CN216549493U - Aerial work platform truck - Google Patents

Abstract

The utility model discloses an aerial work platform truck which comprises a rotary table, a connecting arm, a workbench and an illumination system. The connecting arm is arranged on the rotary table and can stretch relative to the rotary table; the workbench is arranged on the connecting arm and is driven by the connecting arm to move; the lighting system comprises a first lamp set, a second lamp set and a third lamp set, the first lamp set is arranged on the periphery of the rotary table in a surrounding mode, the second lamp set is arranged on the two opposite sides of the connecting arm, and the third lamp set is arranged on the workbench. In this way, this application embodiment sets up the second banks on the linking arm through set up first banks on the revolving stage at high altitude construction platform car to set up the third banks on the workstation, when operation and vehicle travel, all can utilize lighting system to provide convenient good illumination for high altitude construction platform car, experience in order to promote user's use.

Description

Aerial work platform truck

Technical Field

The utility model relates to the technical field of aerial work, in particular to an aerial work platform truck.

Background

In recent years, as the market demand of aerial work platforms is continuously increased, the holding capacity of the aerial work platforms is increased, the requirements of customers on equipment are also continuously improved, and the equipment is expected to have more complete functions and more intelligent systems. The lighting technology is more and more advanced at present, especially in commercial place and passenger car field, and new technology obtains fine popularization, has promoted customer experience.

The existing aerial work platform is not generally provided with an illumination system, the illumination system is used as an option for part of products, and the selected illumination system is relatively crude and cannot provide good illumination for operators.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model aims to provide an aerial work platform truck to solve the technical problem of poor illumination of the aerial work platform truck.

In order to achieve the purpose, the utility model provides the following technical scheme: providing an aerial platform cart, the aerial platform cart comprising: a turntable; the connecting arm is arranged on the rotary table and can stretch and retract relative to the rotary table; the workbench is arranged on the connecting arm and is driven by the connecting arm to move; and the lighting system comprises a first lamp set, a second lamp set and a third lamp set, the first lamp set is arranged around the periphery of the rotary table, the second lamp set is arranged on the two opposite sides of the connecting arm, and the third lamp set is arranged on the workbench.

Optionally, the first lamp set includes a front lamp, a rear lamp and side lamps, the front lamp is disposed in front of the rotary table, the rear lamp is disposed behind the rotary table, the number of the side lamps is at least two, and the side lamps are disposed on two opposite sides of the rotary table respectively.

Optionally, the number of the front lamps is at least two, the at least two front lamps are arranged in front of the rotary table at uniform intervals, and the at least two rear lamps are arranged behind the rotary table at uniform intervals.

Optionally, the headlight with the taillight all includes day portable light module, far-reaching headlamp module, first photoinduction module, indicator module, brake light module and the tail lamp module of traveling, when aerial working platform car moved, the day portable light module was bright often, far-reaching headlamp module is used for switching different illumination zones, first photoinduction module is used for responding to the luminance of ambient light, the indicator module is used for instructing the rotation of revolving stage, the brake light module with the tail lamp module of traveling is used for instructing the motion state of revolving stage.

Optionally, the side light comprises an illuminating lamp module and a side steering light module, the illuminating lamp module is used for illuminating, and the side steering light module is used for indicating the rotation of the rotary table.

Optionally, the second light group is a plurality of light strips connected in parallel, and the light strips are arranged on the connecting arm along the length direction of the connecting arm.

Optionally, be equipped with the operation panel on the workstation, the third banks includes workstation light and operation panel light, the workstation light set up in the periphery of workstation, the operation panel light set up in on the operation panel.

Optionally, the quantity of workstation light is two, two the workstation light set up in the workstation is kept away from the relative both sides of the one end of linking arm, each the workstation light includes cloud platform, lamp stand, highlight light and lamp shade, the lamp stand connect in the cloud platform, and can rotate under the drive of cloud platform, the highlight light set up in on the lamp stand, the lamp shade connect in cloud platform and cover are established the lamp stand with the highlight light.

Optionally, aerial working platform car includes frame, steering angle detection module, revolving stage gyration detection module and controller, the revolving stage rotate set up in on the frame, steering angle detection module install in on the frame, be used for detecting the turned angle of frame, and with the turned angle of frame send to the controller, the controller is received turned angle and is used for control first banks collaborative work, revolving stage gyration detection module installs on the workstation, be used for detecting the turned angle of revolving stage, and will the turned angle of revolving stage send to the controller, the controller is received the turned angle of revolving stage is used for control lighting system collaborative work.

