CN220953165U - Multifunctional cleaning special vehicle - Google Patents

Abstract

The utility model relates to a multifunctional cleaning special vehicle, which comprises a vehicle; a vacuum pump mounted on the vehicle; the feed box assembly is loaded on the vehicle and is connected with the output end of the vacuum pump through a pipeline; the ground cleaning assembly is loaded on the vehicle and positioned at the front part of the running direction of the vehicle, and is connected with the input end of the vacuum pump through a pipeline; the telescopic boom assembly is loaded on a vehicle, an insulating hanging basket assembly and a cleaning negative pressure suction pipe assembly are installed at the extending tail end of the telescopic boom assembly, and the output end of the cleaning negative pressure suction pipe assembly is connected with the input end of the vacuum pump through a pipeline. The multifunctional cleaning vehicle can provide multi-angle and multi-azimuth cleaning for factory sites, high places and the like, has no dust secondary pollution in the cleaning process, and can store the cleaning recovered materials in a classified manner.

Description

Multifunctional cleaning special vehicle

Technical Field

The utility model relates to the field of cleaning vehicles, in particular to a multifunctional cleaning special vehicle.

Background

The existing cleaning of the floor of the electrolytic aluminum workshop is realized by a mode of manual broom cleaning or compressed air purging, the two modes are low in cleaning efficiency, large-particle wastes such as dust and the like are not cleaned, and the most serious is dust generated in the cleaning process, so that secondary pollution is caused to equipment and the environment, and serious harm is caused to the health of workshop staff; in addition, the use of a large amount of compressed air not only increases the production and operation costs, but also causes serious waste of resources.

Disclosure of utility model

In order to solve the problems, the multifunctional cleaning special vehicle provided by the utility model can provide multi-angle and multi-azimuth cleaning for factory sites, high places and the like, has no dust secondary pollution in the cleaning process, and can store cleaning recovered materials in a classified manner.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

A multifunctional cleaning special vehicle comprises

A vehicle;

A vacuum pump mounted on the vehicle;

The feed box assembly is loaded on the vehicle and is connected with the output end of the vacuum pump through a pipeline;

The ground cleaning assembly is loaded on the vehicle and positioned at the front part of the running direction of the vehicle, and is connected with the input end of the vacuum pump through a pipeline;

The telescopic boom assembly is loaded on a vehicle, an insulating hanging basket assembly and a cleaning negative pressure suction pipe assembly are installed at the extending tail end of the telescopic boom assembly, and the output end of the cleaning negative pressure suction pipe assembly is connected with the input end of the vacuum pump through a pipeline.

Preferably, the floor cleaning assembly comprises

The ground main cleaning system is arranged below the front part of the vehicle and is used for sucking ground materials through negative pressure, and the ground main cleaning system is connected with the input end of the vacuum pump through a pipeline;

The auxiliary floor cleaning system comprises a driving part and a suction part with a bracket, wherein the suction part is arranged below the front part of the vehicle through the bracket and a rotating shaft, the driving part can control the suction part to rotate and move the side surface of the vehicle, and the suction part is connected with the input end of the vacuum pump through a pipeline.

Preferably, the vehicle is further provided with a hose, which is connected with the input end of the vacuum pump through a pipeline, and which can be extended out of the vehicle after being unfolded.

Preferably, the vehicle is further provided with a rotating arm assembly, the rotating arm assembly is provided with a rotating part capable of controlling horizontal rotation, and the telescopic arm assembly is arranged on the rotating part of the rotating arm assembly.

Preferably, the rotating part of the rotating arm assembly is further provided with an amplitude arm assembly, the amplitude arm assembly is provided with an extending end, and the extending end of the amplitude arm assembly is hinged with the telescopic arm assembly so as to control the inclination angle of the telescopic arm assembly.

Preferably, a metal filter is further connected to the input end of the vacuum pump, and the metal filter is used for metal filtering of the physical input to the vacuum pump.

Preferably, the bin assembly further comprises a dust filtration bin, a recyclable material bin and a waste material bin.

Preferably, the bin assembly has a gravity drain and a maintenance port located at the top of the bin assembly.

The beneficial effects of using the utility model are as follows:

The multifunctional cleaning special vehicle provided by the utility model can collect solid bulk materials or deposited dust on field equipment of a factory and on the ground by combining a vacuum pump with a ground cleaning component and a telescopic arm assembly, and discharge recyclable materials to a recycled material warehouse, and useless materials are discharged to a designated place, wherein the collecting range comprises dead angles, equipment surfaces, high-level platforms and the like which cannot be collected by the ground and conventional vehicles, the functions of dust collection, storage, feeding and discharging are integrated, and the cleaning process adopts the negative pressure suction, so that no dust secondary pollution is caused, and the clean recycled materials can be stored in a classified manner.

Drawings

Fig. 1 is a side view of a utility cleaning vehicle.

Fig. 2 is a top view of the utility vehicle.

Fig. 3 is a schematic axial side view of the utility vehicle.

