KR102527532B1 - Road dust suction cleaning vehicle - Google Patents

Abstract

The present invention relates to a road dust suction garbage truck, which can increase space utilization of a fine dust treatment unit, comprising: a loading unit seated and supported on a vehicle body; a suction module having first and second suction units; a brush assembly provided at a lower part of the vehicle body; a blowing force generation unit; a main duct; a fine dust processing unit; a first discharge duct; a second discharge duct; a recirculation duct; and an opening/closing control module.

Description

Road dust suction cleaning vehicle {ROAD DUST SUCTION CLEANING VEHICLE}

The present invention relates to a road dust suction cleaning vehicle, and more particularly, is made to use purified air filtered from a filter module for pulsing of the filter module, and effectively guides foreign substances present in the lower portion of the road dust suction cleaning vehicle to a loading part It relates to a road dust suction cleaning vehicle made to do.

Each local government or road management agency maintains/manages the road surface in a clean state by removing foreign substances and fine dust accumulated on the road surface on a regular basis for roads that have already been built and used.

In particular, waste disposal is considered very important in relation to urban aesthetics. Among them, cleaning of roads and roadsides is an important task due to the characteristics of a city where a high population is densely populated.

Road sweepers are mainly used for these road cleaning tasks, which can clean the road surfaces without difficulty with a small number of manpower.

1 is a schematic diagram showing a conventional road sweeper.

Referring to FIG. 1 , a road sweeper 10 includes a loading part 1, a side suction part 2, a side brush assembly 3, and a blowing force generating part 4.

Here, the blowing force generating unit 4 may be a blower, and the blowing force generating unit 4 is configured to provide suction power for suctioning foreign substances on the road surface to the side suction unit 2 .

In addition, the side brush assembly 3 is provided in front of the side suction part 2 to sweep foreign substances on the road surface toward the side suction part 2, so that the road surface can be cleaned efficiently. The side suction part 2 sucks foreign substances from the road surface and then guides the sucked foreign substances to the loading part 1 . Therefore, foreign substances sucked in from the side suction part 2 may accumulate in the loading part 1 .

In addition, a filtering unit 5 configured to filter dust of a certain size or more is provided at an upper portion of the loading unit 1 . The air from which dust has been removed through the filtering unit 5 may be discharged to the outside through a discharge duct (not shown).

However, the conventional road sweeper 10 has only a filtering unit 5 and does not have a filter unit configured to remove fine dust, so that the fine dust introduced into the loading unit 1 is removed from the road sweeper 10. ), there is a problem of being discharged back to the outside.

In addition, the conventional road sweeper 10 does not have a central brush configured to guide foreign substances present in the lower portion of the road sweeper 10 to the side suction part 2, and thus foreign substances present in the lower portion of the road sweeper 10 has a problem that cannot be cleaned. Accordingly, a central brush may be additionally coupled to the bottom of the road sweeper 10 and used.

This conventional central brush is made to rotate left and right with respect to the imaginary center line of the road sweeper 10. That is, the central brush is configured to guide the foreign matter present in the lower portion of the road sweeper 10 to the side suction part 2 in a state of being rotated obliquely at a predetermined angle with respect to the moving direction of the road sweeper 10 .

However, the conventional central brush has a problem in that the device structure of the central brush becomes complicated because the central brush must be rotated left and right when guiding foreign substances present in the lower part of the road sweeper 10 to the side suction part 2. .

Prior Document 1: Korean Patent Publication No. 10-2015-0109812 (2015.10.02.)

The technical problem of the present invention for solving the above problems is to use the purified air filtered from the filter module for the pulsing operation of the filter module, and effectively guide the foreign substances present in the lower part of the road dust suction cleaning vehicle to the loading part To provide a road dust suction cleaning vehicle configured to do so.