Optionally, the aerial work platform vehicle includes a second light sensing module, the second light sensing module is disposed above the turntable, and is configured to sense an ambient light intensity and transmit the ambient light intensity signal to the controller, and the controller receives the ambient light intensity signal and is configured to control the lighting system to cooperatively work.

Compared with the prior art, the embodiment of the utility model has the following beneficial effects: this application embodiment sets up the second banks on the linking arm through set up first banks on the revolving stage at high altitude construction platform car to set up the third banks on the workstation, when operation and vehicle travel, all can utilize lighting system to provide convenient good illumination for high altitude construction platform car, experience in order to promote user's use.

Drawings

FIG. 1 is a schematic perspective view of an aerial platform truck according to an embodiment of the present disclosure;

FIG. 2 is a schematic perspective view of the aerial platform truck of FIG. 1 from another perspective;

FIG. 3 is a schematic plan view of the headlamp of FIG. 1;

FIG. 4 is a perspective view of the headlamp of FIG. 3;

FIG. 5 is a schematic plan view of the side light of FIG. 1;

FIG. 6 is a perspective view of the side light of FIG. 5;

fig. 7 is an exploded view of the desk lamp of fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1 and 2, fig. 1 is a schematic perspective view of an aerial platform 100 according to an embodiment of the present disclosure, and fig. 2 is a schematic perspective view of the aerial platform 100 in fig. 1 from another perspective. The application discloses an aerial platform truck 100, and the aerial platform truck 100 comprises a rotary table 10, a connecting arm 20, a workbench 30 and an illumination system. The connecting arm 20 is arranged on the rotary table 10 and can extend and retract relative to the rotary table 10; the workbench 30 is arranged on the connecting arm 20 and is driven by the connecting arm 20 to move; the lighting system comprises a first lamp set 41, a second lamp set 42 and a third lamp set 43, wherein the first lamp set 41 is arranged around the periphery of the rotary table 10, the second lamp set 42 is arranged on two opposite sides of the connecting arm 20, and the third lamp set 43 is arranged on the workbench 30.

According to the embodiment of the application, the first lamp set 41 is arranged on the rotary table 10 of the aerial platform truck 100, the second lamp set 42 is arranged on the connecting arm 20, the third lamp set 43 is arranged on the workbench 30, and when the aerial platform truck 100 is operated and a vehicle runs, the illuminating system can be used for providing convenient and good illumination for the aerial platform truck 100, so that the use experience of a user is improved.

Alternatively, the linkage arm 20 may include at least two support arms that may be telescopically coupled lengthwise or may be pivotally coupled to one another such that the table 30 may be actuated to move and raise and lower to extend the operable range of the aerial work platform truck 100.

Further, as shown in fig. 1 and 2, the first lamp group 41 includes a front lamp 412, a rear lamp 414, and side lamps 416, the front lamp 412 is disposed in front of the turntable 10, the rear lamp 414 is disposed in rear of the turntable 10, the number of the side lamps 416 is at least two, and the at least two side lamps 416 are respectively disposed on two opposite sides of the turntable 10.

Specifically, the number of the headlights 412 may be one, and one headlight 412 is provided at the front center portion of the turntable 10 for illumination in front of the turntable 10. The number of the headlights 412 may also be at least two, at least two of the headlights 412 are uniformly arranged in front of the turntable 10 at intervals, and by arranging a larger number of the headlights 412, the intensity of illumination can be increased, and the illumination range in front of the turntable 10 is further increased.

In one embodiment, as shown in fig. 1, the number of the headlights 412 may be two, and the two headlights 412 are respectively disposed at opposite sides of the front of the turntable 10, and may be specifically a left headlight 412a and a right headlight 412b for illuminating the left front and the right front of the turntable 10.

Wherein, the number of the back lamps 414 may be one, and one back lamp 414 is disposed at the rear middle portion of the turntable 10 for illuminating at the rear of the turntable 10. The quantity of back light 414 still can be at least two, and two at least back lights 414 even intervals set up in the rear of revolving stage 10, through setting up more quantity of back lights 414, can promote the intensity of illumination, and then promote the illumination zone behind revolving stage 10.

