CN111170223A - Energy-saving light-duty feeding forklift with infrared alignment function - Google Patents

Abstract

The invention discloses an energy-saving light-duty feeding forklift with an infrared alignment function, which relates to the technical field of forklifts and comprises a forklift chassis, a fork mechanism, a control box, a first frame mechanism and a second frame mechanism, actuating mechanism, elevating system, infrared ray sensor, siren and control panel, the one end of fork truck chassis is equipped with first frame structure and control box, be equipped with second frame structure on the first frame structure, be equipped with fork mechanism on the second frame structure, be equipped with actuating mechanism in the control box, be equipped with elevating system on the second frame structure, elevating system connects fork mechanism and actuating mechanism, the both sides of first frame structure respectively are equipped with an infrared ray sensor, be equipped with the siren on the control box, control panel sets up the one side at first frame structure, control panel respectively with actuating mechanism, infrared ray sensor and siren electricity are connected. The automatic aligning device is simple in structure, light in weight, small in size and suitable for being used on floors, and only accounts for 30% of the weight of a traditional forklift, and has an automatic aligning function.

Description

Energy-saving light-duty feeding forklift with infrared alignment function

Technical Field

The invention relates to the technical field of forklifts, in particular to an energy-saving light-weight feeding forklift with an infrared alignment function.

Background

At present, in the fork truck field, fork truck is used for carrying some bulky, the great goods of weight, and current fork truck internals is too complicated, it is generally great to lead to the fork truck volume, thereby can not start in the elevator fork truck, and at job site such as some factory buildings, often need realize the transport between the floor of difference, and because bearing and space are limited between the floor, the davit commonly used is not fit for using on narrow space, and also do not have the automatic alignment function on the current fork truck, can hinder user's sight when the volume of goods is too big, make in the entering elevator that fork truck can not be accurate, can influence work efficiency and collision damage.

Disclosure of Invention

The invention aims to provide an energy-saving light-weight feeding forklift with an infrared alignment function, which is used for solving the technical problem.

The technical scheme adopted by the invention is as follows:

an energy-saving light-duty feeding forklift with an infrared alignment function comprises a forklift chassis, a fork mechanism, a control box, a first frame mechanism, a second frame mechanism, a driving mechanism, a lifting mechanism, an infrared sensor, an alarm and a control panel, wherein the first frame mechanism and the control box are arranged at one end of the forklift chassis, the control box is positioned at one side of the first frame mechanism, the second frame mechanism is arranged on the first frame mechanism in a sliding manner, the fork mechanism is arranged on the second frame mechanism in a sliding manner, the driving mechanism is arranged in the control box, the lifting mechanism is also arranged on the second frame mechanism, the lifting mechanism is connected with the fork mechanism and the driving mechanism, the infrared sensor is respectively arranged at two sides of the first frame mechanism, and the alarm is arranged on the control box, the control panel is arranged on one side of the first frame mechanism and is electrically connected with the driving mechanism, the infrared sensor and the alarm respectively.

Preferably, the forklift further comprises distance measuring sensors, wherein one distance measuring sensor is arranged on each of two sides of the other end of the forklift chassis, and each distance measuring sensor is electrically connected with the control panel.

As a further preferred option, still include pneumatic cylinder and hydraulic stem, the pneumatic cylinder sets up the one end of fork truck chassis, just the pneumatic cylinder is located the inboard of first frame mechanism, the one end of hydraulic stem with the pneumatic cylinder is connected, the other end of hydraulic stem with second frame mechanism connects, the pneumatic cylinder with control panel electricity is connected.

Preferably, the device further comprises a pushing handle, the pushing handle is arranged at the upper end of the control box, and one end of the pushing handle is rotatably connected with the upper end of the control box.

Preferably, the control panel further comprises a mechanical arm, and the control panel is fixed on one side of the first frame mechanism through the mechanical arm.

As a further preference, the control panel includes a panel main body, a display screen, a processor and a control button module, the middle part of the panel main body is provided with the display screen, the processor is arranged in the panel main body, the control button module is arranged on the panel main body, and the control button module is located on one side of the display screen, wherein the display screen, the control button module, the driving mechanism, the two infrared sensors, the alarm, the two distance measuring sensors and the hydraulic cylinder are respectively electrically connected with the processor.

