CN213384196U - Urban rail vehicle bottom dust removal device capable of collecting dust in real time - Google Patents

Abstract

The utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, its characterized in that: including walking in the vehicle bottom intelligence in the trench sweep the robot and walk in the car side intelligence on track bridge both sides ground sweep the dust absorption robot, adopt the differentiation structure, three cars walk in step, automatic pressure-vaccum, synchronous filtration automatically cleaning, form and sweep local operation space negative pressure, the car side intelligence of both sides sweeps integrated miniaturized dust removal filtration system in the dust absorption robot, filter through removing dust, the clean air after the filtration is discharged into the atmosphere, show and promote the dust collection effect, carry out collection dirt processing with filterable dust simultaneously, utilize the parking period to shift the collection dirt behind the primary operation, both realize used repeatedly, can avoid laying a large amount of external fixed pipelines and forming and sweeping the block in airtight space at the rule in the storehouse again, the occupation of sweeping equipment land used in the storehouse has been reduced, do not influence and interfere other maintenance operations, and improve the operational environment.

Description

Urban rail vehicle bottom dust removal device capable of collecting dust in real time

Technical Field

The utility model belongs to the technical field of urban rail transit vehicle overhauls, concretely relates to urban rail vehicle bottom dust collector of real-time dust absorption.

Background

With the rapid development of economy in China, the operation mileage and the number of vehicles in urban rail vehicles in cities are continuously increased, and the overhaul operation becomes an important working part. The overhaul content of urban rail vehicles is complex and the repeated operation is more, the traditional purging operation mainly adopts a method of taking manpower as main and auxiliary simple tools, based on the health consideration of maintainers, protective clothing and a respirator are needed to be worn before operation, but the problems of large dust in the warehouse, severe operation environment, certain pollution to the surrounding environment and the like exist in the operation,

although a manipulator is introduced into part of semi-automatic or automatic dust removing equipment, a large number of external fixed pipelines need to be arranged in a warehouse in a planned mode and/or a block for sweeping a closed space is formed, so that other overhauls in the warehouse are limited, the utilization rate of the space of the warehouse is low, and the operation efficiency is not high.

SUMMERY OF THE UTILITY MODEL

Aiming at least one of the defects or the improvement requirements in the prior art, the utility model provides a city rail vehicle bottom dust removal device capable of collecting dust in real time, a vehicle bottom intelligent sweeping robot and vehicle side intelligent sweeping and dust collection robots on two sides adopt differentiated structures, three vehicles synchronously walk, automatically blow and suck, synchronously filter and automatically clean, a negative pressure for sweeping a local operation space is formed, a miniaturized dust removal and filtration system is integrated in the vehicle side intelligent sweeping and dust collection robots on two sides, filtered clean air is discharged into the atmosphere through dust removal and filtration, the dust collection effect is obviously improved, meanwhile, the dust collection treatment is carried out on the filtered dust, the parking time interval is utilized to transfer and collect dust after one-time operation, the repeated use is realized, a large number of fixed pipelines can be prevented from being arranged in a warehouse in a planned way, a seal for sweeping a closed space is formed, and the occupation of the land for sweeping equipment in the warehouse is reduced, other overhauling operations are not affected and interfered, and the operating environment is improved.

In order to realize the above purpose, according to the utility model discloses an aspect provides a city rail vehicle bottom dust collector of real-time dust absorption, its characterized in that: comprises that

The intelligent sweeping robot under the train runs in a trench on the inner side of a track bridge of the urban rail vehicle;

the intelligent sweeping and dust collecting robot at the car side is respectively positioned at the two transverse sides of the intelligent sweeping robot at the car bottom, is oppositely arranged and walks on the ground outside a track bridge of the urban rail vehicle;

the length of the intelligent sweeping and dust collecting robot at the car side in the track direction is larger than that of the intelligent sweeping and dust collecting robot at the car bottom, and the intelligent sweeping and dust collecting robot at the car bottom is always positioned in the middle of the length range of the intelligent sweeping and dust collecting robot at the car side at two sides;