In a specific embodiment, as shown in fig. 2, the number of the rear lamps 414 may be two, two rear lamps 414 are respectively disposed at opposite sides of the rear of the turntable 10, and specifically, may be a left rear lamp 414a and a right rear lamp 414b for illuminating the left rear and the right rear of the turntable 10.

Further, the front lamps 412 and the rear lamps 414 may be of the same lamp type so that any one of the lamps may be repaired or replaced when damaged.

Since the front lamp 412 and the rear lamp 414 have the same structure, the front lamp 412 will be described in detail as an example. As shown in fig. 3 and 4, fig. 3 is a schematic plan view of the headlight 412 in fig. 1, and fig. 4 is a schematic perspective view of the headlight 412 in fig. 3. The front light 412 includes a daytime running light module 411, a high beam and low beam light module 413, a first photo-sensing module 415, a turn light module 417, a stop light module 418, and a tail light module 419.

When the aerial work platform truck 100 is running, the daytime running light module 411 is normally on. That is, the daytime running light module 411 is always in an on state for warning or lighting during the process of advancing, retreating or braking of the aerial work platform vehicle 100.

The far and near light module 413 is used for switching different illumination ranges, namely, when needs are lighted near the region, can switch the far and near light module 413 and be in the myopia mode, when needs are lighted far away the region, can switch the far and near light module 413 and be in the hyperopia mode to obtain different illumination experiences.

The first light sensing module 415 is configured to sense the light intensity of the headlight 412 and transmit a light intensity signal to the controller, and the controller is configured to receive the light intensity signal and control the high beam module 413 to perform mode switching based on the light intensity signal.

The turn signal module 417 is used to indicate the rotation of the rotary table 10, and the stop signal module 418 and the tail light module 419 are used to indicate the movement state of the rotary table 10. Through setting up indicator light module 417, brake light module 418 and tail lamp module 419 that traveles, can instruct the operating condition of revolving stage 10 to personnel judge the operating condition of aerial work platform car 100 through each lamp module around being convenient for, and then avoid taking place the incident.

Further, as shown in fig. 5 and fig. 6, fig. 5 is a schematic plan view of the side lamp 416 in fig. 1, and fig. 6 is a schematic perspective view of the side lamp 416 in fig. 5. The side lamp 416 includes an illumination lamp module 420 and a side turn light module 421, the illumination lamp module 420 is used for illumination, and the side turn light module 421 is used for indicating the rotation of the rotary table 10.

Optionally, the second light group 42 is a plurality of light strips connected in parallel, and the light strips are disposed on the connecting arm 20 along the length direction of the connecting arm 20. Through adopting flexible lamp area preparation second banks 42, can follow linking arm 20 and stretch out and draw back to avoid damaging the lamp area. And the structure of lamp area is simple, conveniently installs and uses.

Further, as shown in fig. 1, a console 50 is provided on the table 30, and the third lamp group 43 includes a table illumination lamp 431 and a console illumination lamp 432. The workbench illuminating lamp 431 is arranged at the periphery of the workbench 30 and used for illuminating the whole workbench 30, so that not only can the working condition of the workbench 30 be clear to the workers, but also the surrounding workers can be reminded, and the aerial work platform truck 100 is running. The console illumination lamp 432 is disposed on the console 50 for illuminating the console 50 so that the worker can control the aerial platform truck 100 to move through the console 50.

In a specific embodiment, as shown in fig. 1, the number of the table illumination lamps 431 is two, and two table illumination lamps 431 are disposed at opposite sides of one end of the table 30 away from the connecting arm 20 for illuminating the front left and right of the table 30.

Further, as shown in fig. 7, fig. 7 is an exploded schematic view of the table illumination lamp 431 in fig. 1. The workbench illumination lamp 431 comprises a holder 433, a lamp holder 434, a highlight illumination lamp 435 and a lampshade 436. The lamp holder 434 is connected to the holder 433 and can rotate under the drive of the holder 433, the strong light illuminating lamp 435 is arranged on the lamp holder 434, the lampshade 436 is connected to the holder 433 and covers the lamp holder 434 and the strong light illuminating lamp 435, so that the lamp holder 434 and the strong light illuminating lamp 435 are protected, and the workbench illuminating lamp 431 in the external environment is prevented from being damaged by rainwater or dust.