As a further preference, the fork mechanism includes two forks and a mounting plate, the mounting plate is slidably connected to the second frame mechanism, the mounting plate is connected to the lifting mechanism, two of the forks are disposed on the mounting plate, and two of the forks are located on the mounting plate at a side away from the second frame mechanism.

As a further preferred option, the driving mechanism includes a driving motor, a driving gear, a driven gear, a transmission shaft and winding wheels, wherein the driving motor is electrically connected to the processor, the driving gear is disposed on a motor shaft of the driving motor, the driven gear is disposed in the middle of the transmission shaft, the driven gear is engaged with the driving gear, and the two winding wheels are disposed at two ends of the transmission shaft.

Preferably, the lifting mechanism comprises two rollers and two connecting belts, the two rollers are arranged at the upper ends of the two sides of the second frame mechanism, and each connecting belt is respectively connected with one rolling wheel, one roller and the mounting plate.

Preferably, the forklift further comprises a front caster and a rear caster, the two sides of the other end of the forklift chassis are respectively provided with the front caster, and the lower end of the control box is provided with the rear caster.

The technical scheme has the following advantages or beneficial effects:

the energy-saving light-duty feeding forklift adopts a hand-push type forklift, and has the advantages of energy conservation and emission reduction compared with a forklift mechanism with a forklift body; the energy-saving light-duty feeding forklift is simple in structure and light in weight, only has the weight of 30% of that of a traditional forklift, is small in size, saves electricity and energy in the using process, is convenient to feed, and is suitable for floors, plants, staircases and elevators.

Drawings

FIG. 1 is a first perspective view of the energy saving light-duty feeding forklift with infrared alignment of the present invention;

FIG. 2 is a schematic view of the connection between the control panel and the robot arm according to the present invention;

fig. 3 is a second perspective view of the energy saving light-duty feeding forklift with infrared alignment function of the present invention.

In the figure: 1. a forklift chassis; 2. a fork mechanism; 201. a pallet fork; 202. mounting a plate; 3. a control box; 4. a first frame mechanism; 5. a second frame mechanism; 6. an infrared sensor; 7. an alarm; 8. a control panel; 801. a panel main body; 802. a display screen; 803. a first button module; 804. a second button module; 9. a ranging sensor; 10. a hydraulic cylinder; 11. a hydraulic lever; 12. pushing the handle; 13. a mechanical arm; 131. a first support bar; 132. a second support bar; 133. a first bushing; 134. a second shaft sleeve; 135. a panel mounting bracket; 14. a roller; 15. a connecting belt; 16. a front caster; 17. a foot pedal.

Detailed Description

The invention is further described with reference to the following drawings and specific examples, which are not intended to be limiting.

FIG. 1 is a first perspective view of an energy saving light-duty feeding forklift with infrared alignment of the present invention; FIG. 2 is a schematic view of the connection between the control panel and the robot arm according to the present invention; fig. 3 is a second perspective view of the energy saving light-duty feeding forklift with infrared alignment function of the present invention. Referring to fig. 1 to 3, a preferred embodiment is shown, which illustrates an energy-saving light-duty feeding forklift with an infrared alignment function, including a forklift chassis 1, a fork mechanism 2, a control box 3, a first frame mechanism 4, a second frame mechanism 5, a driving mechanism (not shown), a lifting mechanism, an infrared sensor 6, an alarm 7 and a control panel 8, wherein the first frame mechanism 4 and the control box 3 are disposed at one end of the forklift chassis 1, the control box 3 is disposed at one side of the first frame mechanism 4, the second frame mechanism 5 is slidably disposed on the first frame mechanism 4, the fork mechanism 2 is slidably disposed on the second frame mechanism 5, the driving mechanism is disposed in the control box 3, the lifting mechanism is further disposed on the second frame mechanism 5, and the lifting mechanism connects the fork mechanism 2 and the driving mechanism, the two sides of the first frame mechanism 4 are respectively provided with one infrared sensor 6, the control box 3 is provided with an alarm 7, the control panel 8 is arranged on one side of the first frame mechanism 4, and the control panel 8 is respectively connected with the driving mechanism, the infrared sensor 6 and the alarm 7 electrically. In the present embodiment, the fork mechanism 2 is used for carrying goods; the second frame mechanism 5 can slide up and down relative to the first frame mechanism 4, the driving mechanism is used for driving the lifting mechanism, and the lifting mechanism is used for driving the fork mechanism 2 to move on the second frame mechanism 5; infrared ray sensor 6 is used for realizing this energy-conserving light-duty material fork truck's alignment function of throwing, and the material fork truck gets into the elevator room of this energy-conserving light-duty material of throwing of being convenient for, and when using, the infrared ray sensor of 4 both sides of first frame mechanism is used for surveying the infrared ray sensor of elevator entry both sides to realize light-duty material fork truck's alignment function of throwing, when light-duty material fork truck throws relative elevator entry direction and takes place the slope, siren 7 can the automatic alarm suggestion. In this embodiment, a power module (not shown) is further disposed in the control box 3 for supplying power to the driving mechanism, the infrared sensor 6, the hydraulic cylinder 10, the distance measuring sensor 9, the control panel 8 and the alarm 7. The fork mechanism 2, the control box 3, the second frame mechanism 5 and the control panel 8 in the embodiment are all made of carbon fiber materials, so that the energy-saving light-weight feeding forklift has the advantages of being small in size, light in weight, only 30% of the weight of a traditional forklift and convenient to carry, and is convenient to use on floors.