In order to achieve the above technical problem, an embodiment of the present invention is provided at the rear of the vehicle body, the loading unit is seated and supported on the vehicle body; a suction module provided on both sides of the rear part of the vehicle body and having a first suction part and a second suction part for guiding foreign substances sucked from the road surface to the loading part; a brush assembly provided under the vehicle body, corresponding to the width of the vehicle body, and guiding foreign matter on the road surface to the first suction unit and the second suction unit; a blowing force generating unit providing suction force to the suction module; a main duct for guiding a movement path of the air from which foreign substances have been filtered while passing through a filtering unit provided at an upper portion of the loading unit; a fine dust treatment unit coupled to the other end of the main duct and equipped with a filter module having a first filter unit and a second filter unit for filtering fine dust in the air discharged from the main duct; a first discharge duct having one end connected to the fine dust treatment unit and the other end connected to the blowing power generator to guide movement of the air filtered by the fine dust treatment unit; a second discharge duct for discharging the air introduced through the first discharge duct to the outside; a recirculation duct connected to the second discharge duct; and a first opening/closing control unit controlling opening and closing of a first vacuum gate connecting the fine dust processing unit and the first discharge duct, and controlling opening and closing of a second vacuum gate connecting the fine dust processing unit and the first discharge duct. It includes an opening and closing control module having a second opening and closing control unit, and when the filter module is pulsing, the purified air passing through the second discharge duct by the selective operation of the first opening and closing control unit and the second opening and closing control unit is It is made to be supplied to the filter module through the recirculation duct, the filter module is installed in a horizontal direction to correspond to the width of the fine dust treatment unit, and the other end of the main duct coupled to the fine dust treatment unit is the filter module. is disposed on the other end side of the filtering of fine dust while the air discharged from the main duct is moved from the other end side to the one end side of the filter module while the first vacuum gate and the second vacuum gate are open. After this, the air filtered through the first filter part is moved to the first vacuum gate after passing through the first compartment space partitioned by the partition wall part, and the air filtered through the second filter part passes through the partition wall part. After passing through the second compartment space provided by the second vacuum gate, the first vacuum gate is provided on the upper side of one end of the first filter unit, and the first vacuum gate and the first filter unit are provided in a vertical direction. Provided is a road dust suction cleaning vehicle in which the second vacuum gate is provided on an upper side of one end of the second filter unit and the second vacuum gate and the second filter unit are aligned in a vertical direction. do.

In one embodiment of the present invention, the fine dust treatment unit, a filter module for filtering the fine dust in the air discharged from the main duct; a first casing having a first support frame in which one end of the filter module is installed so that the filter module is installed in a horizontal direction, and a second support frame in which the other end of the filter module is installed, and an installation space portion is formed therein; The first vacuum gate is provided on one side of the first casing, forms a second partitioned space and the first partitioned space divided by the partition, and communicates with the first discharge duct. and a second casing formed with a second vacuum gate through which the second partitioned space portion and the first discharge duct communicate with each other; a third casing provided on the other side of the first casing; And a fourth casing seated on the upper portion of the second casing and having a first recirculation gate and a second recirculation gate communicating with the recirculation duct and the second casing, wherein the fourth casing includes the first opening/closing control unit. And a second opening and closing control unit is installed, the first opening and closing member provided in the first opening and closing control unit is made to control the opening and closing of the first vacuum gate or the first recirculation gate, provided in the second opening and closing control unit The second opening and closing member may be configured to control opening and closing of the second vacuum gate or the second recirculation gate.

In one embodiment of the present invention, the lower end of the second support frame forms a foreign material passage hole at a predetermined interval from the bottom surface of the first casing, and the bottom surface of the first casing is formed to be inclined, Foreign substances that have fallen to the bottom surface of the first casing may be guided to the third casing.

In one embodiment of the present invention, a screw receiving groove is formed in the lower portion of the third casing, a foreign material transfer screw is provided in the screw receiving groove, and the foreign matter moved to the screw receiving groove through the foreign material passing hole is The foreign matter conveying screw is rotated to move to the foreign matter outlet, and the foreign matter outlet may include an opening and closing door for controlling discharge of the foreign matter accommodated in the foreign matter outlet.

In one embodiment of the present invention, the upper portion of the first casing is made so that one end of the first discharge duct is seated, the upper portion of the second casing is made to support the lower surface of the fourth casing, 4 casing may be made to be connected to the recirculation duct.

In one embodiment of the present invention, the brush assembly includes a protective casing; Rotating rollers supported on roller support frames provided on both sides of the protective casing and configured to be rotatable; a plurality of first brushes protruding outward from the rotating roller and forming spirals toward the first suction part based on the center of the rotating roller; and a plurality of second brushes protruding outward from the rotating roller and forming spirals towards the second suction part based on the center of the rotating roller, wherein the first brush and the second brush forming the spiral are It is provided at predetermined intervals along the circumference of the rotating roller, and the spiral directions of the first brush and the second brush are opposite to each other based on the center of the rotating roller, but at the center of the rotating roller, the first brush The brush and the second brush may be connected.

In one embodiment of the present invention, the brush assembly is made to rotate in a direction opposite to the rotational direction of the vehicle wheel while the vehicle body moves forward, and is guided to the first brush based on the center of the rotating roller. Foreign substances on the road surface are moved toward the first suction part along the spiral direction of the first brush, and foreign substances on the road surface guided to the second brush based on the center of the rotating roller are moved along the spiral direction of the second brush. It is moved toward the second suction part, and a separation preventing member for preventing the foreign matter from escaping to the outside is coupled to the front side of the protective casing, and the foreign matter moved toward the front side of the protective casing by rotation of the first brush and the second brush. may be guided back to the first brush and the second brush by the separation preventing member.

The effects of the road dust suction cleaning vehicle according to the present invention described above are as follows.

According to the present invention, the fine dust treatment unit configured to use the purified air filtered from the filter module for the pulsing operation of the filter module has a simple structure, The pulsing operation of the first filter unit and the second filter unit may be performed.