For example, the cradle 433 may drive the lamp socket 434 to rotate by a small angle, or the cradle 433 may drive the lamp socket 434 to rotate by 360 °, so as to improve the work lighting effect.

Further, as shown in fig. 1, the aerial work platform 100 includes a frame 60, a steering angle detection module 70, a turntable rotation detection module 80 and a controller, the turntable 10 is rotatably disposed on the frame 60, the steering angle detection module 70 is mounted on the frame 60 for detecting a rotation angle of the frame 60 and sending the rotation angle of the frame 60 to the controller, the controller receives the rotation angle and is used for controlling the first lamp set 41 to cooperatively work, the turntable rotation detection module 80 is mounted on the worktable 30 for detecting a rotation angle of the turntable 10 and sending the rotation angle of the turntable 10 to the controller, and the controller receives the rotation angle of the turntable 10 and is used for controlling the lighting system to cooperatively work.

Further, as shown in fig. 2, the aerial working platform 100 includes a second light sensing module 90, and the second light sensing module 90 is disposed above the turntable 10, and is configured to sense an ambient light intensity and transmit an ambient light intensity signal to the controller, and the controller receives the ambient light intensity signal and controls the lighting system to work cooperatively.

The operation of aerial platform 100 in the embodiments of the present application will now be described in detail with reference to figures 1-7:

the whole aerial work platform truck 100 is controlled by a controller, the controller receives an operation instruction of the operation console 50, the controller collects an ambient light intensity signal of the second light sensing module 90, a rotation angle signal of the frame 60 of the steering angle detection module 70, a rotation angle signal of the turntable rotation detection module 80 and light intensity signals of the light groups of the first light sensing module 415, and through logical operation, the operation of the left front lamp 412a, the right front lamp 412b, the left rear lamp 414a, the right rear lamp 414b, the left side lamp 416, the right side lamp 416, the workbench illuminating lamp 431, the operation console illuminating lamp 432 and the lamp strip is controlled to correspondingly drive the light groups and control the brightness of the light groups.

Specifically, when the second light sensing module 90 detects that the ambient light intensity signal is greater than or equal to the set value, when the aerial platform truck 100 works, each light group is not automatically activated, and the workbench illumination lamp 431 can be manually activated. When the aerial work platform truck 100 runs forward, the daytime running lamp modules 411 of the left front lamp 412a and the right front lamp 412b are turned on, and the running tail lamp modules 419 of the left rear lamp 414a and the right rear lamp 414b are turned on; during backward traveling or braking, the daytime running light modules 411 of the left headlight 412a and the right headlight 412b are turned on, and the stop light modules 418 and the tail light modules 419 of the left rear light 414a and the right rear light 414b are turned on.

When the second light sensing module 90 detects that the ambient light intensity signal is smaller than the set value, when the aerial work platform truck 100 works, the operation table illuminating lamp 432 is normally on, the turn lamp modules 417 of the left front lamp 412a, the right front lamp 412b, the left rear lamp 414a and the right rear lamp 414b flicker, the side turn lamp modules 421 of the left side lamp 416 and the right side lamp 416 flicker, the lamp strip flickers, the operation table illuminating lamp 431 can be manually started, the rotation of the rotary table 10 is controlled, the direction of the operation table illuminating lamp 431 can be adjusted, and the corresponding work area of illumination is focused. When the aerial work platform truck 100 travels forward, the console lamp 432 is normally on, the lamp strip is normally on, the lamp modules 420 of the left lamp 416 and the right lamp 416 are turned on, the high-low beam modules 413 of the left front lamp 412a and the right front lamp 412b are turned on, the high-low beam switching is realized by detecting respective light intensity signals according to the first light sensing module 415, the number of turned-on bulbs of the high-low beam modules 413 is increased, and the traveling tail lamp modules 419 of the left rear lamp 414a and the right rear lamp 414b are turned on. When the aerial work platform truck 100 moves backward or brakes, the console lamp 432 is normally on, the lamp strip is normally on, the lamp modules 420 of the left lamp 416 and the right lamp 416 are turned on, the high-beam and low-beam lamp modules 413 of the left front lamp 412a and the right front lamp 412b are turned on, respective light intensity signals are detected according to the first light sensing module 415, high-beam and low-beam switching is achieved, the number of turned-on bulbs of the high-beam and low-beam lamp modules 413 is increased, and the tail lamp module 419 and the brake lamp module 418 of the left rear lamp 414a and the right rear lamp 414b are turned on.