Further, as a preferred embodiment, the energy-saving light-duty feeding forklift with the infrared alignment function further comprises a distance measuring sensor 9, two sides of the other end of the forklift chassis 1 are respectively provided with one distance measuring sensor 9, and each distance measuring sensor 9 is respectively electrically connected with the control panel 8. In this embodiment, set up distance measuring sensor 9 and be used for surveying the distance between fork truck chassis 1's both sides and the elevator entry both sides, the user can read the numerical value that distance measuring sensor 9 detected through control panel 8 to learn the distance information between the both sides elevator entry both sides of fork truck chassis 1.

Further, as a preferred implementation mode, the energy-saving light-duty feeding forklift with the infrared alignment function further comprises a hydraulic cylinder 10 and a hydraulic rod 11, wherein the hydraulic cylinder 10 is arranged at one end of the forklift chassis 1, the hydraulic cylinder 10 is located on the inner side of the first frame mechanism 4, one end of the hydraulic rod 11 is connected with the hydraulic cylinder 10, the other end of the hydraulic rod 11 is connected with the second frame mechanism 5, and the hydraulic cylinder 10 is electrically connected with the control panel 8. In this embodiment, the hydraulic cylinder 10 is used to drive the hydraulic rod 11 to extend and retract, so that the hydraulic rod 11 drives the second frame mechanism 5 to move up or down.

Further, as a preferred embodiment, the energy-saving light-duty feeding forklift with the infrared ray alignment function further comprises a pushing handle 12, the pushing handle 12 is arranged at the upper end of the control box 3, and one end of the pushing handle 12 is rotatably connected with the upper end of the control box 3. In this embodiment, the pushing handle 12 is provided for controlling the forklift chassis 1, and the user can push the forklift chassis 1.

Further, as a preferred embodiment, the energy-saving light-duty feeding forklift with the infrared alignment function further comprises a mechanical arm 13, and the control panel 8 is fixed on one side of the first frame mechanism 4 through the mechanical arm 13. As oriented in fig. 1, the control panel 8 is disposed on the rear side of the first frame mechanism 4, and the control box 3 is disposed on the right side of the first frame mechanism 4. In this embodiment, the robot arm 13 includes a first strut 131, a second strut 132, a first bushing 133, a second bushing 134, and a panel mounting bracket 135, wherein one end of the first strut 131 is rotatably connected to the first frame mechanism 4 through the first bushing 133, one end of the second strut 132 is rotatably connected to the other end of the first strut 131, the other end of the second strut 132 is provided with the second bushing 134, the second bushing 134 is provided with the panel mounting bracket 135, and the control panel 8 is provided on the panel mounting bracket 135. In this embodiment, by arranging the mechanical arm 13, the user can adjust the position of the control panel 8 as required, which is convenient for the user to use.