the vehicle bottom intelligent blowing robot and the vehicle side intelligent blowing and dust collecting robot are respectively provided with a dust hood arranged on the walking mechanism, and an automatic blowing system, an air source system, an electric control system and an air compressor which are arranged in the dust hood;

a dust-removing and filtering system is further arranged in a dust hood of the intelligent sweeping and dust-collecting robot on the vehicle side, a blowing opening and a dust-collecting opening are formed in one side, facing the wheels, of the dust hood, the blowing opening is communicated with an automatic blowing system, an air source system and an air compressor, and the dust-collecting opening is communicated with the dust-removing and filtering system and generates negative pressure by the air compressor;

the intelligent sweeping robot is characterized in that a multi-axis manipulator and a blowing nozzle at the front end of the multi-axis manipulator are arranged outside a dust hood of the intelligent sweeping robot at the bottom of the vehicle, and the blowing nozzle is communicated with an automatic blowing system, an air source system and an air compressor.

Preferably, vehicle bottom intelligence sweeps robot and still is equipped with high definition camera for the machine identification of vehicle bottom structure and equipment is caught.

Preferably, the intelligent sweeping and dust collecting vehicle further comprises a trolley line which is arranged along the track direction and used for carrying out contact type power supply when the vehicle bottom intelligent sweeping robot and the vehicle side intelligent sweeping and dust collecting robot walk.

Preferably, power supply batteries are installed in the vehicle bottom intelligent sweeping robot and the vehicle side intelligent sweeping and dust collecting robot and are used for walking, sweeping and supplying power;

still include wireless battery charging outfit, be used for the vehicle bottom intelligence sweep the robot with car side intelligence sweep dust absorption robot and do when parking power supply battery carries out wireless charging.

Preferably, changeable multiple blast nozzle is installed to the multi-axis manipulator front end, including bunched blast nozzle, flat blast nozzle and duckbilled blast nozzle for the pertinence of different vehicle bottoms position sweeps.

Preferably, a dust storage barrel is further arranged in a dust shield of the intelligent sweeping and dust collecting robot at the vehicle side, and the dust removing and filtering system is communicated with the dust storage barrel.

In order to achieve the above object, according to another aspect of the present invention, there is provided a dust removing method for a dust removing device of an urban rail vehicle bottom, which comprises the steps of:

the first step is as follows: after the train enters the warehouse and stops stably, part of cover plates needing to be disassembled in advance are disassembled manually and stored in a specified position, so that the influence on the operation of the next automatic operation equipment is avoided;

the second step is that: firstly, safety inspection is carried out, after no person stays in an operation range and no obstacle exists in an operation channel, the main power cabinet is switched on and powered on, and three sliding contact lines for power supply are electrified;

the third step: when the power of the sliding contact line is normal, an electric control system of the dust removal device receives a power receiving instruction, and completes the shunting power supply of each hardware, so that the hardware can be subjected to safety self-inspection; after the self-checking is finished, the indicator lamp can work normally and is turned on, so that the dust removal device can be started;

the fourth step: clicking a 'one-key starting' button on a wireless terminal, automatically controlling the starting and running of each hardware by a program, starting an intelligent planning operation flow by a dust removal device, and implementing by a vehicle bottom intelligent blowing robot and vehicle side intelligent blowing and dust collection robots on two sides;

the fifth step: the method comprises the following steps of performing key cleaning on a part with serious accumulated floating ash, simultaneously performing synchronous collection and filtration on blown-off dust by a dust removal and filtration system, and discharging the dust after reaching the standard; the operation process is monitored in real time through a visual monitoring system attached to the dust removal device, and meanwhile, the operation picture is projected to a display and is checked at any time;

and a sixth step: when the dust removing device finishes the automatic operation flow, the dust removing device stops at a specified storage point, the program automatically cuts off the power supply to each hardware, and sends out the prompt of finishing the operation to the main power cabinet to release the brake and cut off the power.

Preferably, in the fourth step, a purging scheme is formulated according to the structure and the equipment of the vehicle bottom, and a purging path is planned.