Fig. 4 is a schematic view of the telescopic arm assembly of the multifunctional cleaning special vehicle in an extended state.

Fig. 5 is a field use state diagram of the multifunctional cleaning special vehicle.

The reference numerals include:

1-a vacuum pump; 2-metal filter; 3. 4, 5-maintaining the mouth; 6-a tube winder; 7-a tail material suction port; 8-a gravity discharge port; 9-a rotating arm assembly; 10-an amplitude arm assembly; 11-a feed box assembly; 12-a dust filtering bin; 13-a recyclable material bin; 14-a garbage bin; 15-an insulating hanging basket assembly; 16-telescopic arm assembly; 17-a floor main cleaning system; 18-custom cabs; 19-a floor sub-cleaning system; 20-special chassis.

Detailed Description

In order to make the objects, technical solutions and advantages of the present technical solution more apparent, the present technical solution is further described in detail below in conjunction with the specific embodiments. It should be understood that the description is only illustrative and is not intended to limit the scope of the present technical solution.

In order to solve the dust generated in the cleaning process of the factory site and secondary pollution to equipment and environment, the utility model provides a multifunctional cleaning special vehicle, as shown in fig. 1-5, the multifunctional cleaning special vehicle is a vehicle, the front part on a special chassis 20 of the vehicle is a customized cab 18, and the customized cab 18 can provide part buttons for controlling the running of the vehicle and the working state of the cleaning equipment and the action of a telescopic arm assembly 16.

The vacuum pump 1 is arranged in the middle of the special chassis 20 of the vehicle, the feeding end of the vacuum pump 1 is connected with the metal filter 2 through a flange, and all materials and air entering the vacuum pump 1 are filtered by the metal filter 2 so as to remove the materials and the metal materials in the air. A bin assembly 11 is mounted on the rear of the vehicle's special chassis 20, the bin assembly 11 being the primary component of reclaimed material storage.

The ground main cleaning system 17 is arranged below the front part of the vehicle, the ground main cleaning system 17 is a rectangular plate device with a negative pressure absorption pipeline, the ground main cleaning system 17 is connected to the input end of the metal filter 2 through the negative pressure pipeline, when the vehicle runs, the ground main cleaning system 17 is kept at a lower position, rollers are arranged below the ground main cleaning system 17, and the ground main cleaning system 17 can be held on the ground through the rollers, so that when the vehicle runs, the ground main cleaning system 17 can continuously absorb materials on the ground at the front part of the vehicle under negative pressure, and the materials pass through the negative pressure pipeline and the metal filter 2 and are driven by the vacuum pump 1 to finally enter the bin assembly 11.

A sub floor cleaning system 19 is also installed in the front of the vehicle, the sub floor cleaning system 19 comprising a driving part and a suction part with a bracket, the suction part being installed below the front of the vehicle through the bracket and a rotating shaft, the driving part being capable of controlling the suction part to rotate and move the side of the vehicle, the suction part being connected to the input end of the vacuum pump 1 through a pipeline. When the side surface of the vehicle or a part of the ground which is difficult to clean on the front surface of the vehicle needs to be cleaned, the driving part can drive the suction part to be unfolded to the side surface of the vehicle, and the suction part is connected with the suction part through a negative pressure pipeline to clean the coverage range of the suction part. Similar to the above-described floor main cleaning system 17, the sucked material and air pass through the negative pressure line, the metal filter 2, the vacuum pump 1, and finally enter the bin assembly 11.

The tail part of the vehicle is also provided with a pipe winder 6 and a tail part suction port 7, the tail part suction port 7 is connected with a hose, the hose can be wound on the pipe winder 6 in a general state, when the hose is needed to be used, the hose can be taken down from the pipe winder 6, then the tail end of the hose is held to a position needing to be cleaned so as to clean dead angles which are difficult to reach by other equipment, and similar to the ground main cleaning system 17, the sucked materials and air enter the feed box assembly 11 finally through a negative pressure pipeline, the metal filter 2 and the vacuum pump 1.

At the rear position on the special chassis 20 of the vehicle is a bin assembly 11, and the bin assembly 11 may be divided into a dust filter bin 12, a recyclable material bin 13 and a waste material bin 14. The dust filtering bin 12, the recyclable material bin 13 and the useless material bin 14 can be used for classifying and recycling materials according to the size and the weight of the recycled materials through the structure and the arrangement of filtering equipment, so that the follow-up material box assembly 11 can be conveniently emptied and the materials in the bin assembly can be conveniently recycled. The tail part of the feed box assembly 11 is provided with a gravity discharge port 8, and part of materials can be discharged outwards from the gravity discharge port 8. In this embodiment, the bin assembly 11 is only described, but the bin assembly 11 is not limited, and in other technical schemes, the internal structure of the bin assembly 11 can be set according to the condition of the factory site, and the corresponding materials can be classified, recovered and stored.