The fine dust processing unit may have a simple and compact structure in which the coupling structure of the first to fourth casings is simple to manufacture. Accordingly, space utilization of the fine dust processing unit may be increased.

According to the present invention, the brush assembly provided at the lower portion of the road dust suction cleaning vehicle effectively guides foreign substances present in the lower portion of the driving road dust suction cleaning vehicle toward the first and second suction portions having strong suction power. That is, as the brush assembly is provided with a first brush and a second brush that form spirals in different directions with respect to the center of the rotating roller, foreign substances present in the lower part of the road dust suction vehicle are removed from the first suction part and the second suction part. can be guided effectively.

Therefore, foreign substances present in the lower part of the road dust suction cleaning vehicle can be effectively moved to the loading part. Unlike the conventional central brush, the brush assembly according to the present invention has a simple structure because it does not rotate in the width direction of the road dust suction cleaning vehicle.

The effects of the present invention are not limited to the above effects, and should be understood to include all effects that can be inferred from the detailed description of the present invention or the configuration of the invention described in the claims.

1 is an exemplary view showing a conventional road sweeper.
2 is a perspective view of a road dust suction cleaning vehicle according to an embodiment of the present invention.
3 is a schematic illustration showing the inside of a road dust suction cleaning vehicle according to an embodiment of the present invention.
4 is a perspective view of a road dust suction cleaning vehicle viewed from one rear side according to an embodiment of the present invention.
5 is a perspective view of a road dust suction cleaning vehicle viewed from the rear side according to an embodiment of the present invention.
6 is an exemplary cross-sectional view of portion AA of FIG. 3 .
7 is an exemplary cross-sectional view of a portion BB of FIG. 3;
8 is an exemplary cross-sectional view of part CC of FIG. 3 .
9 is an exemplary view showing the inside of a fine dust treatment unit according to an embodiment of the present invention.
FIG. 10 is an exemplary view showing a moving flow of air in a state in which the first opening/closing control unit and the second opening/closing control unit open the vacuum gate according to an embodiment of the present invention.
FIG. 11 is an exemplary diagram illustrating a flow of air in a state in which a first opening/closing control unit closes a first vacuum gate and a second opening/closing control unit opens a second vacuum gate according to an embodiment of the present invention.
12 is a perspective view of a brush assembly and a suction housing viewed from the bottom according to one embodiment of the present invention.
13 is a perspective view of a main part of a brush assembly according to an embodiment of the present invention.

Hereinafter, the present invention will be described with reference to the accompanying drawings. However, the present invention may be embodied in many different forms and, therefore, is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part is said to be "connected" to another part, this includes not only the case where it is "directly connected" but also the case where it is "indirectly connected" with another member interposed therebetween. . In addition, when a part "includes" a certain component, it means that it may further include other components without excluding other components unless otherwise stated.

In the present invention, the upper and lower parts mean that they are located above or below the object member, and do not necessarily mean that they are located above or below the gravitational direction.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view of a road dust suction cleaning vehicle according to an embodiment of the present invention, Figure 3 is a schematic illustration showing the inside of the road dust suction cleaning vehicle according to an embodiment of the present invention, Figure 4 is a schematic illustration of the present invention A perspective view of a road dust suction cleaning vehicle according to an embodiment as viewed from the rear on one side, and FIG. 5 is a perspective view of a road dust suction cleaning vehicle according to an embodiment of the present invention as viewed from the rear on the other side. FIG. 7 is an exemplary cross-sectional view of part B-B of FIG. 3, FIG. 8 is an exemplary cross-sectional view of part C-C of FIG. 3, and FIG. 9 shows the inside of a fine dust processing unit according to an embodiment of the present invention. FIG. 10 is an exemplary view showing the moving flow of air in a state in which the first opening and closing control unit and the second opening and closing control unit open the vacuum gate according to an embodiment of the present invention, and FIG. 11 is an exemplary view of the present invention. A first open/close control unit according to an embodiment closes a first vacuum gate, and a second open/close control unit according to an exemplary embodiment shows an air movement flow in a state in which a second vacuum gate is opened. FIG. A perspective view of a brush assembly and a suction housing according to the example viewed from the bottom, and FIG. 13 is a perspective view of a brush assembly according to an embodiment of the present invention.

2 to 13, the road dust suction cleaning vehicle 1000 includes a vehicle body 110, a loading part 120, a suction module 130, a brush assembly 200, a blowing force generator 300, It may include a main duct 400, a fine dust treatment unit 500, a first discharge duct 600, a second discharge duct 700, a recirculation duct 800, and an opening/closing control module 900.

The vehicle body 110 constitutes the framework of the road dust suction cleaning vehicle 1000, and various components may be mounted on the vehicle body 110.