Preferably, in the fourth step or the fifth step, according to the different positions of the vehicle bottom, the purging speed is automatically adjusted, and the purging efficiency and quality are ensured.

Preferably, in the fourth step or the fifth step, the incomplete sweeping part is captured and swept by the high-definition camera, if the incomplete sweeping part exists, the manual remote control mode is switched from the planning sweeping path mode, the complementary blowing effect is enhanced through remote operation, and accurate clearing is achieved.

Preferably, in the fourth step or the fifth step, the vehicle bottom intelligent blowing robot and the vehicle side intelligent blowing and dust collecting robots on the two sides run synchronously, one-key control is started and stopped, the running speed can be adjusted at any time through the field use working condition, and other functions are not influenced during the running process;

the three purging and dedusting functions are performed synchronously in the operation process, the high-pressure airflow directly blows dust and dirt on the surface to be cleaned, the blown dust particles are sucked away and filtered instantly by the dedusting and filtering system due to negative pressure, secondary dust raising is avoided, and the purified air is discharged up to the standard.

The above-described preferred features may be combined with each other as long as they do not conflict with each other.

Generally, through the utility model discloses above technical scheme who conceives compares with prior art, has following beneficial effect:

1. the utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, vehicle side intelligence that vehicle bottom intelligence sweeps robot and both sides sweeps dust absorption robot and adopts the differentiation structure, three synchronous walks, automatic pressure-vaccum, the self-cleaning is filtered in step, form and sweep local operation space negative pressure, the vehicle side intelligence of both sides sweeps the dust absorption robot in integrated miniaturized dust removal filtration system, filter through removing dust, clean air after the filtration discharges the atmosphere, show and promote the dust collection effect, carry out collection dirt processing with filterable dust simultaneously, utilize the parking period to shift collection dirt behind the primary operation, both realize used repeatedly, can avoid rule to lay a large amount of external fixed pipelines and form the block that sweeps airtight space in the storehouse again, the occupation of sweeping equipment land in the storehouse has been reduced, do not influence and interfere other maintenance operations, and improve the operation environment.

2. The utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, vehicle side intelligence that vehicle bottom intelligence swept robot and both sides sweep dust absorption robot and the linkage of central control system, rely on the support of program algorithm and big data, and automatic optimization dust removal flow can be realized to the later stage, and to the great space of dust concentration, accessible machine identification catches, and remote operation strengthens dust absorption dust removal effect, realizes accurate clearance.

3. The utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, vehicle bottom intelligence sweep install nimble, flexible robotic arm on the robot, connect the air gun on high pressure positive blower and the robotic arm through flexible tuber pipe to installed through the modified dust removal nozzle, can realize sweeping the key position of vehicle bottom. The noise shielding, sound absorbing and noise reducing technologies are fused and applied to equipment such as air pipe nozzles, and the more humanized dust removal working environment is ensured.

4. The utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, car side intelligence sweep dust absorption robot can set up half just half gentle side seal again, and the rigidity part is the dust board, and the dust board front end is flexible brush, and dust collector high efficiency absorbs the dust in the side seal region, filters through removing dust, and the clean air after the filtration emits into the atmosphere, and the environmental protection is high-efficient, collects the dust earlier in storing up the dirt bucket simultaneously, waits to shift after the operation finishes.

5. The utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, three cars walk in step, start, stop a key formula control, and the operating speed accessible field use operating mode adjusts at any time, does not influence other function synchronization work among the operation process.

6. The utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, three cars are automatic to blow and inhale: in the operation process of the three-vehicle, the blowing and dust removing functions are synchronously performed, the high-pressure airflow directly blows dust and dirt on the surface to be cleaned, and blown dust particles are instantly sucked away and filtered by the dust removing and filtering system due to negative pressure, so that secondary dust raising is avoided.

7. The utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, the automatically cleaning is filtered in step: car side intelligence sweeps dust absorption robot and realizes the synchronous filtration automatically cleaning, and dust removal filtration system adopts the mode of multistage filtration, and the air is through first filter core, discharge up to standard behind the high-efficient filter screen of rethread.

