disposed on two surfaces of the handle.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 is a schematic perspective view of a preferred embodiment of the present invention;

FIG. 2 is a schematic perspective view of a preferred embodiment of the present invention;

FIG. 3 is an exploded perspective view of the preferred embodiment of the present invention;

FIG. 4 is a first diagram illustrating a usage state of the preferred embodiment of the present invention;

FIG. 5 is a second schematic view illustrating a usage status of the preferred embodiment of the invention.

Reference numerals

1 frame body

11 support seat

111 guide groove

12 lifting seat

121 guide part

122 track

123 first pulley

124 second pulley

13 case

14 handle

141 resilient member

15 first wheel set

16 second wheel set

161 foot stool

162 force application part

163 wheel body

2 load mechanism

21 moving rack

211 wheel body

22 fork

221 accommodating area

3 telescoping mechanism

4 first linkage mechanism

5 second linkage mechanism

6 control mechanism

61 electric power unit

62 Power unit

63 operating unit

631 switch

632 power supply display screen

633 charging seat

634 lifting switch

7 hopper

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

Referring to fig. 1 to 5, as shown in the drawings, the present invention provides an electric forklift capable of getting on a vehicle, which includes a frame body 1, a loading mechanism 2, a telescopic mechanism 3, a first linkage mechanism 4, two second linkage mechanisms 5 and a control mechanism 6.

The support body 1 comprises a supporting seat 11, a lifting seat 12, a case 13, a handle 14, a first wheel set 15 and a second wheel set 16, wherein the supporting seat 11 is arranged at the central part of the case 13, the lifting seat 12 is movably arranged in the supporting seat 11, the handle 14 is movably arranged on the supporting seat 11, the first wheel set 15 is arranged on two sides of the bottom of the case 13, and the second wheel set 16 is movably arranged on the bottom of the case 13.

The load mechanism 2 comprises a moving frame 21 and two forks 22, the moving frame 21 is movably arranged on the lifting seat 12, and the forks 22 are respectively arranged on two sides of one surface of the moving frame 21.

The telescopic mechanism 3 is located in the lifting seat 12, one end of the telescopic mechanism 3 is disposed in the chassis 13, and the other end of the telescopic mechanism 3 is disposed in the lifting seat 12, in the embodiment of the present invention, the telescopic mechanism 3 may be an oil hydraulic cylinder.

One end of the first linkage mechanism 4 is connected with the movable frame 21, and the other end is connected with the supporting seat 11.

One end of each second linkage mechanism 5 is connected to the movable frame 21, and the other end is connected to the support base 11.

The control mechanism 6 includes an electric power unit 61, a power unit 62, and an operation unit 63, wherein the power unit 62 connects the electric power unit 61 and the telescopic mechanism 3, the operation unit 63 connects the electric power unit 61 and the power unit 62, in the embodiment of the present invention, the electric power unit 61 is a rechargeable battery, and the power unit 62 is a hydraulic power pump.

When lifting, the operation unit 63 starts the power unit 61 and the power unit 62, and then the operation unit 63 drives the power unit 62, so that the power unit 62 outputs power to the telescopic mechanism 3, the telescopic mechanism 3 extends to move the lifting seat 12 out of the supporting seat 11, and the load-carrying mechanism 2 is lifted (at this time, the second linkage mechanisms 5 also lift at the same time) by the cooperation of the first linkage mechanism 4, and the second wheel set 16 is used as a support; alternatively, the power unit 62 may be driven by the operation unit 63, the power unit 62 may adjust the output power to the telescopic mechanism 3, the telescopic mechanism 3 may be shortened to move the lifting base 12 into the support base 11, and the load mechanism 2 may be lowered by the engagement of the first link mechanism 4 (in this case, the second link mechanisms 5 may be lowered at the same time); and the load mechanism 2 can be raised or lowered to a desired position by the control of the operation unit 63 during the raising and lowering operation. In this way, the load-carrying mechanism 2 can be raised or lowered to carry the load, and the lift stroke during the carrying process can be increased by the cooperation of the lift seat 12, the telescopic mechanism 3 and the first linkage mechanism 4.

When moving, a force is applied to the handle 14, and the first wheel set 15 and the second wheel set 16 are engaged with each other to move the electric forklift of the present invention to a desired position, and the forks 22 are inserted into a cargo (generally, a pallet, not shown), and then the lifting operation is performed according to the above-mentioned manner, so as to achieve the effect of easily transporting the cargo.