Further, as a preferred embodiment, the control panel 8 includes a panel main body 801, a display screen 802, a processor (not shown in the figure) and a control button module, the display screen 802 is disposed in the middle of the panel main body 801, the processor is disposed inside the panel main body 801, the control button module is disposed on the panel main body 801, and the control button module is disposed on one side of the display screen 802, wherein the display screen 802, the control button module, the driving mechanism, the two infrared sensors 6, the alarm 7, the two distance measuring sensors 9 and the hydraulic cylinder 10 are electrically connected to the processor, respectively. In this embodiment, the processor is preferably a PLC processor; the control button module comprises a first button module 803 and a second button module 804, wherein the first button module 803 is used for controlling the driving mechanism, and the second button module 804 is used for controlling the hydraulic cylinder 10; the display screen 802 is used for displaying distance information between two sides of the elevator entrance on two sides of the forklift underframe 1.

Further, as a preferred embodiment, the fork mechanism 2 includes two forks 201 and a mounting plate 202, the mounting plate 202 is slidably connected to the second frame mechanism 5, the mounting plate 202 is connected to the lifting mechanism, the two forks 201 are disposed on the mounting plate 202, and the two forks 201 are disposed on the mounting plate 202 at a side away from the second frame mechanism 5.

Further, as a preferred implementation mode, the driving mechanism includes a driving motor, a driving gear, a driven gear, a transmission shaft and winding wheels, wherein the driving motor is electrically connected to the processor, the driving gear is disposed on a motor shaft of the driving motor, the driven gear is disposed in the middle of the transmission shaft, the driven gear is engaged with the driving gear, and the two winding wheels are disposed at two ends of the transmission shaft. In this embodiment, the first button module 803 is used for controlling the driving motor, the driving motor is a forward and reverse rotation motor, and the forward rotation or the reverse rotation of the driving motor can be controlled by the first button module 803, so that the driving motor drives the two winding wheels to rotate forward or reversely, the winding or unwinding of the connecting belt 15 is realized, and the position of the fork mechanism 2 is adjusted.

Further, as a preferred embodiment, the lifting mechanism includes two rollers 14 and two connecting belts 15, the two rollers 14 are disposed at the upper ends of the two sides of the second frame mechanism 5, and each connecting belt 15 is connected to one of the winding wheel, one of the rollers 14 and the mounting plate 202, respectively.

Further, as a preferred embodiment, the energy-saving light-duty feeding forklift with the infrared alignment function further comprises a front caster 16 and a rear caster (not shown in the figure), wherein the front caster 16 is respectively arranged on two sides of the other end of the forklift chassis 1, and the rear caster is arranged at the lower end of the control box 3. In this embodiment, the rear caster is used to control the traveling direction of the energy-saving light batch feeding forklift.

The above are merely preferred embodiments of the present invention, and the protection scope and the implementation manner of the present invention are not limited thereby.

On the basis of the above embodiment, the present invention also has the following preferred embodiments:

further, as a preferred embodiment, the first frame mechanism 4 is an "H" shaped frame structure.

Further, as a preferred embodiment, the second frame mechanism 5 is a "pi" type frame structure.

Further, as a preferred embodiment, the energy-saving light-duty feeding forklift with infrared alignment function further comprises two rail pairs (not shown), and the second frame mechanism 5 is slidably connected with the first frame mechanism 4 through the two rail pairs. In this embodiment, each guide rail pair includes a guide rail and a sliding block, wherein the two guide rails are disposed on the inner side walls of the two sides of the first frame mechanism 4, the two sliding blocks are disposed on the two guide rails, and the two sliding blocks are connected with the outer side walls of the two sides of the second frame mechanism 5.

Further, as a preferred embodiment, the energy-saving light-duty feeding forklift with the infrared alignment function further comprises a pedal 17, and the end of the control box 3 far away from the first frame mechanism 4 is provided with the pedal 17. In this embodiment, the pedal 17 is provided to facilitate the user to brake the energy-saving light-duty feeding forklift. The foot board 17 in this embodiment is rotatably connected to the control box 3.

The working principle of the invention is as follows:

when using, at first with the goods ligature back, hang the goods after the ligature on two forks 201 again, then the first button module 803 control driving motor of rethread, make driving motor pass through the driving gear and driven gear drive transmission shaft rotates, make the transmission shaft drive two reels and rotate, two reels are rolled up two connecting bands 15, make two connecting bands 15 drive fork mechanism 2 and drive the goods and upwards promote, and promote this goods to unsettled state, then rethread promotes handle 12 control fork truck chassis 1 and removes, put in the assigned position with the goods.