Drawings

FIG. 1 is a schematic overall sectional view of a dust removing device for urban rail vehicle bottoms which can collect dust in real time according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a dust removing device for urban rail vehicle bottoms for real-time dust collection in an embodiment of the present invention;

FIG. 3 is an internal schematic view of a vehicle-side intelligent sweeping and dust-collecting robot of the urban rail vehicle bottom dust-collecting device for real-time dust collection in the embodiment of the invention;

figure 4 is the utility model discloses city rail vehicle bottom dust collector's of real-time dust absorption vehicle bottom intelligence sweeps robot schematic diagram.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in 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 invention and are not intended to limit the invention. Furthermore, the technical features mentioned in the embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other. The present invention will be described in further detail with reference to the following embodiments.

As a preferred embodiment of the present invention, as shown in fig. 1-4, the present invention provides a dust collector for urban rail car bottom, which collects dust in real time, comprising:

the intelligent sweeping robot 1 for the vehicle bottom walks in a trench on the inner side of a rail bridge of an urban rail vehicle;

the intelligent sweeping and dust collecting robot 2 at the vehicle side is respectively positioned at two transverse sides of the intelligent sweeping robot 1 at the vehicle bottom, is oppositely arranged, walks on the ground outside a rail bridge of an urban rail vehicle and synchronously walks with the intelligent sweeping robot 1 at the vehicle bottom; the length of the intelligent sweeping and dust collecting robot 2 at the vehicle side in the track direction is greater than that of the intelligent sweeping robot 1 at the vehicle bottom, and the intelligent sweeping robot 1 at the vehicle bottom is always positioned in the middle of the length range of the intelligent sweeping and dust collecting robot 2 at the vehicle side at two sides;

the vehicle bottom intelligent blowing robot 1 and the vehicle side intelligent blowing and dust collecting robot 2 are respectively provided with a dust hood 7 arranged on the walking mechanism, and an automatic blowing system 3, an air source system 4, an electric control system 5 and an air compressor which are arranged in the dust hood 7;

a dust removal and filtration system 6 and a dust storage barrel 10 are further arranged in a dust shield 7 of the vehicle-side intelligent blowing and dust collection robot 2, a blowing port 31 and a dust collection port 61 are simultaneously formed in one side, facing a wheel, of the dust shield 7, the blowing port 31 is communicated with an automatic blowing system 3, an air source system 4 and an air compressor, and the dust collection port 61 is communicated with the dust removal and filtration system 6 and the dust storage barrel 10 and generates negative pressure by the air compressor;

the intelligent sweeping robot for the train bottom is characterized in that a dust hood 7 of the intelligent sweeping robot for the train bottom 1 is further provided with a multi-axis manipulator 8 and a blowing nozzle 9 at the front end of the multi-axis manipulator, and the blowing nozzle 9 is communicated with an automatic blowing system 3, an air source system 4 and an air compressor.

Preferably, vehicle bottom intelligence sweeps robot 1 and still is equipped with high definition camera for the machine identification of vehicle bottom structure and equipment is caught.

Preferably, the intelligent sweeping and dust collecting device further comprises a trolley line which is arranged along the track direction and used for supplying power in a contact mode when the vehicle bottom intelligent sweeping robot 1 and the vehicle side intelligent sweeping and dust collecting robot 2 walk.

Preferably, power supply batteries are arranged in the vehicle bottom intelligent sweeping robot 1 and the vehicle side intelligent sweeping and dust collecting robot 2 and are used for walking, sweeping and supplying power;

still include wireless battery charging outfit, be used for the vehicle bottom intelligence sweep robot 1 with car side intelligence sweep dust absorption robot 2 do when parking power supply battery carries out wireless charging.

Preferably, switchable multiple blowing nozzles 9 are installed at the front end of the multi-axis manipulator 8, and comprise a cluster blowing nozzle, a flat blowing nozzle and a duckbill blowing nozzle, and are used for targeted blowing of different vehicle bottom parts.