In addition, the suction module 130 is provided on both sides of the rear of the vehicle body 110, sucks foreign substances present on the road surface, and guides them to the loading unit 120. Here, the suction power of the suction module 130 is provided from the blowing force generator 300 . That is, through the operation of the blowing force generator 300, the suction module 130 sucks foreign substances from the road surface. At this time, the foreign matter sucked from the suction module 130 may be dust. As such, foreign substances discharged to the loading part 120 through the suction module 130 may accumulate on the loading part 120 .

Here, the power for the operation of the blowing power generator 300 may be provided through, for example, electrical energy charged in a battery (not shown) or may be provided from an auxiliary engine (not shown) to generate blowing power. Power provided to the unit 300 may be provided in various forms. This road dust suction cleaning vehicle 1000 may be made of, for example, a diesel vehicle, a CNG vehicle, an electric vehicle, or a hydrogen-electric vehicle. 1000) can be made of various vehicles, of course.

As such, the suction force generated from the blowing force generator 300 is provided to the first suction part 131 and the second suction part 132 provided on both sides of the rear of the vehicle body 110 . Ends of the first suction part 131 and the second suction part 132 are connected to the suction housing 133 having a length corresponding to the width of the vehicle body 110 . Thus, while the vehicle body 110 is driving, foreign substances present in the lower portion of the vehicle body 110 may flow into the intake housing 133 having a length corresponding to the width of the vehicle body 110 .

A suction slit 134 formed along the longitudinal direction of the suction housing 133 is formed at the bottom of the suction housing 133, and foreign substances guided to the suction housing 133 pass through the suction slit 134 to the suction housing 133. ) can be moved into The foreign matter moved into the suction housing 133 moves to the loading unit 120 through the first suction part 131 and the second suction part 132 connected to both sides of the suction housing 133 .

The loading unit 120 is provided at the rear of the vehicle body 110 and is seated and supported by the vehicle body 110 . A filtering unit 121 is provided above the loading unit 120 . Accordingly, only fine dust and air of a predetermined size or less among the foreign substances discharged to the loading unit 120 are guided to the main duct 400 through the filtering unit 121, and most of the discharged into the loading unit 120 Foreign substances are accumulated in the loading part 120 .

On the other hand, the main duct 400 guides the movement path of air from which foreign substances are filtered while passing through the filtering unit 121 . One end of the main duct 400 is connected to the loading unit 120, and the other end of the main duct 400 is connected to the fine dust processing unit 500, so that the air introduced from the loading unit 120 is transferred to the fine dust processing unit. It is made to discharge to 500. Here, the fine dust processing unit 500 is disposed adjacent to the loading unit 120 .

Meanwhile, the fine dust treatment unit 500 is configured to filter fine dust in the air discharged from the main duct 400 . That is, the fine dust processing unit 500 is provided with a filter module 510 having a first filter unit 511 and a second filter unit 512, and fine dust in the air introduced into the fine dust processing unit 500. can be filtered.

The fine dust treatment unit 500 may include a filter module 510, a first casing 520, a second casing 530, a third casing 540, and a fourth casing 550.

Here, the filter module 510 is provided inside the first casing 520 . The filter module 510 may include a plurality of first filter units 511 and a plurality of second filter units 512 . Here, the plurality of first filter units 511 are arranged to be aligned at predetermined intervals in the vertical direction, and the plurality of second filter units 512 are arranged to be aligned at predetermined intervals in the vertical direction. The first filter unit 511 and the second filter unit 512 filter fine dust in the air discharged into the first casing 520 .

Here, the first filter unit 511 and the second filter unit 512 are installed in a horizontal direction to correspond to the width of the first casing 520 . That is, one end of the filter module 510 is supported and fixed to the first support frame 521 provided in the first casing 520, and the other end of the filter module 510 is supported by the second support frame 521 provided in the first casing 520. It is supported and fixed to the support frame 522. An installation space in which the filter module 510 can be installed is formed in the first casing 520 as described above.

In this way, the first filter unit 511 and the second filter unit 512 are installed in the horizontal direction by the first support frame 521 and the second support frame 522 provided in the first casing 520. , The other end of the main duct 400 coupled to the fine dust treatment unit 500 is disposed on the other end side of the filter module 510. This is because the air movement direction by the suction force provided to the filter module 510 by the blowing force generator 300 is moved from the other end of the filter module 510 to one end, so that the filter passes through the main duct 400. Filtering of fine dust may be performed while the air discharged to the other end of the module 510 moves from the other end of the filter module 510 to one end.

And the second casing 530 is provided on one side of the first casing 520 . The second casing 530 is divided into two spaces, a first partitioned space 531 and a second partitioned space 532 by the partition wall 533 . Thus, for example, air filtered through the first filter unit 511 for fine dust may be moved to the first compartment space unit 531 via the first filter unit 511 . In addition, the air filtered through the second filter unit 512 for fine dust may be moved to the second compartment space unit 532 via the second filter unit 512 . In this way, the air moved to the first compartment space portion 531 and the second compartment space portion 532 is blocked by the partition wall portion 533 so that the first compartment space portion 531 and the second compartment space portion 532 ), no air moves between them.