When the height of the cargo is too high and the lifting mechanism cannot lift the cargo to the suspended state, the hydraulic cylinder 10 can be controlled by the second button module 804 to drive the hydraulic rod 11, so that the hydraulic rod 11 controls the second frame mechanism 5 to ascend, and the driving motor is controlled by the first button module 803 to drive the cargo to ascend to the suspended state.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. An energy-saving light-duty feeding forklift with an infrared alignment function is characterized by comprising a forklift chassis, a fork mechanism, a control box, a first frame mechanism, a second frame mechanism, a driving mechanism, a lifting mechanism, an infrared sensor, an alarm and a control panel, wherein the first frame mechanism and the control box are arranged at one end of the forklift chassis, the control box is positioned at one side of the first frame mechanism, the second frame mechanism is arranged on the first frame mechanism in a sliding manner, the fork mechanism is arranged on the second frame mechanism in a sliding manner, the driving mechanism is arranged in the control box, the lifting mechanism is also arranged on the second frame mechanism, the lifting mechanism is connected with the fork mechanism and the driving mechanism, the infrared sensor is respectively arranged at two sides of the first frame mechanism, and the alarm is arranged on the control box, the control panel is arranged on one side of the first frame mechanism and is electrically connected with the driving mechanism, the infrared sensor and the alarm respectively.

2. The energy-saving light-duty feeding forklift with infrared ray alignment function as claimed in claim 1, further comprising a distance measuring sensor, wherein two sides of the other end of the forklift chassis are respectively provided with one distance measuring sensor, and each distance measuring sensor is electrically connected with the control panel respectively.

3. The energy-saving light-duty feeding forklift with infrared ray alignment function according to claim 2, further comprising a hydraulic cylinder and a hydraulic rod, wherein the hydraulic cylinder is disposed at one end of the forklift chassis and is located inside the first frame mechanism, one end of the hydraulic rod is connected with the hydraulic cylinder, the other end of the hydraulic rod is connected with the second frame mechanism, and the hydraulic cylinder is electrically connected with the control panel.

4. The energy saving light weight feeding forklift with infrared ray aiming function as claimed in claim 1, further comprising a push handle, wherein the push handle is provided at the upper end of the control box, and one end of the push handle is rotatably connected with the upper end of the control box.

5. The energy saving light weight batch forklift with infrared ray aiming function as claimed in claim 1, further comprising a robot arm, wherein said control panel is fixed on one side of said first frame mechanism by said robot arm.

6. The energy-saving light-duty feeding forklift with infrared ray alignment function according to claim 3, wherein the control panel comprises a panel main body, a display screen, a processor and a control button module, the display screen is disposed in the middle of the panel main body, the processor is disposed inside the panel main body, the control button module is disposed on the panel main body, and the control button module is located at one side of the display screen, wherein the display screen, the control button module, the driving mechanism, the two infrared ray sensors, the alarm, the two distance measuring sensors and the hydraulic cylinder are electrically connected to the processor, respectively.

7. The energy efficient light weight material throwing forklift with infrared ray aiming function as recited in claim 6, wherein said fork mechanism comprises two forks and a mounting plate, said mounting plate is slidably connected with said second frame mechanism, said mounting plate is connected with said elevating mechanism, two said forks are disposed on said mounting plate, and two said forks are disposed on a side of said mounting plate away from said second frame mechanism.

8. The energy saving light weight feeding forklift with infrared ray aiming function as claimed in claim 7, wherein the driving mechanism comprises a driving motor, a driving gear, a driven gear, a transmission shaft and winding wheels, wherein the driving motor is electrically connected with the processor, the driving gear is arranged on a motor shaft of the driving motor, the driven gear is arranged in the middle of the transmission shaft, the driven gear is engaged with the driving gear, and the two winding wheels are arranged at two ends of the transmission shaft.

9. The energy saving light weight feeding forklift with infrared ray aiming function as claimed in claim 8, wherein said lifting mechanism comprises two rollers and two connecting belts, two said rollers are disposed at the upper end of both sides of said second frame mechanism, each of said connecting belts is connected to one said reel, one said roller and said mounting plate respectively.

10. The energy saving light weight material throwing forklift with infrared ray aiming function as claimed in claim 1, further comprising a front caster and a rear caster, wherein one front caster is provided on each side of the other end of the forklift chassis, and one rear caster is provided on the lower end of the control box.

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