In the scheme, the intelligent sweeping robot 1 at the bottom of the vehicle can only blow but not suck, and does not have dust collection and filtration equipment; as another embodiment, if the conditions allow, a dust removal filtering system and a dust storage barrel can be arranged in the dust hood 7 of the intelligent sweeping robot 1 at the bottom of the vehicle to share the dust removal tasks at two sides so as to enhance the dust removal effect at the bottom. Wherein, the top of the dust cover 7 is provided with a plurality of dust suction ports 61, and the dust suction mode is similar to that of the intelligent sweeping dust suction robot 2 at the vehicle side.

Preferably, the intelligent sweeping and dust collecting robot 2 on the vehicle side has three side openings, for example, two sides are dust collecting openings 61, and the middle is a blowing opening 31.

Preferably, the length of the vehicle-side intelligent sweeping and dust collecting robot 2 in the track direction is greater than that of the vehicle-bottom intelligent sweeping robot 1, and the vehicle-bottom intelligent sweeping robot 1 is located in the middle of the lengths of the vehicle-side intelligent sweeping and dust collecting robot 2 on two sides during walking, so that the negative suction effect is improved. Specifically, the size of vehicle bottom intelligence sweeping robot 1 is height 1000mm wide 800mm long 2000mm, the size of car side intelligence sweeping dust absorption robot 2 is height 1900mm wide 800mm long 3000mm, and local blowing and suction requirement can be satisfied to 3 m's length.

The utility model also provides a city rail vehicle bottom dust collector's of real-time dust absorption dust removal method, including following step:

the first step is as follows: after the train enters the warehouse and stops stably, part of cover plates needing to be disassembled in advance are disassembled manually and stored in a specified position, so that the influence on the operation of the next automatic operation equipment is avoided;

the second step is that: a professional operator firstly carries out safety inspection, after confirming that no person stays in an operation range and no obstacle exists in an operation channel, the main power cabinet is switched on and powered on, and at the moment, three sliding contact lines are electrified;

the third step: when the power of the sliding contact line is normal, an electric control system of the dust removal device receives a power receiving instruction, and completes the shunting power supply of each hardware, so that the hardware can be subjected to safety self-inspection; after the self-checking is finished, the indicator lamp can work normally and is turned on, so that the dust removal device can be started;

the fourth step: after the equipment finishes self-checking, the indicator light capable of working normally lights up, a professional operator clicks a 'one-key start' button on a wireless terminal, a program automatically controls the start and operation of each hardware, the dust removal device starts an intelligent planning operation process and is implemented by the intelligent sweeping robot 1 at the bottom of the vehicle and the intelligent sweeping dust collection robots 2 at the sides of the vehicle;

the fifth step: the parts with serious accumulated floating ash are mainly cleaned, and meanwhile, blown dust is synchronously collected and filtered by a high-power dust removal and filtration system 6 and is discharged after reaching the standard; through the attached visual monitoring system of dust collector, can carry out real time monitoring to the operation flow, throw the picture of operation on the screen to the display simultaneously, can inspect at any time.

And a sixth step: when the dust removal device finishes the automatic operation flow, the dust removal device stops at a specified storage point, the program automatically cuts off the power supply to each hardware, and sends out the prompt of finishing the operation, and a professional operator carries out brake release and power off to the main electric cabinet.

Preferably, in the fourth step, a purging scheme is formulated according to the structure and the equipment of the vehicle bottom, and a purging path is planned.

Preferably, in the fourth step or the fifth step, according to the different positions of the vehicle bottom, the purging speed is automatically adjusted, and the purging efficiency and quality are ensured.

Preferably, in the fourth step or the fifth step, the incomplete sweeping part is captured and swept by the high-definition camera, if the incomplete sweeping part exists, the manual remote control mode is switched from the planning sweeping path mode, the complementary blowing effect is enhanced through remote operation, and accurate clearing is achieved.

Preferably, in the fourth step or the fifth step, the vehicle bottom intelligent blowing robot 1 and the vehicle side intelligent blowing and dust collecting robots 2 on the two sides run synchronously, one-key control is started and stopped, the running speed can be adjusted at any time through the field use working condition, and other functions are not influenced during the running process;

the three are in the operation process, sweep, the dust removal function is gone on in step, and high-pressure draught directly blows the dust, the dirt of required clean surface, and the dust particle that blows up is absorbed away in the twinkling of an eye because of the negative pressure by dust removal filtration system 6 and is filtered, avoids the secondary raise dust, and the air after the purification is up to standard and discharges.