Also, a first vacuum gate 534 through which the first compartment space 531 and the first discharge duct 600 communicate with each other is formed in the second casing 530 . Also, a second vacuum gate 535 is formed in the second casing 530 so that the second compartment space 532 and the first discharge duct 600 communicate with each other.

Opening and closing of the first vacuum gate 534 and the second vacuum gate 535 may be controlled by the opening and closing control module 900 . That is, the first vacuum gate 534 may be selectively opened and closed by the first opening and closing control unit 910 installed and fixed to the fourth casing 550 seated on the upper portion of the second casing 530 . Also, the second vacuum gate 535 may be selectively controlled by the second opening/closing controller 920 installed and fixed to the fourth casing 550 .

The first opening/closing control unit 910 as described above selectively controls the flow of air moving to the first compartment space part 531 through the movement of the first opening/closing member 911 provided in the first opening/closing control unit 910. You can control it. Further, the second opening and closing control unit 920 selectively controls the flow of air moving to the second compartment space part 532 through the movement of the second opening and closing member 921 provided in the second opening and closing control unit 920. can do.

For example, as shown in FIG. 10 , the first opening/closing member 911 provided in the first opening/closing control unit 910 operates the first vacuum gate 534 while the blowing force generator 300 is operating. When the second vacuum gate 535 is opened by the second opening/closing member 921 provided in the second opening/closing control unit 920, the suction force generated from the blowing force generator 300 generates the first filter. The air filtered through the unit 511 may be moved to the first compartment space unit 531 and then moved to the first exhaust duct 600 through the first vacuum gate 534 . The air filtered through the second filter unit 512 may also be moved to the second compartment space unit 532 and then moved to the first exhaust duct 600 through the second vacuum gate 535 . Here, one end of the first discharge duct 600 is connected to the second casing 530 and the other end of the first discharge duct 600 is connected to the blowing force generator 300 . Therefore, the purified air passing through the first vacuum gate 534 and the second vacuum gate 535 is moved along the first discharge duct 600 to the blowing force generator 300, and then the second discharge duct ( 700) may be discharged to the outside.

In this way, in a state in which both the first vacuum gate 534 and the second vacuum gate 535 are open, the first filter unit 511 and the second filter unit 512 are the air discharged into the first casing 520. Fine dust filtering may be performed for.

11, for example, the first opening/closing member 911 provided in the first opening/closing control unit 910 closes the first vacuum gate 534, and the second opening/closing control unit 920 When the provided second opening/closing member 921 opens the second vacuum gate 535 , suction force generated from the blowing force generator 300 is provided only to the second filter unit 512 . In this case, only the second filter unit 512 filters fine dust from the air discharged into the first casing 520 .

As such, when the first opening/closing member 911 closes the open first vacuum gate 534 , suction force generated from the blowing force generator 300 is not provided to the first filter unit 511 . In this process, some of the fine dust attached to the outer surface of the first filter unit 511 falls out due to the interruption of the suction force provided to the first filter unit 511 .

In addition, when the first opening/closing member 911 closes the first vacuum gate 534, some of the purified air discharged to the outside through the second discharge duct 700 is recirculated connected to the second discharge duct 700. After being introduced into the first partitioned space 531 through the duct 800, it is supplied to the hollow part of the first filter unit 511 and fine dust attached to the outer surface of the first filter unit 511 is pulsed. .

Specifically, when the first opening/closing member 911 closing the first recirculation gate 551 formed in the fourth casing 550 descends to close the first vacuum gate 534, the first recirculation gate 551 opened ), the first compartment space portion 531 and the second discharge duct 700 communicate with each other.

In this way, the inside of the first casing 520 maintaining a vacuum state in a state in which air is allowed to move between the first compartment space portion 531 and the second discharge duct 700 and the second discharge duct in an atmospheric pressure state ( 700), some of the purified air discharged to the outside through the second discharge duct 700 due to the pressure difference passes through the recirculation duct 800 through the first recirculation gate 551 to the first compartment. It is supplied to the space portion 531. And the purified air supplied to the first compartment space 531 is eventually discharged to the outside of the first filter unit 511 through the hollow formed in the center of the first filter unit 511, and the first filter unit 511 ) can desorb the fine dust attached to it.

Unlike this, the first opening/closing member 911 provided in the first opening/closing control unit 910 operates the second recirculation gate 552 formed in the fourth casing 550 in a state in which the first vacuum gate 534 is opened. When the closed second opening/closing member 921 descends and closes the second vacuum gate 535, the purified air introduced through the recirculation duct 800 removes the fine dust attached to the second filter unit 512. Of course you can do it.