When the steering angle detection module 70 detects that the steering angle of the turntable 10 exceeds the preset value, it is determined that the frame 60 is steered, and when the frame 60 is turned left, the turn lamp modules 417 of the left front lamp 412a and the left rear lamp 414a are turned on in a flowing water manner; when the vehicle body frame 60 turns right, the winker lamp modules 417 of the right headlight 412b and the right headlight 414b are lit in a flowing manner.

When the turntable rotation detection module 80 detects that the rotation of the turntable 10 exceeds the preset value and the accumulated time exceeds the preset value, it is determined that the frame 60 is in the opposite direction, and at this time, the left front lamp 412a and the left rear lamp 414a are interchanged, and the right front lamp 412b and the right rear lamp 414b are interchanged and correspondingly turned on in the opposite direction.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An aerial platform cart, comprising:

a turntable;

the connecting arm is arranged on the rotary table and can stretch and retract relative to the rotary table;

the workbench is arranged on the connecting arm and is driven by the connecting arm to move; and

the lighting system comprises a first lamp set, a second lamp set and a third lamp set, wherein the first lamp set is arranged around the periphery of the rotary table, the second lamp set is arranged on the two opposite sides of the connecting arm, and the third lamp set is arranged on the workbench.

2. The aerial work platform vehicle of claim 1, wherein the first light bank comprises a front light, a rear light and side lights, the front light is disposed in front of the turntable, the rear light is disposed behind the turntable, the number of the side lights is at least two, and the at least two side lights are disposed on opposite sides of the turntable respectively.

3. The aerial work platform trolley of claim 2, wherein the number of the headlights is at least two, the at least two headlights are evenly spaced in front of the turntable, and the at least two rear lights are evenly spaced behind the turntable.

4. The aerial work platform vehicle of claim 2, wherein the front light and the rear light each comprise a daytime running light module, a high-beam and low-beam light module, a first photo-sensing module, a turn light module, a brake light module and a tail light module, when the aerial work platform vehicle operates, the daytime running light module is normally on, the high-beam and low-beam light module is used for switching different illumination ranges, the first photo-sensing module is used for sensing the brightness of ambient light, the turn light module is used for indicating the rotation of the turntable, and the brake light module and the tail light module are used for indicating the motion state of the turntable.

5. The aerial work platform vehicle of claim 2, wherein the side lights comprise an illumination light module and a side turn light module, the illumination light module being configured to illuminate, the side turn light module being configured to indicate rotation of the turntable.

6. The aerial work platform vehicle of claim 1, wherein the second light bank is a plurality of light strips connected in parallel, the light strips being disposed on the connecting arm along a length of the connecting arm.

7. The aerial work platform truck of claim 1, characterized in that, be equipped with the operation panel on the workstation, the third banks of lamps includes workstation light and operation panel light, the workstation light set up in the periphery of workstation, the operation panel light set up in on the operation panel.

8. The aerial work platform vehicle of claim 7, characterized in that, the quantity of workstation light is two, two the workstation light set up in the workstation back of the body from the relative both sides of the one end of linking arm, each the workstation light includes cloud platform, lamp stand, highlight light and lamp shade, the lamp stand connect in the cloud platform, and can rotate under the drive of cloud platform, the highlight light set up in on the lamp stand, the lamp shade connect in the cloud platform and cover establish the lamp stand with the highlight light.

9. The aerial work platform vehicle of claim 1, comprising a vehicle frame, a steering angle detection module, a turntable rotation detection module and a controller, wherein the turntable is rotatably disposed on the vehicle frame, the steering angle detection module is mounted on the vehicle frame and is used for detecting a rotation angle of the vehicle frame and sending the rotation angle of the vehicle frame to the controller, the controller receives the rotation angle and is used for controlling the first lamp bank to cooperatively work, the turntable rotation detection module is mounted on the workbench and is used for detecting a rotation angle of the turntable and sending the rotation angle of the turntable to the controller, and the controller receives the rotation angle of the turntable and is used for controlling the illumination system to cooperatively work.

10. The aerial platform as claimed in claim 9, wherein the aerial platform includes a second light sensing module disposed above the turntable for sensing an ambient light intensity and transmitting the ambient light intensity signal to the controller, the controller receiving the ambient light intensity signal and for controlling the lighting system to operate in conjunction.

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