When the electric fork lift of the present invention is going to move to the car hopper 7, in a state that the load-carrying mechanism 2 is lifted, the electric fork lift is moved to the position of the car hopper 7, and the operation unit 63 is engaged with the power unit 62, the telescopic mechanism 3 is shortened to move the lifting seat 12 into the support seat 11, and the bottom of each fork 22 of the load-carrying mechanism 2 is lowered to a position abutting against the car hopper 7 due to the shortening of the telescopic mechanism 3, and the second wheel set 16 is pulled backward to avoid interference with the car hopper 7 during the lifting process, and then the telescopic mechanism 3 is continuously shortened due to the engagement of the operation unit 63 and the power unit 62, since each fork 22 of the load-carrying mechanism 2 is abutted against the car hopper 7 and cannot be lowered any more, the frame body 1 can be lifted by the force of each fork 22 abutting against downwards and engaging with each second linking mechanism 5, when the lifting base 12 is lifted to be completely moved into the supporting base 11 (i.e. the lowest position of the load-carrying mechanism 2 in the lifting base 12), the second wheel set 16 is pushed forward and applies force to the handle 14, and the electric forklift is moved to the hopper 7 by the cooperation of the first wheel set 15 and the second wheel set 16, so as to achieve the purpose of carrying along with the vehicle.

In a preferred embodiment of the present invention, a guide groove 111 is disposed inside the support base 11, and a guide portion 121 correspondingly coupled to the guide groove 111 is disposed on one side of the lifting base 12. Thus, when the lifting seat 12 moves out of or into the supporting seat 11, the stability of the lifting seat 12 during the lifting stroke can be improved by the cooperation between the guiding groove 111 and the guiding portion 121.

In a preferred embodiment of the present invention, the lifting base 12 is provided with a track 122 on each of two sides thereof, the moving frame 21 is provided with a plurality of wheels 211 on the other side thereof, and each wheel 211 is movably disposed on each track 122. Thus, when the load-carrying mechanism 2 is lifted up or lowered down on the lifting base 12 for carrying the cargo, the moving frame 21 can be smoothly and stably moved in the rails 122 by the wheels 211 due to the restriction and guidance of the rails 122, so as to prevent the load-carrying mechanism 2 from shaking.

In the preferred embodiment of the present invention, the top end of the lifting base 12 is provided with a first pulley 123, and two sides of the bottom of the lifting base 12 are respectively provided with a second pulley 124. The first linkage mechanism 4 is a chain, the first linkage mechanism 4 is wound around the first pulley 123, and then connected to the moving frame 21 at one end thereof, and connected to the supporting base 11 at the other end thereof, and each second linkage mechanism 5 is a chain, and each second linkage mechanism 5 is wound around each second pulley 124, and then connected to the moving frame 21 at one end thereof, and connected to the supporting base 11 at the other end thereof. Thus, when the first linkage mechanism 4 and the second linkage mechanisms 5 are actuated, the effect of smooth and stable linkage can be achieved by the cooperation of the first pulley 123 and the second pulleys 124.

In the preferred embodiment of the present invention, an elastic component 141 is disposed between the handle 14 and the supporting base 11. Therefore, when in use, the handle 14 can be applied with force to move the handle 14 from the vertical state (perpendicular to the case 13) to the inclined state, and after in use, the handle 14 can automatically return to the vertical state through the elastic component 141, thereby being convenient for operation again and avoiding the user from performing various operations.

In a preferred embodiment of the present invention, the second wheel set 16 has two foot rests 161, a force application portion 162 and a plurality of wheel bodies 163, the force application portion 162 is connected to one end of each foot rest 161, each wheel body 163 is respectively disposed on each foot rest 161, the bottom of the chassis 13 is provided with two limiting grooves 131, each foot rest 161 is movably disposed in each limiting groove 131, each fork 22 is respectively provided with a receiving area 221, and each receiving area 221 respectively receives each foot rest 161. Accordingly, the wheels 163 of the first wheel set 15 and the foot rests 161 are moved during the moving operation, and the foot rests 161 of the second wheel set 16 are supported during the raising of the load mechanism 2, thereby facilitating the raising and lowering operation and the moving operation. In addition, when the electric fork lift is to be moved to the car hopper 7, a backward pulling force can be applied to the force application portion 162, so that each foot rest 161 is matched with each wheel body 163 to move backward in each limiting groove 131, and the second wheel set 16 is moved backward from the bottom of the case 13, thereby avoiding interference between each foot rest 161 and the car hopper 7 in the lifting process.