As such, the road dust suction cleaning vehicle 1000 operates the first filter unit 511 and the first filter unit 511 through the selective operation of the first open/close control unit 910 and the second open/close control unit 920 even in the process of cleaning the road dust. 2 It is made to enable the pulsing process of the filter unit 512. Therefore, the road dust suction cleaning vehicle 1000 can perform an effective dust treatment operation through selective pulsing of the first filter unit 511 and the second filter unit 512 even during the road dust cleaning process. Through the periodic pulsing process of the first filter unit 511 and the second filter unit 512, the lifespan of the first filter unit 511 and the second filter unit 512 may be increased.

And the third casing 540 provided in the fine dust treatment unit 500 is provided on the other side of the first casing 520 . The third casing 540 is separated by the filter module 510 provided in the first casing 520 and is configured to treat fine dust that has fallen to the lower portion of the first casing 520 .

Here, the lower end of the second support frame 522 that partitions the first casing 520 and the third casing 540 forms a predetermined distance from the bottom surface 524 of the first casing 520, and the foreign matter passage hole 523 ) is formed. Accordingly, the foreign matter (fine dust) that has fallen to the bottom surface 524 of the first casing 520 moves along the inclined bottom surface 524 of the first casing 520 and passes through the foreign matter passage hole 523. After that, it may be guided to the third casing 540 . Here, the bottom surface 524 of the first casing 520 is inclined so that foreign substances falling to the bottom surface 524 of the first casing 520 are guided to the foreign matter conveying screw 542 of the third casing 540 .

A screw receiving groove 541 is formed in the lower portion of the third casing 540 as described above. In addition, a foreign material transfer screw 542 is provided in the screw receiving groove 541 . The foreign material conveying screw 542 transfers the foreign material moved to the screw receiving groove 541 through the foreign material passage hole 523 to the foreign material outlet 543 through rotation.

In addition, an opening and closing door 544 is provided in the foreign matter outlet 543, and foreign substances accommodated in the foreign material outlet 543 may be discharged to the outside through opening and closing of the opening and closing door 544.

In such a fine dust treatment unit 500, the second casing 530 is provided on one side of the first casing 520, and the third casing 540 is provided on the other side of the first casing 520. And the upper part of the second casing 530 is made to support the lower surface of the fourth casing 550 . This fourth casing 550 is made to be connected to the recirculation duct 800.

In this way, the fine dust treatment unit 500 is easy to manufacture as the first casing 520 to the fourth casing 550 are made of a simple coupling structure, and has a compact structure to save space usability can be increased.

And the first vacuum gate 534 formed in the second casing 530 is provided at one end of the upper side of the first filter unit 511, and the first vacuum gate 534 and the first filter unit 511 are in the vertical direction. are arranged to align with And the second vacuum gate 535 formed in the second casing 530 is provided at one end of the upper side of the second filter unit 512, and the second vacuum gate 535 and the second filter unit 512 are in the vertical direction. are arranged to align with In this way, due to the arrangement of the vacuum gate and the filter module 510, the moving air path can be simplified. Therefore, when the air purified through the filter module 510 moves to the first discharge duct 600 or the inside of the filter module 510 through the recirculation duct 800 for the pulsing process of the filter module 510 When purified air is introduced, the air can move quickly. Accordingly, the fine dust treatment efficiency of the filter module 510 and the removal efficiency of the fine dust attached to the filter module 510 during pulsing may be increased.

Meanwhile, the brush assembly 200 is provided below the vehicle body 110 .

The brush assembly 200 may be made to correspond to the width of the vehicle body 110 .

The brush assembly 200 may include a protective casing 210 , a rotating roller 220 , a first brush 230 and a second brush 240 .

Here, the rotating roller 220 is provided inside the protective casing 210 , and the rotating roller 220 may be protected from the outside by the protective casing 210 .

Both sides of the rotary roller 220 may be supported by a roller support frame 211 provided in the protective casing 210 . The roller support frame 211 supports the rotating roller 220 so that the rotating roller 220 can be rotated. Also, a rotation motor 213 is provided on one side of the rotation roller 220, and the rotation roller 220 can be rotated by the rotation motor 213.

In addition, the first brush 230 protrudes to the outside of the rotating roller 220, and a plurality of first brushes ( 230) may be provided. Here, one end side of the rotating roller 220 may be a direction side in which the first suction unit 131 is disposed. In addition, the first brush 230 forms a predetermined interval along the circumference of the rotating roller 220, and may be provided in plurality. In this way, the first brush 230 forming a spiral is made to rotate counterclockwise from the center of the rotating roller 220 toward one end of the rotating roller 220 .

And the second brush 240 protrudes to the outside of the rotating roller 220, and a plurality of second brushes 240 form a spiral from the center of the rotating roller 220 to the other end of the rotating roller 220. may be provided. Here, the other end side of the rotary roller 220 may be a direction side where the second suction part 132 is disposed. The second brush 240 forms a predetermined interval along the circumference of the rotating roller 220, and may be provided in plurality. As such, the spiral second brush 240 rotates clockwise from the center of the rotating roller 220 toward the other end of the rotating roller 220 .