To sum up, compare with prior art, the utility model discloses a scheme has following apparent advantage:

1. the utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, vehicle side intelligence that vehicle bottom intelligence sweeps robot and both sides sweeps dust absorption robot and adopts the differentiation structure, three synchronous walks, automatic pressure-vaccum, the self-cleaning is filtered in step, form and sweep local operation space negative pressure, the vehicle side intelligence of both sides sweeps the dust absorption robot in integrated miniaturized dust removal filtration system, filter through removing dust, clean air after the filtration discharges the atmosphere, show and promote the dust collection effect, carry out collection dirt processing with filterable dust simultaneously, utilize the parking period to shift collection dirt behind the primary operation, both realize used repeatedly, can avoid rule to lay a large amount of external fixed pipelines and form the block that sweeps airtight space in the storehouse again, the occupation of sweeping equipment land in the storehouse has been reduced, do not influence and interfere other maintenance operations, and improve the operation environment.

2. The utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, vehicle side intelligence that vehicle bottom intelligence swept robot and both sides sweep dust absorption robot and the linkage of central control system, rely on the support of program algorithm and big data, and automatic optimization dust removal flow can be realized to the later stage, and to the great space of dust concentration, accessible machine identification catches, and remote operation strengthens dust absorption dust removal effect, realizes accurate clearance.

3. The utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, vehicle bottom intelligence sweep install nimble, flexible robotic arm on the robot, connect the air gun on high pressure positive blower and the robotic arm through flexible tuber pipe to installed through the modified dust removal nozzle, can realize sweeping the key position of vehicle bottom. The noise shielding, sound absorbing and noise reducing technologies are fused and applied to equipment such as air pipe nozzles, and the more humanized dust removal working environment is ensured.

4. The utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, car side intelligence sweep dust absorption robot can set up half just half gentle side seal again, and the rigidity part is the dust board, and the dust board front end is flexible brush, and dust collector high efficiency absorbs the dust in the side seal region, filters through removing dust, and the clean air after the filtration emits into the atmosphere, and the environmental protection is high-efficient, collects the dust earlier in storing up the dirt bucket simultaneously, waits to shift after the operation finishes.

5. The utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, three cars walk in step, start, stop a key formula control, and the operating speed accessible field use operating mode adjusts at any time, does not influence other function synchronization work among the operation process.

6. The utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, three cars are automatic to blow and inhale: in the operation process of the three-vehicle, the blowing and dust removing functions are synchronously performed, the high-pressure airflow directly blows dust and dirt on the surface to be cleaned, and blown dust particles are instantly sucked away and filtered by the dust removing and filtering system due to negative pressure, so that secondary dust raising is avoided.

7. The utility model discloses a city rail vehicle bottom dust collector of real-time dust absorption, the automatically cleaning is filtered in step: car side intelligence sweeps dust absorption robot and realizes the synchronous filtration automatically cleaning, and dust removal filtration system adopts the mode of multistage filtration, and the air is through first filter core, discharge up to standard behind the high-efficient filter screen of rethread.

It will be appreciated that the embodiments of the system described above are merely illustrative, in that elements illustrated as separate components may or may not be physically separate, may be located in one place, or may be distributed over different network elements. Some or all of the modules can be selected according to actual needs to achieve the purpose of the scheme of the embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

In addition, it should be understood by those skilled in the art that in the specification of the embodiments of the present invention, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

In the description of the embodiments of the present invention, a large number of specific details are explained. It is understood, however, that embodiments of the invention may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description. Similarly, it should be appreciated that in the foregoing description of exemplary embodiments of the invention, various features of the embodiments of the invention are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure and aiding in the understanding of one or more of the various inventive aspects.