In the preferred embodiment of the present invention, the operation unit 63 has a switch 631, a power display screen 632, a charging seat 633 and two sets of lifting switches 634, the switch 631, the power display screen 632 and the charging seat 633 are disposed on the chassis 13, and the lifting switches 634 are respectively disposed on two surfaces of the handle 14. Thus, when in use, the switch 631 turns on the power unit 61 and the power unit 62, and then each of the lifting switches 634 drives the power unit 62, so that the power unit 62 outputs appropriate power to the telescopic mechanism 3, the telescopic mechanism 3 extends or shortens, the lifting seat 12 moves upwards or downwards in the support seat 11, and the first linkage 4 is engaged to raise or lower the load-carrying mechanism 2; since the lifting switches 634 are respectively disposed on two surfaces of the handle 14, the load-carrying mechanism 2 can be lifted or lowered by the lifting switches 634 during the operation of the handle 14 or when the handle 14 is at an inoperative position, thereby achieving the effect of easy operation.

In addition, the power display screen 632 can display the power percentage of the power unit 61, and the charging base 633 can cooperate with a power line (not shown) to charge the power unit 61, so that the present invention can better meet the requirement of practical use.

In summary, the electric forklift capable of getting on the vehicle provided by the embodiments of the present invention can lift or lower the load-carrying mechanism to carry the goods by the cooperation of the telescopic mechanism and the first linkage mechanism, increase the lifting stroke during carrying, and push the load-carrying mechanism against the car hopper, and lift and move the frame body onto the car hopper by the cooperation of the second linkage mechanism and the telescopic mechanism to carry out the carrying operation along with the movement of the car.

The above description is only an example of the present invention, and is not intended to limit the scope of the present invention.

Claims (10)

1. An electric forklift capable of getting on a vehicle, which is characterized by comprising:

the support frame comprises a support seat, a lifting seat, a case, a handle, a first wheel set and a second wheel set, wherein the support seat is arranged on the case, the lifting seat is movably arranged on the support seat, the handle is movably arranged on the support seat, the first wheel set is arranged on two sides of the bottom of the case, and the second wheel set is movably arranged on the bottom of the case;

the loading mechanism comprises a moving frame and two forks, the moving frame is movably arranged on the lifting seat, and the forks are respectively arranged on two sides of one surface of the moving frame;

the telescopic mechanism is positioned in the lifting seat, one end of the telescopic mechanism is arranged on the case, and the other end of the telescopic mechanism is arranged on the lifting seat;

one end of the first linkage mechanism is connected with the movable frame, and the other end of the first linkage mechanism is connected with the supporting seat;

one end of each second linkage mechanism is connected with the movable frame, and the other end of each second linkage mechanism is connected with the supporting seat; and

the control mechanism comprises an electric power unit, a power unit and an operation unit, wherein the power unit is connected with the electric power unit and the telescopic mechanism, and the operation unit is connected with the electric power unit and the power unit.

2. The electric forklift capable of getting on the vehicle as claimed in claim 1, wherein a guide groove is provided on an inner side of the support base, and a guide portion correspondingly engaged with the guide groove is provided on an outer side of the elevating base.

3. The electric forklift capable of getting on according to claim 1, wherein rails are respectively provided on both sides of the interior of the lifting base, and a plurality of wheel bodies are provided on the other surface of the moving frame, and each wheel body is movably provided on each rail.

4. The electric forklift capable of getting on the vehicle as claimed in claim 1, wherein a first pulley is provided on the top end of the lifting seat, and a second pulley is provided on each side of the bottom of the lifting seat.

5. The electric stacking machine of claim 4, wherein the first linkage mechanism is a chain, and the first linkage mechanism is wound around the first pulley, and is connected to the moving frame at one end thereof and connected to the supporting base at the other end thereof.

6. The electric forklift capable of getting on according to claim 4, wherein each of the second linking mechanisms is a chain, and each of the second linking mechanisms is wound around each of the second pulleys, and is connected to the moving frame at one end thereof and to the support base at the other end thereof.

7. The electric forklift capable of getting on the vehicle as claimed in claim 1, wherein an elastic component is provided between the handle and the supporting base.

8. The electric forklift capable of getting on the vehicle as claimed in claim 1, wherein the second wheel set has two foot rests, a force application portion and a plurality of wheel bodies, the force application portion is connected to one end of each foot rest, each wheel body is disposed on each foot rest, the bottom of the case is provided with two limiting grooves, each foot rest is movably disposed in each limiting groove, each fork is provided with a receiving area, and each receiving area receives each foot rest.

9. The electric forklift capable of getting on according to claim 1, wherein the telescopic mechanism is an oil hydraulic cylinder, the power unit is a rechargeable battery, and the power unit is an oil hydraulic power pump.

10. The electric forklift capable of getting on the vehicle according to claim 1, wherein the operation unit has a switch, a power display screen, a charging seat and two sets of lifting switches, the switch, the power display screen and the charging seat are disposed on the chassis, and the lifting switches are respectively disposed on two surfaces of the handle.

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