The first brush 230 and the second brush 240 form spirals in opposite directions with respect to the center of the rotating roller 220, but the first brush 230 and the second brush 230 and the second brush form spirals in different directions. The brush 240 is connected to the center of the rotating roller 220. In this way, a connection line in which the first brush 230 and the second brush 240 are connected by one line may form a shape such as “∧” when viewed from the bottom, for example. The connection lines of the first brush 230 and the second brush 240 form a predetermined interval along the circumference of the rotating roller 220 and are provided in plurality.

The first brush 230 and the second brush 240 guide the foreign substances introduced into the protective casing 210 to the suction housing 133 provided at the rear of the brush assembly 200, but the first brush 230 ) and the second brush 240 guide foreign matter to both sides of the suction housing 133 where the first suction part 131 and the second suction part 132 are disposed. That is, foreign substances guided toward the first brush 230 based on the center of the rotary roller 220 are moved toward the first suction part 131 by the first brush 230 while the rotary roller 220 rotates. will do In addition, foreign substances guided toward the second brush 240 based on the center of the rotary roller 220 are moved toward the second suction part 132 by the second brush 240 while the rotary roller 220 rotates. do.

In this way, the first brush 230 and the second brush 240 are made to guide foreign matter toward the first suction part 131 and the second suction part 132 that provide suction power into the suction housing 133. Foreign substances on the road surface can be moved to the first suction part 131 and the second suction part 132 more effectively.

Here, the rotational direction of the brush assembly 200 is configured to rotate in the opposite direction to the rotational direction of the wheels of the vehicle while the road dust suction cleaning vehicle 1000 moves forward to clean the road. Accordingly, the foreign substances guided by the first brush 230 are moved toward the first suction part 131 along the spiral direction of the first brush 230, and the foreign substances guided by the second brush 240 are moved to the second brush 240. ) may be moved toward the second suction part 132 along the spiral direction.

And the separation preventing member 214 is coupled to the front side of the protective casing 210 . The detachment preventing member 214 is configured to prevent foreign substances from escaping to the outside of the protective casing 210 while the first brush 230 and the second brush 240 rotate. Such separation prevention member 214 may be made of an elastic material having a predetermined elastic force such as rubber.

The separation preventing member 214 is moved toward the front side of the protective casing 210 by the first brush 230 and the second brush 240 while the first brush 230 and the second brush 240 rotate. It is made to guide the foreign matter to the side of the first brush 230 and the second brush 240 again.

However, this is only a preferred embodiment of the present invention, and the scope of the present invention is not limited by the description scope of these embodiments.

The above description of the present invention is for illustrative purposes, and those skilled in the art can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present invention is indicated by the following claims, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts should be interpreted as being included in the scope of the present invention.

110: vehicle body
120: loading part
121: filtering unit
130: intake module
131: first inlet
132: second inlet
133 intake housing
134 suction slit
200: brush assembly
210: protective casing
211: roller support frame
213: rotation motor
214: departure prevention member
220: rotating roller
230: first brush
240: second brush
300: blowing power generator
400: main duct
500: fine dust processing unit
510: filter module
511: first filter unit
512: second filter unit
520: first casing
521: first support frame
522: second support frame
523: foreign matter passage hole
524: bottom surface
530: second casing
531: first partition space
532: second partition space
533: partition wall
534: first vacuum gate
535: second vacuum gate
540: third casing
541: screw receiving groove
542: foreign matter transfer screw
543: foreign matter outlet
544: opening and closing door
550: fourth casing
551: first recirculation gate
552: second recirculation gate
600: first discharge duct
700: second discharge duct
800: recirculation duct
900: opening and closing control module
910: first opening and closing control unit
911: first opening and closing member
920: second opening and closing control unit
921: second opening and closing member
1000: road dust suction cleaning car

Claims (7)