However, the disclosed method should not be interpreted as reflecting an intention that: rather, the claimed embodiments of the invention require more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single foregoing disclosed embodiment. Thus, the claims following the detailed description are hereby expressly incorporated into this detailed description, with each claim standing on its own as a separate embodiment of an embodiment of this invention.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the embodiments of the present invention, and not to limit the same; although the embodiments of the present invention have been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (6)

1. The utility model provides a city rail vehicle bottom dust collector of real-time dust absorption which characterized in that: comprises that

The intelligent sweeping robot (1) for the vehicle bottom walks in a trench on the inner side of a track bridge of an urban rail vehicle;

the intelligent sweeping and dust collecting robot (2) at the vehicle side is respectively positioned at the two transverse sides of the intelligent sweeping robot (1) at the vehicle bottom, is oppositely arranged and walks on the ground outside a rail bridge of the urban rail vehicle;

the length of the intelligent sweeping and dust collecting robot (2) at the vehicle side in the track direction is larger than that of the intelligent sweeping robot (1) at the vehicle bottom, and the intelligent sweeping robot (1) at the vehicle bottom is always positioned in the middle of the length range of the intelligent sweeping and dust collecting robot (2) at the vehicle side at two sides;

the vehicle bottom intelligent blowing robot (1) and the vehicle side intelligent blowing and dust collecting robot (2) are respectively provided with a dust hood (7) arranged on the walking mechanism, and an automatic blowing system (3), an air source system (4), an electric control system (5) and an air compressor which are arranged in the dust hood (7);

a dust removal and filtration system (6) is further arranged in a dust hood (7) of the intelligent sweeping and dust collection robot (2) on the vehicle side, a blowing opening (31) and a dust collection opening (61) are simultaneously formed in one side, facing the wheels, of the dust hood (7), the blowing opening (31) is communicated with an automatic blowing system (3), an air source system (4) and an air compressor, and the dust collection opening (61) is communicated with the dust removal and filtration system (6) and generates negative pressure by the air compressor;

the intelligent sweeping robot is characterized in that a dust hood (7) of the intelligent sweeping robot (1) at the bottom of the vehicle is also provided with a multi-shaft manipulator (8) and a blowing nozzle (9) at the front end of the multi-shaft manipulator, and the blowing nozzle (9) is communicated with an automatic blowing system (3), an air source system (4) and an air compressor.

2. The urban rail vehicle bottom dust removal device capable of sucking dust in real time as claimed in claim 1, wherein:

the intelligent sweeping robot for the vehicle bottom (1) is further provided with a high-definition camera and used for recognizing and capturing the vehicle bottom structure and equipment.

3. The urban rail vehicle bottom dust removal device capable of sucking dust in real time as claimed in claim 1, wherein:

the intelligent sweeping and dust collecting vehicle is characterized by further comprising a sliding contact line, wherein the sliding contact line is arranged along the track direction and is used for contact power supply when the vehicle bottom intelligent sweeping robot (1) and the vehicle side intelligent sweeping and dust collecting robot (2) walk.

4. The urban rail vehicle bottom dust removal device capable of sucking dust in real time as claimed in claim 1, wherein:

power supply batteries are arranged in the vehicle bottom intelligent sweeping robot (1) and the vehicle side intelligent sweeping and dust collecting robot (2) and are used for walking, sweeping and supplying power;

still include wireless battery charging outfit, be used for the vehicle bottom intelligence sweep robot (1) with car side intelligence sweep dust absorption robot (2) do when parking power supply battery carries out wireless charging.

5. The urban rail vehicle bottom dust removal device capable of sucking dust in real time as claimed in claim 1, wherein:

changeable multiple blast nozzle (9) are installed to multiaxis manipulator (8) front end, including bunched blast nozzle, flat blast nozzle and duckbilled blast nozzle for the pertinence at different vehicle bottom positions sweeps.

6. The urban rail vehicle bottom dust removal device capable of sucking dust in real time as claimed in claim 1, wherein:

and a dust storage barrel (10) is further arranged in a dust shield (7) of the intelligent sweeping and dust collection robot (2) at the vehicle side, and the dust removal and filtration system (6) is communicated with the dust storage barrel (10).

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