The tail part of the vehicle is also provided with a telescopic arm system, specifically, the position of the bin assembly 11 corresponding to the tail end of the vehicle is provided with a recess for avoiding, and the telescopic arm system passes through the recess of the bin assembly 11 and is directly connected with the ground disc of the vehicle. Specifically, the telescopic arm system includes a rotary arm assembly 9, the rotary arm assembly 9 includes a base and a rotating portion, the rotary arm assembly 9 is mounted on a special chassis 20 of the vehicle through the base, the rotating portion of the rotary arm assembly 9 is controllably and rotatably mounted on the base of the rotary arm assembly 9, and the telescopic arm assembly 16 is mounted on the rotating portion of the rotary arm assembly 9, so that the rotating portion of the rotary arm assembly 9 can carry the telescopic arm assembly 16 to integrally rotate. The root of the telescopic arm assembly 16 is hinged to the rotating part of the rotating arm assembly 9, and the telescopic arm assembly 16 has a controllable telescopic function. The telescopic tail end of the telescopic arm assembly 16 is provided with an insulating hanging basket assembly 15 and a cleaning negative pressure suction pipe assembly, and the output end of the cleaning negative pressure suction pipe assembly is connected with the input end of the vacuum pump 1 through a pipeline. The vacuum suction pipe assembly can be manually stood in the insulating hanging basket assembly 15 to clean the surface at the high altitude or the equipment. The rotating part of the rotating arm assembly 9 is also provided with an amplitude variation arm assembly 10, the amplitude variation arm assembly 10 is provided with an extending end, and the extending end of the amplitude variation arm assembly 10 is hinged with the telescopic arm assembly 16 so as to control the dip angle of the telescopic arm assembly 16.

As shown in fig. 4 and 5, the telescopic arm system can drive the insulating hanging basket assembly 15 to rotate for a certain angle through the rotating arm assembly 9, the height of the insulating hanging basket assembly 15 can be controlled through the amplitude arm assembly 10, and the position of the insulating hanging basket assembly 15 can be controlled through the telescopic arm assembly 16, so that the device is suitable for manual cleaning work with multiple angles, multiple heights and multiple directions.

The upper part of the feed box assembly 11 is provided with maintenance ports 3, 4 and 5 corresponding to the dust filtering bin 12, the recyclable material bin 13, the useless material bin 14 and the like, so that the inside of the feed box assembly 11 is convenient to clean and maintain.

The foregoing is merely exemplary of the present utility model, and those skilled in the art can make many variations in the specific embodiments and application scope according to the spirit of the present utility model, as long as the variations do not depart from the spirit of the utility model.

Claims (7)

1. Multifunctional cleaning special vehicle, its characterized in that: comprising the following steps:

A vehicle;

A vacuum pump mounted on the vehicle;

The feed box assembly is loaded on the vehicle and is connected with the output end of the vacuum pump through a pipeline;

The ground cleaning assembly is loaded on the vehicle and positioned at the front part of the running direction of the vehicle, and is connected with the input end of the vacuum pump through a pipeline;

The telescopic arm assembly is loaded on the vehicle, an insulating hanging basket assembly and a cleaning negative pressure suction pipe assembly are arranged at the extending tail end of the telescopic arm assembly, and the output end of the cleaning negative pressure suction pipe assembly is connected with the input end of the vacuum pump through a pipeline;

The floor cleaning assembly includes:

The ground main cleaning system is arranged below the front part of the vehicle and is used for sucking ground materials through negative pressure, and the ground main cleaning system is connected with the input end of the vacuum pump through a pipeline;

The auxiliary floor cleaning system comprises a driving part and a suction part with a bracket, wherein the suction part is arranged below the front part of the vehicle through the bracket and a rotating shaft, the driving part can control the suction part to rotate and move the side surface of the vehicle, and the suction part is connected with the input end of the vacuum pump through a pipeline.

2. The multi-functional cleaning specialty vehicle of claim 1, wherein: the vehicle is also provided with a hose which is connected with the input end of the vacuum pump through a pipeline, and the hose can be stretched out of the vehicle after being stretched out.

3. The multi-functional cleaning specialty vehicle of claim 1, wherein: the vehicle is also provided with a rotating arm assembly, the rotating arm assembly is provided with a rotating part capable of controlling horizontal rotation, and the telescopic arm assembly is arranged on the rotating part of the rotating arm assembly.

4. A multi-functional cleaning specialty vehicle as set forth in claim 3, wherein: the rotating part of the rotating arm assembly is also provided with an amplitude variation arm assembly, the amplitude variation arm assembly is provided with an extending end, and the extending end of the amplitude variation arm assembly is hinged with the telescopic arm assembly so as to control the inclination angle of the telescopic arm assembly.

5. The multi-functional cleaning specialty vehicle of claim 1, wherein: the input end of the vacuum pump is also connected with a metal filter which is used for metal filtering of the physics input to the vacuum pump.

6. The multi-functional cleaning specialty vehicle of claim 1, wherein: the feed box assembly further comprises a dust filtering bin, a recyclable material bin and a useless material bin.

7. The multi-functional cleaning specialty vehicle of claim 1, wherein: the feed box assembly is provided with a gravity discharge port and a maintenance port positioned at the top of the feed box assembly.