a loading unit provided at the rear of the vehicle body and seated and supported by the vehicle body;
a suction module provided on both sides of the rear part of the vehicle body and having a first suction part and a second suction part for guiding foreign substances sucked from the road surface to the loading part;
a brush assembly provided under the vehicle body, corresponding to the width of the vehicle body, and guiding foreign matter on the road surface to the first suction unit and the second suction unit;
a blowing force generating unit providing suction force to the suction module;
a main duct for guiding a movement path of the air from which foreign substances have been filtered while passing through a filtering unit provided at an upper portion of the loading unit;
a fine dust treatment unit coupled to the other end of the main duct and equipped with a filter module having a first filter unit and a second filter unit for filtering fine dust in the air discharged from the main duct;
a first discharge duct having one end connected to the fine dust treatment unit and the other end connected to the blowing power generator to guide movement of the air filtered by the fine dust treatment unit;
a second discharge duct for discharging the air introduced through the first discharge duct to the outside;
a recirculation duct connected to the second discharge duct; and
A first opening/closing control unit controlling opening and closing of a first vacuum gate connecting the fine dust processing unit and the first discharge duct, and a first opening and closing control unit controlling opening and closing of a second vacuum gate connecting the fine dust processing unit and the first discharge duct. 2 includes an opening and closing control module having an opening and closing control unit,
During the pulsing operation of the filter module, the purified air passing through the second discharge duct is supplied to the filter module through the recirculation duct by the selective operation of the first opening and closing control unit and the second opening and closing control unit. ,
The filter module is installed in a horizontal direction to correspond to the width of the fine dust treatment unit, and the other end of the main duct coupled to the fine dust treatment unit is disposed at the other end of the filter module, and the first vacuum gate and With the second vacuum gate open, the air discharged from the main duct is filtered of fine dust in the process of moving from the other end side to the one end side of the filter module,
The air filtered through the first filter part passes through the first compartment space partitioned by the partition wall part and then moves to the first vacuum gate, and the air filtered through the second filter part is provided by the partition wall part. After passing through the second compartment space, it moves to the second vacuum gate, and the first vacuum gate is provided at an upper end of the first filter unit so that the first vacuum gate and the first filter unit are vertically aligned. The second vacuum gate is disposed at an upper end of one end of the second filter unit, and the second vacuum gate and the second filter unit are vertically aligned,
The fine dust treatment unit may include a filter module filtering fine dust in the air discharged from the main duct; a first casing having a first support frame in which one end of the filter module is installed so that the filter module is installed in a horizontal direction, and a second support frame in which the other end of the filter module is installed, and an installation space portion is formed therein; The first vacuum gate is provided on one side of the first casing, forms a second partitioned space and the first partitioned space divided by the partition, and communicates with the first discharge duct. and a second casing formed with a second vacuum gate through which the second partitioned space portion and the first discharge duct communicate with each other; a third casing provided on the other side of the first casing; And a fourth casing seated on the upper portion of the second casing and having a first recirculation gate and a second recirculation gate communicating with the recirculation duct and the second casing, wherein the fourth casing includes the first opening/closing control unit. And a second opening and closing control unit is installed, the first opening and closing member provided in the first opening and closing control unit is made to control the opening and closing of the first vacuum gate or the first recirculation gate, provided in the second opening and closing control unit The second opening and closing member controls opening and closing of the second vacuum gate or the second recirculation gate.
delete According to claim 1,
The lower end of the second support frame forms a foreign material passage hole at a predetermined distance from the bottom surface of the first casing,
The road dust suction cleaning vehicle, characterized in that the bottom surface of the first casing is formed to be inclined, so that the foreign matter that has fallen to the bottom surface of the first casing is guided to the third casing.
According to claim 3,
A screw accommodating groove is formed in the lower portion of the third casing, and a foreign material transfer screw is provided in the screw accommodating groove,
The foreign matter moved to the screw receiving groove through the foreign matter passing hole is moved to the foreign matter discharge port by rotation of the foreign matter conveying screw,
The road dust suction cleaning vehicle, characterized in that the foreign matter outlet is provided with an opening and closing door for controlling the external discharge of the foreign matter accommodated in the foreign matter outlet.
According to claim 1,
One end of the first discharge duct is seated on the upper part of the first casing, and the lower surface of the fourth casing is supported on the upper part of the second casing, and the fourth casing is connected to the recirculation duct. Road dust suction cleaning vehicle, characterized in that consisting of.
According to claim 1,
The brush assembly,
protective casing;
Rotating rollers supported on roller support frames provided on both sides of the protective casing and configured to be rotatable;
a plurality of first brushes protruding outward from the rotating roller and forming spirals toward the first suction part based on the center of the rotating roller; and
And a plurality of second brushes protruding outward of the rotating roller and forming a spiral toward the second suction part based on the center of the rotating roller,
The first brush and the second brush forming a spiral are provided at predetermined intervals along the circumference of the rotating roller,
The spiral directions of the first brush and the second brush are opposite to each other with respect to the center of the rotating roller, and the first brush and the second brush are connected at the center of the rotating roller. Dust suction sweeper.
According to claim 6,
The brush assembly is made to rotate in a direction opposite to the rotational direction of the vehicle wheels while the vehicle body moves forward,
Foreign substances on the road surface guided by the first brush based on the center of the rotating roller are moved toward the first suction part along the spiral direction of the first brush,
Foreign substances on the road surface guided by the second brush based on the center of the rotating roller are moved toward the second suction part along the spiral direction of the second brush,
An anti-separation member is coupled to the front side of the protective casing to prevent foreign substances from escaping to the outside, and the foreign substances moved to the front side of the protective casing by the rotation of the first brush and the second brush are returned to the outer side by the anti-separation member. Road dust suction cleaning vehicle, characterized in that guided by the first brush and the second brush.

Images